EXELIXIS, INC. (EXEL) Business

Item 1. Business.

Overview

Exelixis, Inc. (Exelixis, we, our or us) is an oncology company innovating next-generation medicines and regimens at the forefront of cancer care. We have produced four marketed pharmaceutical products, two of which are formulations of our flagship molecule, cabozantinib, and we are steadily advancing and evolving our product pipeline portfolio, including our lead clinical asset, zanzalintinib, currently under review by the U.S. Food and Drug Administration (FDA) for the treatment of certain forms of colorectal cancer (CRC), as well as the focus of an extensive late-stage clinical development program in other indications. With a rational and disciplined approach to investment, we are leveraging our internal experience and expertise and the strength of strategic partnerships, to identify and pursue opportunities across the landscape of scientific modalities, including small molecules and biotherapeutics, such as antibody-drug conjugates (ADCs).

Sales related to cabozantinib account for the majority of our revenues. Cabozantinib is an inhibitor of multiple tyrosine kinases, including MET, AXL, VEGF receptors and RET and has been approved by the FDA, and in 68 other countries for all or a combination of, the following: as CABOMETYX® (cabozantinib) tablets for advanced renal cell carcinoma (RCC) (both alone and in combination with Bristol-Myers Squibb Company’s (BMS) nivolumab (OPDIVO®)), previously treated hepatocellular carcinoma (HCC), previously treated, radioactive iodine (RAI)-refractory differentiated thyroid cancer (DTC) and previously treated, unresectable, locally advanced or metastatic, well-differentiated pancreatic neuroendocrine tumors (pNET) and extra-pancreatic neuroendocrine tumors (epNET); and as COMETRIQ® (cabozantinib) capsules for progressive, metastatic medullary thyroid cancer (MTC). For physicians treating these types of cancer, cabozantinib has become or is becoming an important medicine in their selection of effective therapies.

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The other two products resulting from our discovery efforts are: COTELLIC® (cobimetinib), an inhibitor of MEK, approved as part of multiple combination regimens to treat specific forms of advanced melanoma and marketed under a collaboration with Genentech, Inc. (a member of the Roche Group) (Genentech); and MINNEBRO® (esaxerenone), an oral, non-steroidal, selective blocker of the mineralocorticoid receptor, approved for the treatment of hypertension in Japan and licensed to Daiichi Sankyo Company, Limited (Daiichi Sankyo). See “—Collaborations and Business Development Activities—Other Collaborations.”

2025 was our ninth consecutive year of annual profitability; it featured growth in net product revenues of approximately 17% year-over-year as a result of increased sales of our cabozantinib products in the U.S., supplemented by an approximately 7% year-over-year increase in royalties earned pursuant to collaboration agreements with our ex-U.S. partners. We plan to continue leveraging our operating cash flows to advance a broad array of diverse biotherapeutics and small molecule programs for the treatment of cancer, as well as to support company-sponsored and externally sponsored clinical trials evaluating cabozantinib and zanzalintinib. Zanzalintinib is a novel oral inhibitor of kinases including the TAM kinases (TYRO3, AXL, MER), MET and VEGF receptors. Our zanzalintinib development program includes a series of ongoing and planned pivotal trials to explore its therapeutic potential in CRC, clear cell (cc) and non-clear cell (ncc) RCC, neuroendocrine tumors (NET) and meningioma, as well as earlier-stage trials. Our pipeline programs in phase 1 development each have best-in-class potential and include: XL309, a small molecule inhibitor of USP1, which has emerged as a synthetic lethal target in the context of BRCA-mutated tumors; XB010, an ADC consisting of a monomethyl auristatin E (MMAE) payload conjugated to a monoclonal antibody (mAb) targeting the tumor antigen 5T4; XB628, a first-in-class bispecific antibody that simultaneously targets programmed cell death ligand 1 (PD-L1) and natural killer cell receptor group 2A (NKG2A), identified as key regulators of adaptive and innate immune cell activity; and XB371, a next-generation tissue factor (TF)-targeting ADC with a topoisomerase inhibitor payload. We complement our internal drug discovery and development efforts by in-licensing or acquiring, or obtaining options to in-license or acquire, investigational oncology assets from third parties if those oncology assets demonstrate evidence of, or potential for, clinical success.

Exelixis Marketed Products: CABOMETYX and COMETRIQ

As detailed below, CABOMETYX and COMETRIQ have been approved to treat patients with various forms of cancer by the FDA for the U.S. market, the European Commission (EC), following European Medicines Agency (EMA) review for the European Economic Area (EEA), which covers all 27 member states of the European Union and Norway, Lichtenstein and Iceland (Member States of the EEA), the Medicines and Healthcare products Regulatory Agency for the United Kingdom (U.K.) and the Japanese Pharmaceuticals and Medical Devices Agency (PMDA) for the Japanese market, as well as by comparable regulatory authorities across other markets worldwide.

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In 2025, 2024 and 2023, we generated $2,122.8 million, $1,809.4 million and $1,628.9 million, respectively, in net product revenues from sales of CABOMETYX and COMETRIQ. Outside the U.S., we rely on collaboration partners for the commercialization of our cabozantinib products; Ipsen is responsible for all territories outside of the U.S. and Japan, and Takeda is responsible for the Japanese market. In 2025, 2024 and 2023, we earned $179.2 million, $166.9 million and $148.5 million, respectively, of royalties on net sales of cabozantinib products outside of the U.S. For additional information on the terms of our collaboration agreements with Ipsen and Takeda, see “—Collaborations and Business Development Activities—Cabozantinib Commercial Collaborations.”

Renal Cell Carcinoma - CABOMETYX is a Leading Tyrosine Kinase Inhibitor (TKI) Treatment Option for Patients with Advanced RCC

Over time, CABOMETYX has been increasingly adopted in the treatment of patients with RCC, reflecting its establishment as a standard of care in clinical practice. In 2026, approximately 34,000 patients with advanced kidney cancer will require systemic therapy in the U.S., with approximately 22,000 patients receiving first-line treatment.

Since CABOMETYX was first approved, we have deployed our Medical Affairs and Commercial teams to educate physicians about CABOMETYX. We believe that the commercial success of CABOMETYX is attributable to the strength of the clinical data reflected in its FDA-approved labeling for advanced RCC. The indications for the treatment of advanced RCC in the CABOMETYX label are based on the results of the METEOR, CABOSUN and CheckMate -9ER clinical trials. In July 2015, we announced positive results of METEOR, a phase 3 pivotal trial comparing CABOMETYX to everolimus in patients with advanced RCC who have experienced disease progression following treatment with at least one prior VEGF receptor inhibitor. These results formed the basis for FDA approval in April 2016, following which CABOMETYX became the first single-agent therapy approved in the U.S. for previously treated advanced RCC to demonstrate statistically significant and clinically meaningful improvements in three key efficacy parameters in a global pivotal trial: overall survival (OS); progression-free survival (PFS); and objective response rate (ORR). To date, CABOMETYX remains the only single-agent therapy to have achieved these clinical results in previously treated advanced RCC. In October 2016, we announced positive results from CABOSUN, a randomized, open-label, active-controlled phase 2 investigator-sponsored trial (IST) conducted by the Alliance for Clinical Trials in Oncology (the Alliance), comparing cabozantinib with sunitinib in patients with previously untreated advanced RCC with intermediate- or poor-risk disease. These results formed the basis for FDA approval in December 2017 of CABOMETYX for previously untreated patients with advanced RCC. For this patient population, CABOMETYX is the only approved single-agent therapy to demonstrate improved PFS compared with sunitinib, a first-generation TKI that was the previous standard of care.

CABOMETYX has also demonstrated positive clinical results in combination with immune checkpoint inhibitors (ICIs), most notably in CheckMate -9ER, an open-label, randomized, multinational phase 3 pivotal trial evaluating CABOMETYX in combination with nivolumab versus sunitinib in patients with previously untreated, advanced or metastatic RCC. Results from CheckMate -9ER demonstrated that the combination of CABOMETYX and nivolumab doubled PFS and ORR and reduced the risk of disease progression or death by 40% compared with sunitinib and formed the basis for FDA approval of the combination in January 2021 as a first-line treatment of patients with advanced RCC. At five years of follow-up, the CheckMate -9ER results continued to show superior PFS and ORR in patients treated with CABOMETYX in combination with nivolumab over sunitinib, regardless of risk classification (as determined by International Metastatic Renal Cell Carcinoma Database Consortium scores). Superior OS was also observed in patients treated with the combination. These results were featured in an oral presentation at the American Society of Clinical Oncology (ASCO) Genitourinary Cancers Symposium in February 2025.

In addition, the National Comprehensive Cancer Network (NCCN), the nation’s foremost non-profit alliance of leading cancer centers, has included the combination of CABOMETYX with nivolumab in its Clinical Practice Guidelines for Kidney Cancer as a Category 1 preferred option for the first-line treatment of patients with ccRCC across all risk groups, and as a Category 2A other recommended option for first-line nccRCC. The NCCN also lists single-agent CABOMETYX as a recommended regimen for patients with previously treated advanced ccRCC, supporting CABOMETYX’s position in the RCC treatment landscape across lines of therapy.

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In 2025, in markets outside the U.S., we continued to work closely with our collaboration partner Ipsen in support of its regulatory strategy and commercialization efforts for CABOMETYX, both as a single agent and in combination with nivolumab, and similarly with our collaboration partner Takeda with respect to the Japanese market. As a result of the approvals of CABOMETYX and/or the combination of CABOMETYX with nivolumab for RCC indications in 68 countries outside of the U.S., including the Member States of the EEA, Japan, the U.K., Canada, Brazil, Taiwan, South Korea, Australia and Hong Kong, CABOMETYX has continued to grow markedly outside the U.S. both in sales revenue and the number of RCC patients benefiting from its clinical effect.

Hepatocellular Carcinoma - CABOMETYX Offers an Important Alternative for Patients with Previously Treated HCC

Liver cancer is a leading cause of cancer death worldwide, accounting for more than 800,000 new cases and 700,000 deaths each year. In the U.S., the incidence of liver cancer has tripled over the past four decades. Although HCC is the most common form of liver cancer, making up almost three-fourths of the more than approximately 42,000 cases of liver cancer estimated to be diagnosed in the U.S. during 2026, this patient population has long been underserved. Prior to 2017, therapies for the treatment of HCC were limited in number. Biopharmaceutical companies have since developed new and demonstrably more effective therapies for previously untreated HCC patients, including ICI combination therapies. These new treatment options have improved longer-term outcomes for HCC patients, thereby resulting in a greater number of people receiving multiple lines of therapy. Thus, the second- and later-line market for HCC therapies has become increasingly competitive, and we believe this trend may continue over the coming years, with monotherapy CABOMETYX maintaining an important place in the HCC treatment landscape.

The FDA approved the HCC indication for CABOMETYX in January 2019 based on our phase 3 pivotal study, CELESTIAL. The CELESTIAL study met its primary endpoint, demonstrating that cabozantinib significantly improved OS compared to placebo. The NCCN has included CABOMETYX in its Clinical Practice Guidelines for Hepatocellular Carcinoma as a Category 1 option for the treatment of patients with HCC as a subsequent-line systemic therapy if disease progression occurs, providing further support for CABOMETYX as an important treatment option for eligible HCC patients.

Outside the U.S., the EMA’s approval of CABOMETYX provided physicians in the EEA with a second approved therapy for the second-line treatment of this aggressive and difficult-to-treat cancer, and approvals from Health Canada and the Japanese PMDA brought a much-needed treatment option to HCC patients in those countries. In addition to the Member States of the EEA, Japan, the U.K. and Canada, CABOMETYX is also approved for previously treated HCC indications in Brazil, Taiwan, South Korea, Australia and Hong Kong, among other countries.

Differentiated Thyroid Cancer - An Opportunity for CABOMETYX to Help an Underserved Patient Population

Approximately 45,000 new cases of thyroid cancer will be diagnosed in the U.S. in 2026. Differentiated thyroid tumors, which make up about 90% of all thyroid cancers, are typically treated with surgery followed by ablation of the remaining thyroid with RAI. Approximately 5% to 15% of differentiated thyroid tumors are resistant to RAI treatment. With limited treatment options, these patients have a life expectancy of three to six years from the time metastatic lesions are detected. In December 2020, we announced that COSMIC-311, our phase 3 pivotal trial evaluating cabozantinib in patients with RAI-refractory DTC who have progressed after receiving up to two prior VEGF receptor-targeted therapies, met one of its two primary endpoints, demonstrating a statistically significant improvement in PFS compared with placebo. In September 2021, the FDA approved CABOMETYX for the treatment of adult and pediatric patients 12 years of age and older with locally advanced or metastatic DTC that has progressed following prior VEGF receptor-targeted therapy and who are RAI-refractory or ineligible. We have established a strong market position for CABOMETYX since our commercial launch for previously treated DTC.

Outside the U.S., our collaboration partner Ipsen received approval from the EMA in May 2022 for CABOMETYX as a monotherapy for the treatment of adult patients with locally advanced or metastatic DTC, refractory or not eligible to RAI who have progressed during or after prior systemic therapy, which followed an approval from Health Canada in April 2022 to market CABOMETYX for a similar DTC indication.

Pancreatic Neuroendocrine tumors (pNET) and extra-pancreatic neuroendocrine tumors (epNET) – CABOMETYX Offers a New Treatment Option for Patients with pNET and epNET

It is estimated that there are approximately 161,000 to 192,000 people currently living with unresectable, locally advanced or metastatic NET. The number of people diagnosed with NET each year has been increasing. Most NET take years to develop and grow slowly, but eventually all patients with advanced or metastatic NET will develop refractory and

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progressing disease. NET can develop in any part of the body, but most commonly start in the gastrointestinal (GI) tract or in the lungs, where they have historically been referred to as carcinoid tumors and are more recently called epNET. The five-year survival rate for people with advanced GI-NET is 68%. NET can also start in the pancreas as pNET where they tend to be more aggressive, with a five-year survival rate of 19% for people with advanced pNET.

In August 2023, we announced that the Alliance independent Data and Safety Monitoring Board unanimously recommended to unblind and stop the CABINET phase 3 pivotal trial evaluating cabozantinib versus placebo in patients with pNET and epNET who experienced progression after prior systemic therapy due to a dramatic improvement in efficacy that was observed at an interim analysis. In March 2025, we announced that the FDA approved CABOMETYX for the treatment of adult and pediatric patients 12 years of age and older with previously treated, unresectable, locally advanced or metastatic, well-differentiated pNET and epNET. Since our commercial launch of CABOMETYX in this patient population, we have established a strong market position for CABOMETYX.

Outside the U.S., Ipsen received approval for CABOMETYX as a treatment for previously treated, well- differentiated/unresectable, locally advanced, or metastatic pNET or epNET (with local labeling variations) from the EC for the EEA and health regulatory authorities in Brazil and Australia in July 2025, and from health regulatory authorities in Switzerland and Singapore in October 2025 and December 2025, respectively.

Medullary Thyroid Cancer - COMETRIQ, the First Commercial Approval of Cabozantinib

Estimates suggest that there will be approximately 1,000 MTC cases diagnosed in the U.S. in 2026, and COMETRIQ has served as an important treatment option for these patients since January 2013. The FDA approved COMETRIQ for progressive, metastatic MTC based on our phase 3 pivotal trial, EXAM. The EXAM trial met its primary endpoint, demonstrating a statistically significant and clinically meaningful prolongation in PFS for cabozantinib compared with placebo. We are continuing to market COMETRIQ capsules for MTC patients at the labeled dose of 140 mg.

Exelixis Development Programs

Cabozantinib Development Program

Cabozantinib inhibits the activity of tyrosine kinases, including MET, AXL, VEGF receptors and RET. These receptor tyrosine kinases are involved in both normal cellular function and in pathologic processes such as oncogenesis, metastasis, tumor angiogenesis, drug resistance and maintenance of the tumor microenvironment. Beyond the established clinical benefits of cabozantinib in its approved indications, objective responses have been observed in patients treated with cabozantinib in additional individual tumor types investigated in early- and late-stage clinical trials, reflecting the medicine’s broad clinical potential. Our collaboration partners Ipsen and Takeda have also conducted trials in their respective territories through independently-sponsored programs, as well as co-funding select cabozantinib trials with us.

Combination Studies with Roche

We have entered into collaborations with F. Hoffmann-La Roche Ltd. (Roche) for the purpose of evaluating the combination of cabozantinib and Roche’s anti-PD-L1 ICI, atezolizumab, diversifying our exploration of cabozantinib combinations with ICIs.

COSMIC-021 - Locally Advanced or Metastatic Solid Tumors. In February 2017, we entered into a master clinical supply agreement with Roche. As part of the clinical supply agreement, in June 2017, we initiated COSMIC-021, a large phase 1b study evaluating the safety and tolerability of cabozantinib in combination with atezolizumab in patients with a wide variety of locally advanced or metastatic solid tumors. We are the trial sponsor of COSMIC-021, and Roche is providing atezolizumab free of charge. The study is divided into two parts: a dose-escalation phase, which was completed in 2018; and an expansion cohort phase, which completed enrollment in January 2022. Enrollment in the expansion phase of this study included 20 combination therapy tumor expansion cohorts in non-small cell lung cancer (NSCLC), extra-pelvic metastatic castration-resistant prostate cancer (mCRPC), RCC and various other tumor types.

CONTACT-02 - mCRPC. Building on preclinical and clinical observations that cabozantinib in combination with ICIs may promote a more immune-permissive tumor environment, in June 2020, we initiated CONTACT-02, a phase 3 pivotal trial sponsored by us and co-funded by Roche, evaluating the combination of cabozantinib and Roche’s ICI, atezolizumab, versus a second novel hormonal therapy (NHT) in patients with measurable, mCRPC who have progressed after treatment with one prior NHT. In August 2023, we announced positive top-line results from CONTACT-02. The trial met one of two primary endpoints, demonstrating a statistically significant improvement in the predefined PFS intent-to-treat population

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(ITT) (i.e., the first 400 randomized patients), and these data were presented at the ASCO Genitourinary Cancers Symposium in January 2024. For the second primary endpoint of OS, the final analysis for CONTACT-02, which was presented during the GU Tumours Proffered Paper Session at the European Society for Medical Oncology (ESMO) Congress in September 2024, demonstrated a trend favoring the combination of cabozantinib and atezolizumab; however, it was not statistically significant. Based on these results and the evolution of the treatment landscape in mCRPC, in July 2025, we announced our intention not to file a supplemental New Drug Application (sNDA) for CONTACT-02.

Trials Conducted through our CRADA with NCI-CTEP and our IST Program

Independent investigators also conduct trials evaluating cabozantinib through our Cooperative Research and Development Agreement (CRADA) with the National Cancer Institute’s Cancer Therapy Evaluation Program (NCI-CTEP) or through our IST program. In October 2011, we entered into a CRADA with NCI-CTEP for the clinical development of cabozantinib and have extended its term through October 2026. The CRADA reflects a commitment by NCI-CTEP to provide funding for the broad exploration of cabozantinib’s potential in a wide variety of cancers, each representing a substantial unmet medical need. Investigational New Drug (IND) applications for trials under the CRADA are held by NCI-CTEP. NCI-CTEP also retains rights to any inventions made in whole or in part by NCI-CTEP investigators. However, for inventions that claim the use and/or the composition of cabozantinib, we have an automatic option to elect a worldwide, non-exclusive license to cabozantinib inventions for commercial purposes, with the right to sublicense to affiliates or collaborators working on our behalf, as well as an additional, separate option to negotiate an exclusive license to cabozantinib inventions. Further, before any trial proposed under the CRADA may commence, the protocol is subject to our review and approval.

PDIGREE is an ongoing phase 3 trial led by the Alliance that is enrolling 1,110 intermediate- or poor-risk advanced RCC patients who have a clear cell component in their tumors. All patients are initially treated with up to four cycles of induction ipilimumab combined with nivolumab. Subsequently, patients are treated based on their response to the induction therapy. Patients achieving a complete response (CR) continue on maintenance nivolumab, while patients with progressive disease (PD) are switched to cabozantinib monotherapy. Patients who neither achieve a CR nor develop PD during induction are randomized 1:1 to either maintenance nivolumab or nivolumab in combination with cabozantinib 40 mg daily. The primary endpoint is OS, while PFS, CR rate, ORR and safety are among the secondary endpoints.

Clinical trials conducted with support from these external partners have enabled further expansion of the cabozantinib development program and cabozantinib franchise with less burden on our internal development resources, most recently reflected by the March 2025 FDA approval of CABOMETYX for patients with previously treated advanced NET, which was based on results from the Alliance-led CABINET phase 3 pivotal study. In addition to facilitating label expansion for the cabozantinib franchise, data sets from these externally sponsored clinical trials may also prove valuable by informing our development plans for zanzalintinib.

Pipeline Development Programs - Advancing Exelixis’ Future Cancer Therapy Candidates

To continue growing our pipeline, we are investing heavily in the identification, exploration and advancement of new molecules that are clinically differentiated with the potential to improve the standard of care for cancer patients. Several product candidates have progressed into clinical trials, including both small molecules and biotherapeutics that we have discovered or in-licensed and believe have the potential to treat a variety of cancers, outside of the cabozantinib franchise.

Small Molecule Programs

Since its formation in 2000, our small molecule drug discovery team has advanced over 25 compounds to the IND Application-stage, either independently or with collaboration partners, and today we deploy our drug discovery expertise to advance small molecule programs toward and through preclinical development. These efforts are led by our experienced scientists, including some of the same scientists who led the efforts to discover cabozantinib, cobimetinib and esaxerenone, all of which are now commercially distributed drug products. The furthest along of our internally-discovered small molecule product candidates is zanzalintinib, which is now being evaluated in a series of phase 1, 2 and 3 clinical trials, as described in further detail below. We also augment our small molecule discovery activities through research collaborations and in-licensing arrangements.

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Zanzalintinib Development Program

Zanzalintinib is a novel oral inhibitor of kinases including the TAM kinases (TYRO3, AXL, MER), MET and VEGF receptors, which are implicated in cancer’s growth and spread. Zanzalintinib has a pharmacokinetic half-life of approximately one day, supporting once-daily dosing, which could translate into more effective management of adverse events and a potentially favorable safety profile compared with other VEGF-receptor TKIs. Taken together with its promising anti-tumor activity, we believe zanzalintinib is positioned to be a best-in-class VEGF-receptor TKI in a wide range of solid tumors when used as a monotherapy, as well as when used in combination regimens. Accordingly, we are evaluating zanzalintinib in a robust and growing development program that builds on our prior experience with cabozantinib and targets indications with high unmet need, including RCC, CRC, NET and meningioma. Beyond our established collaborations, we will continue to explore additional opportunities for novel combinations with zanzalintinib.

STELLAR-001 - Advanced Solid Tumors. Initiated in 2019, STELLAR-001 is a multicenter phase 1b/2 clinical trial evaluating the pharmacokinetics, safety, tolerability and preliminary anti-tumor activity of zanzalintinib and is divided into dose-escalation and expansion phases designed to evaluate zanzalintinib both as a monotherapy and in combination with atezolizumab in a variety of solid tumors. We previously presented data from STELLAR-001 during poster sessions at the 2022 ESMO Congress, which demonstrated preliminary clinical activity similar to that observed with cabozantinib, across a range of solid tumors and dose levels, with a manageable safety profile. The phase 2 recommended dose for both monotherapy zanzalintinib and zanzalintinib in combination with atezolizumab was determined to be 100 mg once daily. Enrollment into the STELLAR-001 expansion cohorts for ccRCC, nccRCC, hormone-receptor positive breast cancer, mCRPC and CRC is complete, and we presented initial results evaluating monotherapy zanzalintinib in patients with previously treated ccRCC during the Oral Abstracts session at the International Kidney Cancer Symposium in November 2023. At a median follow-up time of 8.3 months, the findings demonstrated an ORR of 38% per Response Evaluation Criteria in Solid Tumors (RECIST) v. 1.1 for the entire ccRCC cohort of 32 patients, including an ORR of 57% among the 14 patients who were not previously treated with cabozantinib; the disease control rate was 88%. The ORR for the 26 patients who had received prior VEGF receptor-TKIs was 35%, including responses in four of the 17 patients (24%) who had received prior cabozantinib. Preliminary results from a randomized expansion cohort of patients with metastatic CRC (n=107) from STELLAR-001 were presented at the ASCO Gastrointestinal Cancers Symposium in January 2025 (ASCO GI 2025). In the overall population, all efficacy parameters, ORR, PFS and OS, favored the combination of atezolizumab plus zanzalintinib versus zanzalintinib monotherapy (PFS HR 0.65 (95% CI, 0.42-0.99); OS HR 0.89 (95% CI, 0.56-1.42)). With median follow up times of approximately 19 months for both arms, the ORR was 7.4% vs. 1.9%. In a subgroup analysis of patients without liver metastases (n=17 in each arm), ORR, PFS and OS also favored the combination of atezolizumab plus zanzalintinib versus zanzalintinib monotherapy (PFS HR 0.37 (95% CI, 0.15-0.91); OS HR 0.74 (95% CI, 0.27-2.04)). In this subgroup, the ORR was 17.6% vs 5.9%. We continue to be encouraged by zanzalintinib’s emerging tolerability and activity profile, both as a monotherapy and in combination with ICIs.

STELLAR-002 - Advanced Solid Tumors. In December 2021, we initiated STELLAR-002, a multicenter phase 1b/2 clinical trial evaluating the safety, tolerability and efficacy of zanzalintinib in combination with either nivolumab, nivolumab and ipilimumab, or a fixed-dose combination of nivolumab and relatlimab, a lymphocyte activation gene-3-blocking (LAG-3) antibody developed by BMS. STELLAR-002 is divided into dose-escalation and expansion phases. We have established recommended doses of zanzalintinib for these combination regimens and are exploring them in a diverse array of solid tumor expansion cohorts, including ccRCC, nccRCC, HCC, mCRPC and CRC. The key efficacy endpoints are investigator-assessed ORR per RECIST v. 1.1, PFS and OS. Monotherapy zanzalintinib may also be evaluated to support regulatory requirements for dosing and contribution of components. In May 2025, preliminary results from an expansion cohort of patients with previously untreated advanced ccRCC from STELLAR-002 were presented at the 2025 ASCO Annual Meeting, along with data from multiple dose-escalation cohorts.

STELLAR-303 - CRC. In June 2022, we initiated STELLAR-303, a global, multicenter, randomized, open-label phase 3 pivotal trial evaluating zanzalintinib in combination with atezolizumab versus regorafenib in patients with metastatic, refractory non-microsatellite instability-high or non-mismatch repair-deficient (non-MSI-H/dMMR) CRC. In June 2025, we announced positive top-line results demonstrating a statistically significant improvement in OS versus regorafenib in all patients (i.e., in the ITT population), and in October 2025, announced that the study demonstrated a 20% reduction in the risk of death versus regorafenib in the ITT population at the final analysis (stratified hazard ratio [HR]: 0.80; 95% confidence interval [CI]: 0.69-0.93; P=0.0045). At the concurrent prespecified interim analysis, data pertaining to the other dual primary endpoint, OS in patients without liver metastases, showed a trend in OS favoring the combination (15.9 months versus 12.8 months; stratified HR: 0.79; 95% CI: 0.61-1.03; P=0.0875) at a median follow-up of 16.8 months. Detailed findings from the study, including OS and PFS in the ITT population and in the subset of patients without liver metastases, were presented at the 2025 ESMO Congress (ESMO 2025) in October 2025 and simultaneously published in The Lancet. The trial will proceed

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to the planned final analysis for the dual primary endpoint of OS in patients without liver metastases, expected in mid-2026, depending on event rates. In December 2025, we submitted a New Drug Application (NDA) to the FDA for zanzalintinib in combination with atezolizumab for the treatment of previously treated metastatic colorectal cancer. In January 2026, we announced that the FDA had accepted our NDA and assigned a standard review, with a Prescription Drug User Fee Act (PDUFA) target action date of December 3, 2026.

CRC is the third most common cancer and a leading cause of cancer-related deaths in the U.S. According to the American Cancer Society, in 2026, approximately 159,000 new cases will be diagnosed in the U.S. with around 55,000 expected deaths from the disease. CRC is most frequently diagnosed among people aged 65-74 and is more common in men and those of non-Hispanic American Indian/Alaska Native descent. Nearly a quarter of CRC cases are diagnosed at the metastatic stage, at which point the five-year survival rate is around just 15%. It has been estimated that approximately 40-52% of metastatic CRC cases exhibit a RAS mutation.

STELLAR-304 - Non-Clear Cell RCC. In December 2022, we initiated STELLAR-304, a global, multicenter, randomized, open-label phase 3 pivotal trial evaluating zanzalintinib in combination with nivolumab versus sunitinib in previously untreated patients with advanced nccRCC. The trial enrolled 317 patients at 163 sites globally. Patients are randomized 2:1 to the experimental arm of zanzalintinib in combination with nivolumab or to the control arm of sunitinib, respectively. The primary efficacy endpoints for STELLAR-304 are blinded independent radiology committee-assessed PFS and ORR per RECIST v 1.1. The secondary efficacy endpoint is OS. We expect top-line results in mid-2026, depending on event rates.

nccRCC represents about 25% of RCC cases. Many of the therapies approved for advanced nccRCC are predominately based on data from ccRCC studies because nccRCC tumors are histologically diverse with historically poor outcomes.

STELLAR-311 - Advanced NET. In June 2025, we initiated STELLAR-311, a phase 2/3 pivotal trial evaluating zanzalintinib versus everolimus in patients with advanced NET, regardless of site of origin, who had received up to one prior line of therapy. The primary endpoint of the trial is PFS per RECIST 1.1 as assessed by blinded independent central review. Enrollment is currently ongoing.

Beyond STELLAR-001, STELLAR-002, STELLAR-303, STELLAR-304 and STELLAR-311, we intend to initiate additional early-stage and pivotal trials evaluating zanzalintinib across a broad array of potential future indications, including: STELLAR-201, a planned, single-arm phase 2 study that will evaluate zanzalintinib in patients with Grade I/II/III meningioma with relapse or progression following surgery and radiation, or who are not candidates for radiation/surgery, anticipated to commence in the first half of 2026, and STELLAR-316, a planned phase 3 pivotal trial, in collaboration with Natera, Inc. (Natera), which we anticipate will commence in mid-2026. STELLAR-316 will evaluate zanzalintinib, with and without an ICI, in patients with resected stage II/III CRC who, following completion of definitive therapy, have tested positive for molecular residual disease (MRD+) and have no radiographic evidence of disease. Natera will provide its Signatera™ assay to identify MRD+ for trial enrollment.

To further expand our exploration of the clinical potential of zanzalintinib, in October 2024, we announced our entry into a clinical development collaboration with MSD International Business GmbH, known as Merck within the United States and Canada (Merck). Pursuant to this collaboration, Merck is sponsoring KEYMAKER-U03 (a phase 1/2 trial evaluating zanzalintinib in combination with WELIREG® (belzutifan), Merck's oral HIF-2α inhibitor, in RCC), LITESPARK-033 (a phase 3 trial evaluating zanzalintinib in combination with WELIREG versus cabozantinib in first-line advanced RCC) and one additional phase 3 pivotal trial in RCC. Merck will fund one of these phase 3 studies and we will co-fund the phase 1/2 study and the other phase 3 study, as well as supply zanzalintinib and cabozantinib. Under the collaboration, we continue to retain all global commercial and marketing rights to zanzalintinib.

Trials Evaluating Zanzalintinib Conducted through our CRADA with NCI-CTEP

In January 2026, we entered into a CRADA with NCI-CTEP for the clinical development of zanzalintinib. The CRADA reflects a commitment by NCI-CTEP to provide funding for the broad exploration of zanzalintinib’s potential in a wide variety of cancers. IND applications for trials under the CRADA are held by NCI-CTEP. NCI-CTEP also retains rights to any inventions made in whole or in part by NCI-CTEP investigators. For inventions that claim the use and/or the composition of zanzalintinib, we have an automatic option to elect a worldwide, non-exclusive license to zanzalintinib inventions for commercial purposes, with the right to sublicense to affiliates or collaborators working on our behalf, as well as an additional, separate option to negotiate an exclusive license to zanzalintinib inventions. Further, before any trial proposed under the CRADA may commence, the protocol is subject to our review and approval.

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XL309 Development Program. In September 2023, we entered into an exclusive global license agreement with Insilico Medicine US, Inc. and its affiliate, Insilico Medicine Hong Kong Limited, along with their parent company and certain other affiliated entities (individually and collectively referred to as Insilico). The agreement with Insilico grants us global rights to develop and commercialize XL309, a potentially best-in-class small molecule inhibitor of USP1, a synthetic lethal target in the context of BRCA-mutated tumors. XL309 is currently being evaluated in a phase 1 clinical trial to explore its pharmacokinetics, safety, tolerability and preliminary anti-tumor activity in patients with advanced solid tumors as a monotherapy and in combination with olaparib, PARP1/2 inhibitor, and enrollment is ongoing. XL309 has potential in patients whose tumors are no longer responsive to PARP inhibitors (PARPi), including ovarian, breast and prostate cancers. XL309 also has potential in combination with PARPi agents to deepen and prolong the response seen with PARPi, as well as to broaden the activity beyond that observed in patients with tumors that harbor a BRCA1/2 mutation. In March 2025, preclinical data from the XL309 program were presented at the American Association for Cancer Research (AACR) Annual Meeting 2025. For more information on the Insilico license agreement, our other research collaborations and in-licensing arrangements related to our small molecule programs, see “—Collaborations and Business Development Activities—Research Collaborations, In-licensing Arrangements and Strategic Transactions.”

Termination of STELLAR-305 Trial and XL495 Development Program. In October 2024, we announced the initiation of a phase 1 clinical trial evaluating XL495, an inhibitor of PKMYT1, both as a monotherapy and in combination with select cytotoxic agents, in patients with advanced solid tumors. In May 2025, based on early clinical data generated for XL495, we announced that we will discontinue further development of this program. In December 2023, we initiated STELLAR-305, a phase 2/3 pivotal trial evaluating zanzalintinib in combination with pembrolizumab, an anti-PD-1 ICI developed by Merck & Co., Inc. (Merck & Co.), versus placebo in combination with pembrolizumab in patients with previously untreated PD-L1-positive recurrent or metastatic squamous cell carcinoma of the head and neck. Based on our evaluation of emerging data from the phase 2 portion of STELLAR-305, competition in this indication, and assessment of other, potentially larger, commercial opportunities, in July 2025 we announced that the study will not proceed to phase 3.

For additional information on our research collaborations and in-licensing arrangements related to our small molecule programs, see “—Collaborations and Business Development Activities—Research Collaborations, In-licensing Arrangements and Strategic Transactions.”

Biotherapeutics Development Programs

We are advancing a variety of biotherapeutics that have the potential to become anti-cancer therapies, including ADCs and a bispecific antibody. ADCs in particular present a unique opportunity for new cancer treatments, given their capabilities to deliver anti-cancer drug payloads to targets with increased precision while minimizing impact on healthy tissues. We have established multiple research collaborations and in-licensing arrangements and entered into other strategic transactions, aimed at conserving capital and managing risks, that provide us with access to antibodies, binders, payloads and conjugation technologies, which are the components employed to generate next-generation ADCs or multispecific antibodies. We have also established laboratories for discovery of novel biologics with capabilities in antibody engineering, ADC chemistry, bioanalysis and preclinical testing. In addition to an option deal with Sairopa B.V. (Sairopa), which provides us with the right to exclusively in-license ADU-1805, a clinical-stage and potentially best-in-class mAb developed by Sairopa that targets SIRPα, some of our research collaborations for biotherapeutics programs include collaborations with:

•Adagene Inc. (Adagene), which is focused on using Adagene’s SAFEbodyTM technology to develop novel masked ADCs or other innovative biotherapeutics with potential for improved therapeutic index;

•Catalent, Inc. (Catalent), which is focused on the discovery and development of multiple ADCs using Catalent’s proprietary SMARTag® site-specific bioconjugation technology; and

•Invenra, Inc. (Invenra), which is focused on the discovery and development of novel binders and multispecific antibodies for the treatment of cancer.

We have made significant progress under our research collaborations and in-licensing arrangements, including:

XB010. In August 2024, we announced the initiation of a phase 1 clinical trial evaluating XB010, both as a monotherapy and in combination with pembrolizumab, in patients with advanced solid tumors, following the FDA’s acceptance of our IND application, and enrollment is ongoing. XB010 is our first ADC advanced internally and consists of an MMAE payload conjugated to a mAb targeting the tumor antigen 5T4. XB010 was constructed using Catalent’s SMARTag site-specific bioconjugation platform, and its 5T4-targeting mAb was discovered in collaboration with Invenra.

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XB628. In April 2025, we initiated the phase 1 study of XB628, a first-in-class bispecific antibody that simultaneously targets PD-L1 and NKG2A, identified as key regulators of adaptive and innate immune cell activity, discovered, in part, in collaboration with Invenra. Enrollment is ongoing.

XB371. In August 2025, we initiated a phase 1 study of XB371, a next-generation TF-targeting ADC with a topoisomerase inhibitor payload, which was discovered, in part, in collaboration with Catalent. The trial is divided into dose-escalation and cohort-expansion phases. Enrollment in the dose escalation phase is ongoing.

ADU-1805. In February 2023, the FDA cleared the initial IND for ADU-1805. ADU-1805 is currently being evaluated in a phase 1 clinical trial to explore its pharmacokinetics, safety, tolerability and preliminary anti-tumor activity in patients with advanced or metastatic refractory solid tumors as monotherapy and in combination with pembrolizumab. The ADU-1805 study includes plans to investigate the compound’s potential in combination with approved ICIs, including pembrolizumab. Enrollment is ongoing.

For more information on our research collaborations and in-licensing arrangements related to our biotherapeutics programs, see “—Collaborations and Business Development Activities—Research Collaborations, In-licensing Arrangements and Strategic Transactions.”

A complete listing of all of our ongoing trials can be found at www.ClinicalTrials.gov.

Expansion of the Exelixis Pipeline

Increasing the number of novel anti-cancer agents in our pipeline is essential to our overall strategy and business goals. We are working to expand our oncology product pipeline through drug discovery efforts, which encompass our diverse biotherapeutics and small molecule programs exploring multiple modalities and mechanisms of action. This approach provides a high degree of flexibility with respect to target selection and allows us to prioritize those targets that we believe have the greatest chance of yielding impactful therapeutics. As part of our strategy, our drug discovery activities have included and continue to include research collaborations, in-licensing arrangements and other strategic transactions that collectively incorporate a wide range of technology platforms and assets and increase our probability of success.

As of the date of this Annual Report on Form 10-K, we expect to progress up to two new development candidates into preclinical development during 2026. We also expect to progress XB773, an innovative ADC targeting delta-like ligand 3, and a development candidate from our somatostatin receptor subtype 2 (SSTR2) agonist program toward potential IND filings in 2026.

As part of our rational and disciplined approach to investment, we have decided to discontinue further development of the XB064 and XB033 programs. We will continue to engage in pipeline expansion initiatives with the goal of discovering, acquiring and/or in-licensing promising investigational oncology assets and then further characterize and develop them utilizing our established preclinical and clinical development infrastructure.

Collaborations and Business Development Activities

We have established multiple collaborations with leading biopharmaceutical companies for the commercialization and further development of the cabozantinib franchise, as well as research collaborations and in-licensing arrangements to enhance our early-stage pipeline and expand our ability to discover novel therapies.

Under our commercial collaborations, we are entitled to receive milestones and royalties or, in the case of cobimetinib, royalties from sales outside the U.S. and a share of profits (or losses) from commercialization in the U.S. Under our research collaborations and in-licensing arrangements, we are obligated to pay milestones and royalties to our various partners.

Cabozantinib Commercial Collaborations

Ipsen Collaboration

In February 2016, we entered into a collaboration and license agreement with Ipsen for the commercialization and further development of cabozantinib. Under the collaboration agreement, Ipsen received exclusive commercialization rights for current and potential future cabozantinib indications outside of the U.S., Canada and Japan. The collaboration agreement has been subsequently amended on multiple occasions, including in December 2016 to include commercialization rights in Canada. We have also agreed to collaborate with Ipsen on the development of cabozantinib for

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current and potential future indications. The parties’ efforts are governed through a joint steering committee and appropriate subcommittees established to guide and oversee the collaboration’s operation and strategic direction; however, we retain final decision-making authority with respect to cabozantinib’s ongoing development.

In consideration for the exclusive license and other rights contained in the collaboration agreement, including commercialization rights in Canada, Ipsen paid us aggregate upfront payments of $210.0 million in 2016. As of December 31, 2025, we achieved aggregate milestone payments of $659.2 million related to regulatory and commercial progress by Ipsen since the inception of the collaboration agreement, including a $5.0 million regulatory milestone payment from Ipsen, upon approval by the EC for the treatment of patients with either advanced pNET or advanced epNET.

We are also eligible to receive a future regulatory milestone payment from Ipsen of $2.0 million upon additional approvals of cabozantinib in future indications and/or jurisdictions, as well as contingent payments of up to $200.0 million and CAD$23.5 million associated with future sales milestones. We will further receive royalties on net sales of cabozantinib by Ipsen outside of the U.S. and Japan. We are entitled to receive a tiered royalty of 22% to 26% on annual net sales, with separate tiers for Canada; these 22% to 26% royalty tiers reset each calendar year. As of December 31, 2025, we have earned royalties of $837.9 million on net sales of cabozantinib by Ipsen since the inception of the collaboration agreement.

We received notification that, effective January 1, 2021, Royalty Pharma plc (Royalty Pharma) acquired from GlaxoSmithKline (GSK) all rights, title and interest in royalties on total net sales of any product containing cabozantinib for non-U.S. markets for the full term of the royalty and for the U.S. market through September 2026, after which time U.S. royalties will revert back to GSK. Accordingly, and consistent with our historical agreement with GSK, we are required to pay a 3% royalty to Royalty Pharma on total net sales of any product containing cabozantinib, including net sales by Ipsen.

We are responsible for funding cabozantinib-related development costs for those trials in existence at the time we entered into the collaboration agreement with Ipsen; global development costs for additional trials are shared between the parties, with Ipsen reimbursing us for 35% of such costs, provided Ipsen chooses to opt into such trials. In accordance with the collaboration agreement, Ipsen has opted into and is co-funding certain clinical trials, including: CheckMate -9ER, COSMIC-021, COSMIC-311, COSMIC-312, CONTACT-01, CONTACT-02 and CABINET.

We remain responsible for manufacturing and supply of cabozantinib for all development and commercialization activities under the collaboration agreement. We entered into a supply agreement with Ipsen to supply finished and labeled drug product for distribution in the territories outside of the U.S. and Japan for the term of the collaboration agreement as well as a quality agreement that provides respective quality responsibilities for the aforementioned supply. At the time we entered into the collaboration agreement, the parties also entered into a pharmacovigilance agreement, which defines each partner’s responsibilities for safety reporting. The pharmacovigilance agreement requires us to maintain the global safety database for cabozantinib. To meet our obligations to regulatory authorities for the reporting of safety data from territories outside of the U.S. and Japan from sources other than our sponsored global clinical development trials, we rely on data collected and reported to us by Ipsen.

Unless earlier terminated, the collaboration agreement has a term that continues, on a product-by-product and country-by-country basis, until the later of (1) the expiration of patent claims related to cabozantinib, (2) the expiration of regulatory exclusivity covering cabozantinib or (3) ten years after the first commercial sale of cabozantinib, other than COMETRIQ. The supply agreement will continue in effect until expiration or termination of the collaboration agreement. The collaboration agreement may be terminated for cause by either party based on uncured material breach of either the collaboration agreement or the supply agreement by the other party, bankruptcy of the other party or for safety reasons. We may terminate the collaboration agreement if Ipsen challenges or opposes any patent covered by the collaboration agreement. Ipsen may terminate the collaboration agreement if the FDA or EMA orders or requires substantially all cabozantinib clinical trials to be terminated. Ipsen also has the right to terminate the collaboration agreement on a region-by-region basis after the first commercial sale of cabozantinib in advanced RCC in the given region. Upon termination by either party, all licenses granted by us to Ipsen will automatically terminate, and, except in the event of a termination by Ipsen for our material breach, the licenses granted by Ipsen to us shall survive such termination and shall automatically become worldwide, or, if Ipsen were to terminate only for a particular region, then for the terminated region. Following termination by us for Ipsen’s material breach, or termination by Ipsen without cause or because we undergo a change of control by a party engaged in a competing program, Ipsen is prohibited from competing with us for a period of time.

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Takeda Collaboration

In January 2017, we entered into a collaboration and license agreement with Takeda, as subsequently amended to, among other things, modify the amount of reimbursements we receive for costs associated with our required pharmacovigilance activities and milestones we are eligible to receive, as well as modify certain cost sharing obligations related to the Japan-specific development costs associated with CONTACT-01 and CONTACT-02. Under the collaboration agreement, Takeda has exclusive commercialization rights for current and potential future cabozantinib indications in Japan, and the parties have agreed to collaborate on the clinical development of cabozantinib in Japan. The operation and strategic direction of the parties’ collaboration is governed through a joint executive committee and appropriate subcommittees.

In consideration for the exclusive license and other rights contained in the collaboration agreement, we received an upfront payment of $50.0 million from Takeda in 2017. As of December 31, 2025, we have also achieved aggregate milestone payments of $138.0 million related to regulatory and commercial progress by Takeda since the inception of the collaboration agreement. We are eligible to receive additional regulatory and development milestone payments, without limit, for additional potential future indications.

We are further eligible to receive commercial milestones, including milestone payments earned for the first commercial sale of a product of $108.0 million. We also receive royalties on the net sales of cabozantinib in Japan. We are entitled to receive a tiered royalty of 15% to 24% on the initial $300.0 million of net sales, and following this initial $300.0 million of net sales, we are then entitled to receive a tiered royalty of 20% to 30% on annual net sales thereafter; these 20% to 30% royalty tiers reset each calendar year. As of December 31, 2025, we have earned royalties of $60.3 million on net sales of cabozantinib by Takeda since the inception of the collaboration agreement.

Consistent with our historical agreement with GSK, we are required to pay a 3% royalty to Royalty Pharma on total net sales of any product containing cabozantinib, including net sales by Takeda.

Except for CONTACT-01 and CONTACT-02, Takeda is responsible for 20% of the costs associated with the cabozantinib development plan’s current and future trials, provided Takeda opts into such trials, and 100% of costs associated with the cabozantinib development activities that are exclusively for the benefit of Japan. In accordance with the collaboration agreement, Takeda has opted into and is co-funding certain clinical trials, including: CheckMate -9ER; certain cohorts of COSMIC-021; CONTACT-01; and CONTACT-02.

Under the collaboration agreement, we are responsible for the manufacturing and supply of cabozantinib for all development and commercialization activities under the collaboration agreement. We entered into a clinical supply agreement covering the supply of cabozantinib to Takeda for the term of the collaboration agreement, as well as a quality agreement that provides respective quality responsibilities for the aforementioned supply. At the time we entered into the collaboration agreement, the parties also entered into a safety data exchange agreement, which defines each partner’s responsibility for safety reporting. This agreement requires us to maintain the global safety database for cabozantinib. To meet our obligations to regulatory authorities for the reporting of safety data from Japan from sources other than our sponsored global clinical development trials, we rely on data collected and reported to us by Takeda.

Unless earlier terminated, the collaboration agreement has a term that continues, on a product-by-product basis, until the earlier of (1) two years after first generic entry with respect to such product in Japan or (2) the later of (A) the expiration of patent claims related to cabozantinib and (B) the expiration of regulatory exclusivity covering cabozantinib in Japan. The collaboration agreement may be terminated for cause by either party based on uncured material breach by the other party, bankruptcy of the other party or for safety reasons. We may terminate the agreement if Takeda challenges or opposes any patent covered by the collaboration agreement. After the commercial launch of cabozantinib in Japan, Takeda may terminate the collaboration agreement upon twelve months’ prior written notice following the third anniversary of the first commercial sale of cabozantinib in Japan. Upon termination by either party, all licenses granted by us to Takeda will automatically terminate, and the licenses granted by Takeda to us shall survive such termination and shall automatically become worldwide.

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Cabozantinib Development Collaborations

BMS Collaboration

In February 2017, we entered into a clinical trial collaboration agreement with BMS for the purpose of exploring the therapeutic potential of cabozantinib in combination with BMS’s ICIs, nivolumab and/or ipilimumab, to treat a variety of types of cancer.

Under the collaboration agreement with BMS, each party granted to the other a non-exclusive, worldwide (within the collaboration territory as defined in the collaboration agreement and its supplemental agreements), non-transferable, royalty-free license to use the other party’s compounds in the conduct of each clinical trial. The parties’ efforts are governed through a joint development committee established to guide and oversee the collaboration’s operation. Each trial is conducted under a combination IND application, unless otherwise required by a regulatory authority. Each party is responsible for supplying finished drug product for the applicable clinical trial, and responsibility for the payment of costs for each such trial will be determined on a trial-by-trial basis. Following the FDA’s approval of CABOMETYX in combination with nivolumab as a first-line treatment of patients with advanced RCC, we and BMS commenced the commercial launch of the combination and have agreed to pursue commercialization and marketing efforts independently.

Roche Collaboration

In February 2017, we entered into a master clinical supply agreement with Roche for the purpose of evaluating cabozantinib and Roche’s ICI, atezolizumab, in locally advanced or metastatic solid tumors. Under this agreement, in June 2017, we initiated COSMIC-021 and in December 2018, we initiated COSMIC-312. We were the sponsor of both trials, and Roche provided atezolizumab free of charge. Building upon encouraging clinical activity observed in COSMIC-021, in December 2019 we entered into a joint clinical research agreement with Roche to further evaluate the combination of cabozantinib with atezolizumab in patients with locally advanced or metastatic solid tumors, including in the CONTACT-01, CONTACT-02 and CONTACT-03 studies. A party to the joint clinical research agreement that proposes any additional combined therapy trials beyond any ongoing phase 3 pivotal trials must notify the other party and if agreed to, such additional combined therapy trial will become part of the collaboration; if not agreed to, the proposing party may conduct such additional combined therapy trial independently, subject to specified restrictions set forth in the joint clinical research agreement.

Under the joint clinical research agreement, each party granted to the other a non-exclusive, worldwide (excluding, in our case, territory already the subject of a license by us to Takeda), non-transferable, royalty-free license, with a right to sublicense (subject to limitations), to use the other party’s intellectual property and compounds solely as necessary for the party to perform its obligations under the joint clinical research agreement. The parties’ efforts are governed through a joint steering committee established to guide and oversee the collaboration and the conduct of the combined therapy trials. Each party is responsible for providing, and bearing the cost of, clinical supply for all combined therapy trials. Clinical trial expenses for each jointly conducted combined therapy trial are shared equally between the parties, and for each additional combined therapy trial not agreed to be conducted jointly, are borne by the proposing party, except that the cost of clinical supply for all combined therapy trials are borne by the party that owns the applicable product.

Unless earlier terminated, the joint clinical research agreement provides that it will remain in effect until the completion of all combined therapy trials under the collaboration, the delivery of all related trial data to both parties, and the completion of any then agreed-upon additional analyses. The joint clinical research agreement may be terminated for cause by either party based on any uncured material breach by the other party, bankruptcy of the other party or for safety reasons. Upon termination by either party, the licenses granted to each party will terminate upon completion of any ongoing activities under the joint clinical research agreement.

Zanzalintinib Clinical Collaborations

We have also entered into multiple collaboration and supply agreements to evaluate zanzalintinib in various combination trials, including with Roche’s atezolizumab, BMS’ nivolumab, ipilimumab and relatlimab and Merck’s pembrolizumab and belzutifan. These agreements facilitate the efficient exploration of the tolerability and activity of zanzalintinib in combinations with a variety of established cancer therapies as we continue to build a broad development program for zanzalintinib. For descriptions of our ongoing clinical trials evaluating zanzalintinib in combination with other therapies, see “—Exelixis Development Programs—Pipeline Development Programs — Advancing Exelixis’ Future Cancer Therapy Candidates—Small Molecule Programs—Zanzalintinib Development Program.”

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Research Collaborations, In-licensing Arrangements and Strategic Transactions

As part of our pipeline expansion efforts, we have entered several research collaborations and in-licensing arrangements, as well as other strategic transactions that collectively incorporate a wide range of technology platforms and assets and increase our probability of success. More recently, we have focused our business development activities on late preclinical and early-stage clinical assets that align with our oncology drug development, regulatory and commercial expertise, and that have potential as product candidates to treat cancer patients, including the following:

•Sairopa. In November 2022, we entered into an exclusive option and license agreement and clinical development collaboration with Sairopa to develop ADU-1805. Under the agreement, we made an upfront payment to Sairopa, including additional payments for near-term milestones, in exchange for an option to obtain an exclusive, worldwide license to develop and commercialize ADU-1805 and other anti-SIRPα antibodies, and for certain expenses to be incurred by Sairopa in conducting prespecified phase 1 clinical studies of ADU-1805 during the option period. Sairopa is eligible to receive additional development milestone payments during the option period. Following the completion of the prespecified clinical studies, we have the right to exercise our option upon payment of an option exercise fee. Upon option exercise, Sairopa will be eligible to receive additional development and commercial milestone payments, as well as royalties on potential sales.

•Insilico. In September 2023, we entered into an exclusive global license agreement with Insilico. Under the agreement, Insilico granted us global rights to develop and commercialize XL309 in exchange for an upfront payment to Insilico of $80 million. Insilico is also eligible to receive future development, commercial, and sales-based milestone payments, as well as tiered royalties on net sales. In the fourth quarter of 2023, we completed the transfer of stewardship of the ongoing phase 1 clinical trial evaluating XL309 from Insilico to us.

We continue to make progress on our various research collaborations, in-licensing arrangements and strategic transactions focused on our early-stage pipeline with the goal of advancing new candidates toward the clinic, including the following:

•Basecamp Bio. In August 2025, we entered into an asset purchase agreement with Basecamp Bio Inc. (Basecamp Bio), under which we acquired all right, title and interest in Basecamp Bio’s program directed at SSTR2, an oncology target that is highly expressed in NET. Under the agreement, we made initial payments to Basecamp Bio, and Basecamp Bio is eligible for potential commercial milestone payments and potential tiered, low single digit royalties on net sales of approved products.

•Catalent. In September 2020, we entered into a collaboration and license agreement with Catalent to develop multiple ADCs using Catalent’s proprietary SMARTag site-specific bioconjugation technology. Under the September 2020 agreement, we made an upfront payment in exchange for an exclusive option to license up to four targets using Catalent’s ADC platform over a three-year period. In addition, in August 2022 we exercised our right to extend the target selection term to five years and nominate up to two additional targets for an additional payment. For each option we decide to exercise, we will be required to pay an exercise fee, and will then assume responsibility for all subsequent clinical development, manufacturing and commercialization for that program. Catalent would then become eligible for potential development, regulatory and commercial milestone payments, as well as royalties on potential sales. We have also committed to contribute research funding to Catalent for discovery and preclinical development work. In December 2024, we terminated a separate license agreement with Catalent, previously entered into in November 2022, for three target programs.

•Adagene. In February 2021, we entered into a collaboration and license agreement with Adagene to utilize Adagene’s SAFEbody technology platform to generate masked versions of mAbs from our growing preclinical pipeline for the development of ADCs or other innovative biotherapeutics against Exelixis-nominated targets. Under the agreement, we made an upfront payment in exchange for an exclusive, worldwide license to develop and commercialize any potential ADC products generated in collaboration with Adagene with respect to an initial target, as well as a second target we may nominate during the collaboration term. For each target that we nominate, we would then assume responsibility for all subsequent clinical development, manufacturing and commercialization for that program. Adagene is eligible for potential development, regulatory and commercial milestone payments, as well as royalties on potential sales.

•Iconic. In May 2019, we entered into an exclusive option and license agreement with Iconic to advance an innovative next-generation ADC program for cancer, leveraging Iconic’s expertise in targeting TF in solid tumors. We later amended this agreement to obtain broad rights to develop the in-licensed anti-TF antibodies, allowing us to advance preclinical development of XB371, an ADC consisting of a topoisomerase payload conjugated to a TF-targeting monoclonal antibody.

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•Invenra. In May 2018, we entered into a collaboration and license agreement with Invenra to discover and develop multispecific antibodies for the treatment of cancer. Invenra is responsible for antibody lead discovery and generation while we will lead IND-enabling studies, manufacturing, clinical development in single-agent and combination therapy regimens, and future regulatory and commercialization activities. The collaboration agreement provides that we will receive an exclusive, worldwide license to one preclinical, multispecific antibody asset, and that we will pursue multiple additional discovery projects across three different programs during the term of the collaboration. In October 2019, we expanded our collaboration to include the development of novel binders against six additional targets, which we can use to generate multispecific antibodies based on Invenra’s B-BodyTM technology platform, or with other platforms and formats at our option. We amended the agreement again in March 2020 and January 2021 to enable the use of target binders in non-Invenra platform-based modalities, such as ADC platforms, and to enable the development of biparatopic antibodies, respectively. Then in August 2021, we further expanded our collaboration to include up to 20 additional targets for biotherapeutics discovery and development, for which we agreed to pay Invenra exclusivity payments and research program funding over a three-year period. Under the collaboration, Invenra is eligible for project initiation fees and potential development, regulatory and commercial milestone payments, as well as tiered royalties on net sales of any approved products. We also have the right to exercise options with respect to certain of Invenra’s other research programs in exchange for an option exercise payment, and Invenra is eligible for milestone payments and royalties for any products that arise from these optioned research programs.

Other Collaborations

Prior to the commercialization of our first product, COMETRIQ, our primary business strategy was focused on the development and out-licensing of innovative drug candidate compounds to pharmaceutical and biotechnology companies under collaboration agreements that allowed us to retain economic participation in the asset and support additional development of our proprietary products. Our collaboration agreements with Genentech and Daiichi Sankyo are representative of this historical strategy. Under our collaboration agreement with Genentech we out-licensed the further development and commercialization of COTELLIC, and under our collaboration agreement with Daiichi Sankyo we granted Daiichi Sankyo an exclusive, worldwide license to certain intellectual property, including MINNEBRO. We have since evolved and are now a fully integrated biopharmaceutical company focused on driving the expansion and depth of our product offerings through the continued development of the cabozantinib franchise and drug discovery efforts. While these historical collaboration agreements have the potential to provide future revenue, and while we have received some collaboration revenues from these arrangements, we do not expect to receive significant revenues from these historical collaboration agreements.

Manufacturing and Product Supply

We do not operate our own current Good Manufacturing Practice (GMP) manufacturing or distribution facilities for chemistry, manufacturing and control (CMC) development activities, preclinical, clinical or commercial production and distribution for our current products and new product candidates. Instead, we rely on various third-party contract manufacturing organizations to conduct GMP manufacturing operations on our behalf to produce our monoclonal antibodies, linker/payloads, drug substance and drug product. This external network consists of well-established and reputable global third-party GMP contract manufacturers for our CMC development and manufacturing that have good regulatory standing, suitable manufacturing capacities and capabilities. We continue to expand this network in order to meet our manufacturing and supply needs for our biotherapeutic and small molecule product candidates currently in development, and will further expand should such programs, such as zanzalintinib, advance to regulatory approval and subsequent commercialization. These third parties must comply with applicable legal and regulatory requirements, including the FDA’s current GMP, the EC’s Guidelines on Good Distribution Practice (GDP), Drug Supply Chain Security Act (DSCSA) and its foreign equivalents where applicable, as well as other stringent regulatory requirements enforced by the FDA or foreign regulatory agencies, as applicable, and are subject to routine inspections by such regulatory agencies.

Specifically with respect to CABOMETYX, we entered into agreements with secondary contract manufacturing organizations to produce additional commercial supplies of CABOMETYX tablets and cabozantinib drug substance, bolstering our supply chain robustness in order to mitigate the risk of supply chain interruptions or other failures.

We continually monitor and evaluate the performance of our third-party contract manufacturers on an ongoing basis for compliance and to affirm their continuing capabilities to meet both our commercial and clinical needs. We also have contracted with a third-party logistics provider, with multiple distribution locations, to provide shipping, storage and warehousing services for our commercial supply of both CABOMETYX and COMETRIQ in the U.S. We employ highly skilled

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personnel with both technical and manufacturing expertise to diligently manage the activities at our third-party contract manufacturers and other supply chain partners, and our quality department audits them on a periodic basis.

We source raw materials that are used to manufacture our clinical and commercial drug substance from multiple third-party suppliers in Asia, Europe and North America. Where appropriate, we stock sufficient quantities of these materials and provide them to our third-party drug substance contract manufacturers so they can manufacture adequate drug substance quantities per our requirements, for both clinical and commercial purposes. We store drug substance at third-party facilities and provide appropriate amounts to our third-party drug product contract manufacturers, who manufacture, package and label our specified quantities of finished goods for clinical and commercial products (COMETRIQ and CABOMETYX). We also rely on our third-party contract manufacturers to source materials such as excipients, components and reagents, which are required to manufacture our drug substance and finished drug product.

We have established and continue to maintain safety stock inventories for our drug substance and drug products, and we store these quantities in multiple locations. The quantities that we store are based on our business needs and take into account forecasts of global market demand, production lead times, potential supply interruptions and shelf life for our drug substance and drug products. We have not experienced significant production delays or seen significant impairment to our supply chain as a result of the ongoing geopolitical hostilities in Eastern Europe and the Middle East, the political, economic, and social instability in Venezuela or other global events. Furthermore, we believe that our current manufacturing network has the appropriate capacity to produce sufficient commercial quantities of CABOMETYX to support the currently approved RCC, HCC, DTC and NET indications. Our manufacturing footprint also enables us to fulfill our supply obligations for our products and product candidates to our collaboration partners for global commercial and development purposes.

Marketing and Sales

We have a fully integrated commercial team consisting of sales, marketing, market access, and commercial operations functions. Our sales team promotes CABOMETYX and COMETRIQ in the U.S. We market our products in the U.S. and concentrate our efforts on oncologists, oncology nurses, pharmacists and other healthcare professionals. In addition to using customary in-person pharmaceutical company practices, we also utilize digital marketing technologies to expand our engagement opportunities with customers.

Our commercial products, CABOMETYX and COMETRIQ, are sold initially through wholesale distribution and specialty pharmacy channels and then, if applicable, resold to hospitals and other organizations that provide CABOMETYX and COMETRIQ to end-user patients. To facilitate our commercial activities in the U.S., we also employ various third parties, such as advertising agencies, market research firms and vendors providing other sales-support related services as needed, including digital marketing and other non-personal promotion. We believe that our commercial team and distribution practices are sufficient to facilitate our marketing efforts in reaching our target audience and our delivery of our products to patients in a timely and compliant fashion.

In addition, we rely on Ipsen and Takeda for ongoing and further commercialization and distribution of CABOMETYX in territories outside of the U.S., as well as for access and distribution activities for the approved products, including named patient use programs or similar programs, and we also rely on Ipsen for these same activities with respect to the commercialization and distribution of COMETRIQ outside of the U.S.

To help ensure that all eligible patients in the U.S. have appropriate access to CABOMETYX and COMETRIQ, we have established a comprehensive reimbursement and patient support program called Exelixis Access Services (EASE). Through EASE, we provide co-pay assistance to qualified, commercially insured patients to help minimize out-of-pocket costs and provide free drug to uninsured or underinsured patients who meet certain clinical and financial criteria. In addition, EASE provides comprehensive reimbursement support services, such as prior authorization assistance, benefits investigation and, if needed, appeals support. Beyond financial assistance, patients who participate in EASE also receive treatment coordination through a dedicated case manager, as well as clinical outreach and support from a network of oncology nurses or other healthcare professionals who help many of these patients better understand how to take their medication and mitigate side effects.

Environmental, Health and Safety

Our research and development processes involve the controlled use of certain hazardous materials and chemicals. In the U.S., at the federal, state and local levels, and in other foreign countries, we are subject to environmental, health and workplace safety laws and regulations governing the use, manufacture, storage, handling and disposal of hazardous

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materials. While we have incurred, and will continue to incur, expenditures to maintain compliance with these laws and regulations, we do not expect the cost of complying with these laws and regulations to be material.

Many of our employees work in our on-site laboratory facilities and are trained on chemical hygiene, the use of personal protective equipment and other relevant laboratory safety topics, including working with blood-borne pathogens. Current staff are retrained regularly. We also extend these trainings to facilities staff and others who support our work in the labs. To maintain a safe environment for all staff, we have established a Lab Safety Committee to oversee the working conditions in our laboratory and office environments and conduct regular safety inspections, with reports provided to our Ethics Committee on a regular basis. We regularly perform thorough safety inspections of our laboratories, and continuously update our procedures based on the observations made during these inspections. Additionally, we conduct periodic industrial hygiene monitoring to ensure lab staff working with certain known hazardous chemicals do not exceed regulated exposure limits, regularly test and certify fume hoods, biosafety cabinets and other individual pieces of equipment on which employees rely to maintain a safe working environment. We also adhere to the standards set by the Environmental Protection Agency, the Occupational Safety and Health Administration, Cal-OSHA and Bay Area Air Quality Management District, among other governing bodies, to ensure compliance with laws and regulations and help keep our employees safe.

Government Regulation

Clinical Development

The FDA and comparable regulatory agencies in state and local jurisdictions and in foreign countries impose substantial requirements upon the clinical development, manufacture and marketing of pharmaceutical products. These agencies and other federal, state and local entities regulate, among other things, research and development activities and the testing, marketing approval, manufacture, quality control, safety, effectiveness, labeling, storage, distribution, post-marketing safety reporting, export, import, record keeping, advertising and promotion of our products.

The process required by the FDA before product candidates may be marketed in the U.S. generally involves the following:

•nonclinical laboratory and animal tests, some of which must be conducted in accordance with Good Laboratory Practices;

•submission of an IND, which contains results of nonclinical studies (e.g., laboratory evaluations of the chemistry, formulation, stability and toxicity of the product candidate), together with manufacturing information, analytical data, any available clinical data or literature and a proposed clinical protocol, and must become effective before human clinical trials may begin;

•approval by an independent institutional review board or ethics committee for each clinical trial site before each trial may be initiated;

•adequate and well-controlled human clinical trials conducted in accordance with the protocol, IND and Good Clinical Practice (GCP) to establish the safety and efficacy of the product candidate for its proposed intended use;

•for drug products, submission of an NDA to the FDA for commercial marketing, or generally of an sNDA, for approval of a new indication if the product is already approved for another indication;

•for biotherapeutic products, submission of a Biologics License Application (BLA) to the FDA for commercial marketing, or generally a supplemental Biologics License Application (sBLA) for approval of a new indication if the product is already approved for another indication;

•pre-approval inspection of manufacturing facilities and selected clinical investigators, clinical trial sites and/or Exelixis as the clinical trial sponsor for their compliance with GMP and GCP, respectively;

•payment of user fees for FDA review of an NDA or BLA unless a fee waiver applies;

•agreement with the FDA on the final labeling for the product and design and implementation of any required Risk Evaluation and Mitigation Strategy;

•if the FDA convenes an advisory committee, satisfactory completion of the advisory committee review; and

•FDA approval of the NDA or sNDA, or BLA or sBLA.

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For purposes of NDA approval, human clinical trials are typically conducted in three sequential phases that may overlap or be combined:

•Phase 1 studies, which involve the initial introduction of a new drug product candidate into humans, are initially conducted in a limited number of subjects to test the product candidate for safety, tolerability, absorption, metabolism, distribution and excretion in healthy humans or patients. In rare cases, a Phase 1 study that is designed to assess effectiveness may serve as the basis for FDA marketing approval of a drug or for a label expansion. For instance, at the FDA’s discretion, a product may receive approval based on a Phase 1b study if effectiveness results from the study are extremely compelling, approval of the drug would address a significant unmet patient need, and the drug is being approved through the accelerated approval pathway. As discussed below, accelerated approval generally requires at least one post-approval study to confirm clinical benefit.

•Phase 2 studies are conducted with groups of patients afflicted with a specified disease in order to provide enough data to evaluate the preliminary efficacy, optimal dosage, and common short-term side effects and risks associated with the drug. Multiple phase 2 clinical trials may be conducted by the sponsor to obtain information prior to beginning larger and more expensive phase 3 clinical trials. Phase 2 studies are typically well controlled, closely monitored, and conducted in a relatively small number of patients, usually involving no more than several hundred subjects.

•Phase 3 studies are conducted to gather the additional information about effectiveness and safety across a higher number of patients and evaluate the overall benefit-risk relationship of the product candidate following earlier phase evaluations, which will have provided preliminary evidence suggesting an effective dosage range and acceptable safety profile for the product candidate. Phase 3 trials are also intended to provide an adequate basis for physician labeling of the product if it is approved.

The FDA may require, or companies may pursue, additional clinical trials after a product is approved. These so-called post-marketing or “phase 4” studies may be deemed a condition to be satisfied after a drug receives approval. Failure to satisfy such post-marketing commitments or requirements can result in FDA enforcement action, up to and including withdrawal of NDA approval.

FDA Review and Approval

For approval of a new drug or changes to the labeling of an approved drug, including new indications, the results of product development, preclinical studies and clinical trials are submitted to the FDA as part of an NDA or sNDA. The submission of an NDA requires payment of a substantial user fee to the FDA. The FDA may convene an advisory committee to provide clinical insight on NDA review questions, although the FDA is not required to follow the recommendations of an advisory committee. The FDA may initially issue a Refuse to File letter for an incomplete NDA or sNDA, or it may deny approval of an NDA or sNDA by way of a Complete Response letter if the applicable regulatory criteria are not satisfied, and can require additional clinical and/or nonclinical data and/or an additional phase 3 pivotal clinical trial. Once issued, the FDA may withdraw product approval if ongoing regulatory standards are not met or if safety problems occur after the product reaches the market. Satisfaction of FDA development and approval requirements or similar requirements of state, local and foreign regulatory agencies typically takes several years, and the actual time required may vary substantially based upon the type, complexity and novelty of the product or disease. In particular, the FDA has developed and implemented, and continues to develop and implement, various guidance, programs and initiatives specific to oncology products that can affect product development and the data necessary for approval.

Any products manufactured or distributed by us pursuant to FDA approvals are subject to continuing regulation by the FDA, including obtaining prior FDA approval of certain changes to the approved NDA, record-keeping requirements, annual report submission, and reporting of adverse experiences with, and interruptions in the manufacture of, the drug. Drug manufacturers and their subcontractors are required to register their establishments with the FDA and certain state agencies as well as list the products they manufacture. Thus, we and our third-party contract manufacturing organizations are subject to periodic unannounced inspections by the FDA and certain state agencies, as well as inspectors from other jurisdictions in which our products are approved, for compliance with GMP, which impose certain manufacturing requirements (including procedural and documentation requirements) upon us and our third-party contract manufacturing organizations.

In the U.S., the Orphan Drug Act of 1983, as amended, provides incentives for the development of drugs and biotherapeutic products for rare diseases or conditions that affect fewer than 200,000 people in the U.S. (or for which there is no reasonable expectation that the cost of developing and making available the drug in the U.S. for such disease or condition will be recovered from sales of the drug in the U.S.). Certain of the incentives turn on the drug first being

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designated as an orphan drug. To be eligible for designation as an orphan drug (Orphan Drug Designation), the drug must have the potential to treat such rare disease or condition as described above. In addition, the FDA must not have previously approved a drug considered the “same drug,” as defined in the FDA’s orphan drug regulations, for the same orphan-designated indication or the sponsor of the subsequent drug must provide a plausible hypothesis of clinical superiority over the previously approved same drug. Upon receipt of Orphan Drug Designation, the sponsor is eligible for tax credits of up to 25% for qualified clinical trial expenses and waiver of the Prescription Drug User Fee Act application fee. In addition, upon marketing approval, an orphan drug could be eligible for seven years of market exclusivity. Orphan drug exclusivity, if awarded, only blocks the approval of any drug considered the same drug for the same orphan indication. A subsequent same drug could break an approved drug’s orphan exclusivity through a demonstration of clinical superiority.

Expedited FDA Approval Pathways

The FDA has various programs that are intended to expedite or simplify the process for developing and reviewing promising drugs, or to provide for the approval of a drug on the basis of a surrogate endpoint. Generally, drugs that are eligible for these programs are those for serious or life-threatening conditions, those with the potential to address unmet medical needs and those that offer meaningful benefits over existing treatments. Examples of such programs include fast track designation, breakthrough therapy designation, priority review and accelerated approval, and the eligibility criteria of and benefits for each program vary:

•Fast track designation is a process designed to facilitate the development and expedite the review of drugs intended to treat serious or life-threatening diseases or conditions that demonstrate the potential to fill unmet medical needs, by providing, among other things, eligibility for accelerated approval if relevant criteria are met, and rolling review, which allows submission of individually completed sections of an NDA for FDA review before the entire submission is completed.

•Breakthrough therapy designation is a process designed to expedite the development and review of drugs that are intended, alone or in combination with one or more other drugs, to treat a serious or life-threatening disease or condition, and preliminary clinical evidence indicates that the drug may demonstrate substantial improvement over existing therapies on one or more clinically significant endpoints. Drugs designated as breakthrough therapies can also be eligible for accelerated approval. The FDA will seek to ensure the sponsor of a breakthrough therapy product candidate receives intensive guidance on an efficient drug development program, intensive involvement of senior managers and experienced staff on a proactive, collaborative and cross-disciplinary review, and rolling review.

•Priority review is designed to shorten the review period for drugs that treat serious conditions and that, if approved, would offer significant advances in safety or effectiveness or would provide a treatment where no adequate therapy exists. Under priority review, the FDA aims to take action on the application within six months as compared to a standard review time of 10 months, from the 60-day filing date. Sponsors may also obtain a priority review voucher upon approval of an NDA for certain qualifying diseases and conditions that can be applied to a subsequent NDA submission, or sold to another sponsor.

•Accelerated approval provides for an earlier approval for a new drug that is intended to treat a serious or life-threatening disease or condition and that provides a meaningful advantage over available therapies and demonstrates an effect on a surrogate endpoint, or an intermediate clinical endpoint, which is considered reasonably likely to predict clinical benefit. As a condition of approval, the FDA requires that a sponsor of a product candidate receiving accelerated approval perform post-marketing clinical trials or provide data on established clinical endpoints from the same trial to confirm the clinical benefit as predicted by the surrogate marker trial. The FDA may require such required post-marketing clinical trials to be underway prior to approval, or within a specific period thereafter, and will specify the conditions for such trials. Sponsors must provide reports on post-marketing trial progress no later than 180 days after approval and every 180 days thereafter until such trials are completed. The failure to conduct required post-marketing trials with due diligence and/or to submit the required reports are prohibited acts, and these failures by sponsor in administering such trials, or the failure of such trials to confirm the clinically meaningful outcome, may result in withdrawal of the accelerated approval of the drug or the indication. The FDA can also withdraw a drug approved under accelerated approval on an expedited basis provided it follows certain procedures.

Specifically, with respect to oncology products, the FDA may review applications under the Real-Time Oncology Review (RTOR) program established by the FDA’s Oncology Center of Excellence (OCE). The RTOR program, which allows an applicant to pre-submit components of the NDA or BLA to allow the FDA to review clinical data before the complete filing is submitted, aims to explore a more efficient review process to ensure that safe and effective treatments are available to

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patients as early as possible, while maintaining and improving review quality. Drugs considered for review under the RTOR program must be likely to demonstrate substantial improvements over available therapy, which may include drugs previously granted breakthrough therapy designation for the same or other indications and must have straight-forward study designs and endpoints that can be easily interpreted.

The FDA has also announced other programs to expedite the drug review process and streamline the development and approval of certain pharmaceutical products. These include the Commissioner’s National Priority Voucher program, designed to accelerate the development and review of certain drugs and biological products that are aligned with U.S. national health priorities and to enhance the health interests of Americans. For rare diseases, the FDA announced its Rare Disease Evidence Principles, and “plausible mechanism” concept, both of which aim to reduce the clinical evidence required to gain approval of a therapy for a rare disease.

Abbreviated FDA Approval Pathways and Generic Products

The Drug Price Competition and Patent Term Restoration Act of 1984 (The Hatch-Waxman Act) established two abbreviated approval pathways for drug products in which potential competitors may take advantage of shortened development timelines by relying upon the FDA’s prior approval of the same or similar drug product.

•Abbreviated New Drug Application (ANDA). An ANDA may be approved by the FDA if the applicant demonstrates that the proposed generic product is the same as the approved drug, which is referred to as the Reference Listed Drug (RLD). Generally, an ANDA must contain data and information showing that the proposed generic product and RLD (1) have the same active ingredient, in the same strength and dosage form, to be delivered via the same route of administration, (2) are intended for the same uses, and (3) are bioequivalent. This is instead of independently demonstrating the proposed product’s safety and effectiveness through clinical development. Conducting bioequivalence testing is generally less time consuming and costly than conducting a full set of clinical trials in humans. In this regard, the FDA has published draft product-specific guidance containing bioequivalence recommendations for development of generic drug products containing cabozantinib, the active pharmaceutical ingredient in CABOMETYX and COMETRIQ, as it does for many FDA-approved drug products.

•505(b)(2) NDAs. An NDA under section 505(b)(2) (505(b)(2) NDA) of the Federal Food, Drug, and Cosmetic Act (FDCA) is an application for which one or more of the investigations relied upon by the applicant for approval were not conducted by or for the applicant and for which the applicant has not obtained a right of reference or use from the person by or for whom the investigations were conducted. Under 505(b)(2) NDA, an applicant may rely, in part, on the FDA’s previous approval of a listed drug, or published literature, in support of its application. If the 505(b)(2) NDA applicant establishes that reliance on the FDA’s prior findings of safety and efficacy for an approved product is scientifically appropriate, it may eliminate the need to conduct certain preclinical or clinical studies. The FDA may require additional studies or measurements, including comparability studies.

Unlike a full NDA for which the sponsor has conducted or obtained a right of reference to all the data essential to approval, the filing of an ANDA or a 505(b)(2) NDA may be delayed due to patent or exclusivity protections covering the RLD or listed drug. The Hatch-Waxman Act provides (a) up to five years of exclusivity for the first approval of a new chemical entity (NCE) (NCE exclusivity) and (b) three years of exclusivity for approval of an NDA or sNDA for a product that is not an NCE but rather where the application contains new clinical studies conducted or sponsored by the sponsor and considered essential to the approval of the NDA or sNDA (three-year “changes” exclusivity). NCE exclusivity runs from the time of approval of the NDA and bars the FDA from accepting for review any ANDA or 505(b)(2) NDA for a drug containing the same active moiety for five years (or for four years if the application contains a Paragraph IV certification asserting that a patent listed in the Orange Book for the RLD or listed drug is invalid or not infringed by the ANDA/505(b)(2) NDA product). The three-year “changes” exclusivity generally bars the FDA from approving any ANDA or 505(b)(2) NDA application that relies on the information supporting the approval of the drug or the change to the drug for which the information was submitted and the exclusivity granted.

Both Congress and the FDA are considering, and have enacted, various legislative and regulatory proposals focused on drug competition, including legislation focused on drug patenting and provision of drug to generic applicants for testing. For example, the Ensuring Innovation Act, enacted in April 2021, amended the FDA’s statutory authority for granting NCE exclusivity to reflect the agency’s existing regulations and longstanding interpretation that award NCE exclusivity based on a drug’s active moiety, as opposed to its active ingredient, which is intended to limit the applicability of NCE exclusivity, thereby potentially facilitating generic competition. In addition, the Further Consolidated Appropriations Act, 2020, which incorporated the framework from the Creating and Restoring Equal Access To Equivalent Samples (CREATES) legislation, allows ANDA, 505(b)(2) NDA or biosimilar developers to obtain access to branded drug and biotherapeutic product samples.

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Further, Section 3222 of the Consolidated Appropriations Act, 2023, enacted on December 29, 2022 (the 2023 Appropriations Act), requires the FDA to make therapeutic equivalence determinations for 505(b)(2) NDAs at the time of approval, or up to 180 days thereafter, if requested by the applicant.

Additionally, Section 3224 of the 2023 Appropriations Act allows the FDA to approve an ANDA even if there are differences between the generic drug’s proposed labeling and that of the listed drug due to the FDA approving a change to the listed drug’s label (excluding warnings) within 90 days of when the ANDA is otherwise eligible for approval, provided that the ANDA applicant agrees to submit revised labeling for the generic drug within 60 days of approval. Moreover, in September 2023, the U.S. Federal Trade Commission (FTC) issued a policy statement, supported by the FDA, warning brand pharmaceutical companies that they could face legal action under the FTC Act if they improperly list patents in the Orange Book, and the FTC subsequently initiated, and continues to initiate, challenges against patents held by brand pharmaceutical companies and listed in the Orange Book under the FDA’s patent listing dispute process.

Orange Book Listing. An NDA sponsor must identify to the FDA patents that claim the drug substance or drug product or approved method of using the drug. When the drug is approved, those patents are among the information about the product that is listed in the FDA publication, Approved Drug Products with Therapeutic Equivalence Evaluations, which is referred to as the Orange Book. Any applicant who files an ANDA or a 505(b)(2) NDA must certify, for each patent listed in the Orange Book for the RLD that (1) no patent information on the drug product that is the subject of the application has been submitted to the FDA, (2) such patent has expired, (3) the listed patent will expire on a particular date and approval is sought after patent expiration, or (4) such patent is invalid or will not be infringed upon by the manufacture, use or sale of the drug product for which the application is submitted. An ANDA or 505(b)(2) NDA applicant may also submit a statement that it intends to carve-out from the labeling of its product an RLD’s use that is protected by exclusivity or a method of use patent. The fourth certification described above is known as a Paragraph IV certification. A notice of the Paragraph IV certification must be provided to each owner of the patent that is the subject of the certification and to the reference NDA holder. The reference NDA holder and patent owners may initiate a patent infringement lawsuit in response to the Paragraph IV notice. Filing such a lawsuit within 45 days of the receipt of the Paragraph IV certification notice prevents the FDA from approving the ANDA or 505(b)(2) NDA until the earlier of 30 months, expiration of the patent, settlement of the lawsuit, or a decision in the infringement case that is favorable to the ANDA or 505(b)(2) NDA applicant. The ANDA or 505(b)(2) NDA also will not receive final approval until any applicable non-patent exclusivity listed in the Orange Book for the RLD has expired.

Regulatory Approval Outside of the United States

In addition to regulations in the U.S., we are subject to regulations of other countries governing clinical trials and the manufacturing, commercial sales and distribution of our products outside of the U.S. Whether or not we obtain FDA approval for a product, we must obtain approval by the comparable regulatory authorities of countries outside of the U.S. before we can commence clinical trials in such countries and approval of the regulators of such countries or economic areas, such as the EEA, before we may market products in those countries or areas. The approval process and requirements governing the conduct of clinical trials, product licensing, pricing and reimbursement vary greatly from place to place, and the time may be longer or shorter than that required for FDA approval.

The way clinical trials are conducted in the EEA has undergone a major change with the application of Regulation (EU) 536/2014, repealing Directive 2001/20/EC. This regulation harmonizes the assessment and supervision processes for clinical trials throughout the EEA, via a portal and database, which the EMA maintains in collaboration with the Member States of the EEA and the EC. Following the EC’s confirmation of full functionality of the Clinical Trials Information System (CTIS) through an independent audit, which was published in the Official Journal of the European Union in August 2021, Regulation (EU) 536/2014 became applicable concurrent with the CTIS “go-live” date on January 31, 2022. While existing clinical trials could continue to be conducted under the rules of Directive 2001/20/EC until January 31, 2025, any clinical trial initiated on or after January 31, 2023, must comply with the rules of the new regulation.

Under EEA regulatory systems, a company may submit a marketing authorization application (MAA) either under centralized or decentralized procedure. Under the centralized procedure, MAAs are submitted to the EMA for scientific review by the Committee for Medicinal Products for Human Use (CHMP) so that an opinion is issued on product approvability. The opinion is considered by the EC which is responsible for granting the centralized marketing authorization in the form of a binding EC decision. If the application is approved, the EC grants a single marketing authorization that is valid for all Member States of the EEA. The decentralized and mutual recognition procedures, as well as national authorization procedure are available for products for which the centralized procedure is not compulsory. The mutual recognition procedure provides for the Member States of the EEA selected by the applicant to mutually recognize a national

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marketing authorization that has already been granted by the competent authority of another Member State of the EEA, referred to as the Reference Member State (RMS). The decentralized procedure is used when the product in question has yet to be granted a marketing authorization in any Member State. Under this procedure the applicant can select the Member State of the EEA that will act as the RMS. In both the mutual recognition and decentralized procedures, the RMS reviews the application and submits its assessment of the application to the Member States of the EEA where marketing authorizations are being sought, referred to as Concerned Member States. Within 90 days of receiving the application and assessment report, each Concerned Member State must decide whether to recognize the RMS assessment or reject it based on potential serious risk to public health. If the disputed points cannot be resolved, the matter is eventually referred to the Coordination Group on Mutual Recognition and Decentralized Procedures in the first instance to reach an agreement and failing to reach such an agreement, a referral to the EMA and the CHMP for arbitration that will result in an opinion to form the basis of a decision to be issued by the EC binding on all Member States of the EEA. If the application is successful during the decentralized or mutual recognition procedure, national marketing authorizations will be granted by the competent authorities in each of the Member States chosen by the applicant.

Conditional marketing authorizations may be granted in the centralized procedure for a limited number of medicinal products for human use referenced in EU law applicable to conditional marketing authorizations where the clinical dataset is not comprehensive, if (1) the risk-benefit balance of the product is positive, (2) it is likely that the applicant will be in a position to provide the required comprehensive clinical trial data, (3) unmet medical needs will be fulfilled and (4) the benefit to public health of the immediate availability on the market of the medicinal product outweighs the risk inherent in the fact that additional data are still required.

As in the U.S., we may apply for designation of a product as an orphan drug for the treatment of a specific indication in the EU before the application for marketing authorization is made. In the EU, orphan designation is available for products in development which are either: (a) intended for the diagnosis, prevention or treatment of life-threatening or chronically debilitating conditions affecting not more than 5 in 10,000 persons in the EU; or (b) intended for the diagnosis, prevention or treatment of a life-threatening, seriously debilitating or serious and chronic condition affecting a larger number of persons but when, without incentives, it is unlikely that sales of the drug in the EU would be sufficient to justify the necessary investment in developing the medicinal product. Additionally, the sponsor of an application for designation of a product as an orphan drug in the EU must establish that there exists no satisfactory authorized method of diagnosis, prevention, or treatment of the condition or even if such treatment exists, the product will be of significant benefit to those affected by that condition.

Orphan drugs in the EU enjoy economic and marketing benefits, including up to ten years of market exclusivity for the approved indication unless another applicant for a similar medicinal product can show that its product is safer, more effective or otherwise clinically superior to the orphan-designated product. The period of orphan market exclusivity may be reduced to six years if at the end of the fifth year it is established that the criteria for orphan designation are no longer met, including where it is shown that the product is sufficiently profitable not to justify maintenance of market exclusivity.

As part of the EU Pharmaceutical Strategy, the EC published a proposal for a comprehensive revision of the EU pharmaceutical legislation. The European Parliament and the Council reached a provisional political agreement on December 10, 2025 after lengthy discussions and the new legislation will significantly change the regulatory regime applicable to both the “normal” data and market exclusivity and the orphan exclusivities and reduce/modulate the exclusivities and rewards that could be granted to medicinal products. In addition, the new legislation introduces a legally binding definition of the concept of unmet medical need and introduces novel rewards for orphan medicinal products designated as “breakthrough”. The publication of the final texts and their adoption and entry into force are expected in first quarter of 2026. The new legislation is expected to start to apply 24 months after the entry into force, except for specific provisions with shorter or longer transition periods.

Healthcare and Data Privacy Regulation

Federal and state healthcare laws and regulations, including fraud and abuse and health information privacy and security laws, also govern our business. If we fail to comply with those laws, we could face substantial penalties and our business, results of operations, financial condition and prospects could be adversely affected. The laws that may affect our ability to operate include, but are not limited to:

•the federal Anti-Kickback Statute (AKS), which prohibits, among other things, knowingly and willfully, soliciting, receiving, offering or paying remuneration (including any kickback, bribe, or rebate), directly or indirectly, overtly or covertly, in cash or in kind, to induce or in return for, either the referral of an individual, or the purchase, lease,

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order or recommendation of any good, facility, item or service for which payment may be made, in whole or in part, under a federal healthcare program, such as Medicare and Medicaid;

•federal civil and criminal false claims laws and civil monetary penalty laws, such as the federal False Claims Act, which impose criminal and civil penalties and authorize civil whistleblower or qui tam actions, against individuals or entities for, among other things: knowingly presenting, or causing to be presented, to government, claims for payment that are false or fraudulent; making a false statement or record material to a false or fraudulent claim or obligation to pay or transmit money or property to the federal government; or knowingly concealing or knowingly and improperly avoiding or decreasing an obligation to pay money to the federal government;

•the Health Insurance Portability and Accountability Act of 1996 (HIPAA), which created new federal criminal statutes that prohibit knowingly and willfully executing, or attempting to execute, a scheme to defraud any healthcare benefit program or obtain, by means of false or fraudulent pretenses, representations, or promises, any of the money or property owned by, or under the custody or control of any healthcare benefit program, regardless of the payor (e.g., public or private) and knowingly and willfully falsifying, concealing or covering up by any trick or device a material fact or making any materially false statements in connection with the delivery of, or payment for, healthcare benefits, items or services relating to healthcare matters;

•HIPAA as amended by the Health Information Technology for Economic and Clinical Health Act (HITECH), and their respective implementing regulations, which impose requirements on certain covered healthcare providers, health plans, and healthcare clearinghouses, as well as their respective business associates that perform services for them that involve the use, or disclosure of, individually identifiable health information, relating to the privacy, security, transmission and breach reporting of individually identifiable health information;

•the federal false statements statute, which prohibits knowingly and willfully falsifying, concealing or covering up a material fact or making any materially false statement in connection with the delivery of or payment for healthcare benefits, items or services;

•the FDCA, which prohibits, among other things, the adulteration or misbranding of drugs, biologics and medical devices;

•the federal transparency requirements under the Physician Payment Sunshine Act, often referred to as the Open Payments program, requires certain manufacturers to track and report to the Centers for Medicare & Medicaid Services (CMS) annually certain payments and other transfers of value provided to various health professionals (including, among others, physicians (defined to include doctors, dentists, optometrists, podiatrists, and chiropractors), physician assistants, nurse practitioners, and clinical nurse specialists) and teaching hospitals, as well as physician ownership and investment interests in the reporting manufacturers; and

•federal consumer protection and unfair competition laws, which broadly regulate marketplace activities and activities that potentially harm consumers.

Additionally, we are subject to state law equivalents of each of the above federal laws, which may be broader in scope and apply regardless of whether the payer is a governmental healthcare program, and many of which differ from each other in significant ways and may not have the same effect, further complicate compliance efforts. Numerous federal and state laws, including state security breach notification laws, state health information privacy laws and federal and state consumer protection laws, govern the collection, storage, transfer, security, use and disclosure of personal information. For example, the California Consumer Privacy Act of 2018, as amended (CCPA), went into operation in January 2020 and broadly defines personal information, affords California residents expanded privacy rights and protections and provides for civil penalties for violations and a private right of action related to certain data security breaches. These protections were expanded by the California Privacy Rights Act (CPRA), which took effect January 2023. In addition to California, at least nineteen other states have passed comprehensive privacy laws similar to the CCPA and CPRA. These laws are either in effect or will go into effect over the next few years. Like the CCPA and CPRA, these laws create obligations related to the processing of personal information, as well as special obligations for the processing of “sensitive” data, which includes health data in some cases. These laws impose new and greater monetary fines or penalties for privacy violations, that may impact our operations, including both comprehensive and sector specific legislation. There are also states that are specifically regulating health information that may affect our business. For example, Washington state passed a health privacy law in 2023 that regulates the collection and sharing of health information with a private right of action. Connecticut and Nevada have passed similar laws regulating consumer health data, and more states are considering such legislation. Additionally, Congress is considering further federal privacy legislation and there are also increased restrictions at the federal level relating to transferring sensitive data outside of the U.S. to certain foreign countries. For example, in 2024, Congress passed H.B. 815, which included the Protecting Americans’ Data from Foreign Adversaries Act of 2024, creating restrictions for entities that disclose sensitive data (including potential health data) to countries such as China.

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Failure to comply with these rules can lead to a potential FTC enforcement action. Additionally, the Department of Justice recently finalized a rule implementing Executive Order 14117, which creates similar restrictions related to the transfer of sensitive U.S. data to countries such as China. These obligations are quickly changing in an increasingly stringent fashion, and may create uncertainty as to how to comply and potentially require us to modify our policies and practices. The compliance process may be costly and may divert the attention of management and technical personnel. Our failure to comply with current and future laws could result in significant penalties, including, but not limited to: government enforcement actions, investigations and criminal and other proceedings; additional reporting requirements and/or oversight; bans on processing personal data; and orders to destroy or not use personal data. Failure to comply may also result in reputational harm and could have a material adverse effect on our business, including, but not limited to: interruptions or stoppages in our business operations, inability to process personal data or to operate in certain jurisdictions; limited ability to develop or commercialize our products; expenditure of time and resources to defend any claim or inquiry; adverse publicity; or restructuring of our operations. In addition, most healthcare professionals and facilities who may prescribe our products and from whom we may obtain patient health information, are subject to privacy and security requirements under HIPAA, as amended by HITECH. Although we are not considered to be a covered entity or business associate under HIPAA with respect to our clinical and commercial activities, we could be subject to penalties if we use or disclose individually identifiable health information in a manner not authorized or permitted by HIPAA. HITECH also created new tiers of civil monetary penalties, amended HIPAA to make civil and criminal penalties directly applicable to business associates, and gave state attorneys general new authority to file civil actions for damages or injunctions in federal courts to enforce the federal HIPAA laws and seek attorneys’ fees and costs associated with pursuing federal civil actions. The legislative and regulatory landscape for privacy and data protection continues to evolve, and there has been an increasing amount of focus on privacy and data protection issues with the potential to affect our business, including laws in all 50 states requiring security breach notification in some circumstances. The CCPA, as amended by the CPRA, HIPAA and these other laws could create liability for us or increase our cost of doing business. International laws, such as the EU General Data Protection Regulation 2016/679 (GDPR), could also apply to our operations. Failure to provide adequate privacy protections and maintain compliance with applicable privacy laws could jeopardize business transactions across borders and result in significant penalties.

In addition, we participate in the 340B Drug Pricing Program (the 340B Program), the Medicaid Drug Rebate Program (MDRP), and a number of other federal and state government pricing programs in the U.S. in order to obtain coverage for our products by certain government health care programs. Our participation in these programs generally requires us to make disclosures and to pay substantial rebates or offer our drugs at substantial discounts to certain purchasers (including “covered entities” purchasing under the 340B Program). Changes to our obligations under these government pricing programs occur frequently and program requirements are often ambiguous, and we cannot predict how future guidance or rules would affect our profitability (including the potential for increases in our overall Medicaid rebate liability and the obligation to charge greatly reduced prices to covered entities). A discussion of risks and uncertainties that may affect our participation in the 340B Program is set forth in “Risk Factors” in Part I, Item 1A of this Annual Report on Form 10-K.

We are also required to discount our products to authorized users of the Federal Supply Schedule of the General Services Administration, under which additional laws and requirements apply. These programs require submission of pricing data and calculation of discounts and rebates pursuant to complex statutory formulas and regulatory guidance, as well as the entry into government procurement contracts governed by the Federal Acquisition Regulations, and the guidance governing such calculations is not always clear. Compliance with such requirements can require significant investment in personnel, systems and resources. Failure to properly calculate prices, or to offer required discounts or rebates could subject us to substantial penalties.

Coverage and Reimbursement

Sales of our approved products and any future products of ours will depend, in part, on the extent to which their costs will be covered by third-party payers, such as government health programs, commercial insurance and managed healthcare organizations. The process for determining whether a third-party payor will provide coverage for a pharmaceutical product is typically separate from the process for setting the price of such a product or for establishing the reimbursement rate that the payor will pay for the product once coverage is approved. Further, no uniform policy for coverage and reimbursement exists in the United States, and coverage and reimbursement can differ significantly from payor to payor. As a result, each third-party payer may have its own policy regarding what products it will cover, the conditions under which it will cover such products, and how much it will pay for such products. Third-party payers may limit coverage to specific drug products on an approved list, also known as a formulary, which might not include all of the FDA-approved drugs for a particular indication. Moreover, a third-party payer’s decision to provide coverage for a drug product

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does not guarantee what reimbursement rate, if any, will be approved. Patients may be less likely to use our products if coverage is not provided and reimbursement may not cover a significant portion of the cost of our products. In addition, even if favorable coverage and reimbursement status is attained for one or more products that receives regulatory approval, less favorable coverage policies and reimbursement rates may be implemented in the future.

In the U.S. and other potentially significant markets for our products, government authorities and third-party payers are increasingly attempting to limit or regulate the price of medical products and services, particularly for new and innovative products and therapies, which may result in lower average selling prices. In some cases, for example, third-party payers try to encourage the use of less expensive generic products through their prescription benefits coverage and reimbursement and co-pay policies. Further, the increased emphasis on managed healthcare in the U.S. and on country-specific and national pricing and reimbursement controls in the Member States of the EEA will put additional pressure on product pricing, reimbursement and usage, which may adversely affect our future product sales and results of operations. These pressures can arise from rules and practices of managed care groups, judicial decisions and governmental laws and regulations related to Medicare, Medicaid and healthcare reform, pharmaceutical reimbursement policies and pricing in general. Adoption of price controls and cost-containment measures, and adoption of more restrictive policies in jurisdictions with existing coverage and/or reimbursement controls and measures, could have a material adverse impact on our net product revenues and results of operations.

Healthcare Reform

The U.S. and some foreign countries are considering proposals or have enacted legislative and regulatory changes to the healthcare system that could affect our ability to sell our products profitably. Among policy makers and payers in the U.S. and elsewhere, there is significant interest in promoting changes in healthcare systems with the stated goals of containing healthcare costs, improving quality and/or expanding access.

Over the past decade, there has been increasing legislative and enforcement interest in the U.S. with respect to drug pricing practices. In particular, there have been recent U.S. Congressional inquiries, hearings and proposed and enacted federal legislation and rules, as well as executive orders and sub-regulatory guidance that may impact pricing for pharmaceutical products. These initiatives include, among others:

•efforts to reevaluate, reduce or limit the prices patients pay for pharmaceutical products;

•implementation of additional data collection and transparency reporting regarding drug pricing, rebates, fees and other remuneration provided by drug manufacturers;

•revisions to rules associated with the calculation of Average Manufacturer Price and Best Price under the MDRP, as well as changes to the determination of rebate liability under that program;

•elimination of the AKS discount safe harbor protection for manufacturer rebate arrangements with Medicare Part D plan sponsors; and

•reevaluation of safe harbors under the AKS.

The Inflation Reduction Act of 2022 (IRA) introduced numerous substantial changes to drug pricing, reimbursement and access support in the U.S., including enabling the CMS to assert control over the prices of certain single-source drugs and biotherapeutics reimbursed under Medicare Part B and Part D (the Medicare Drug Price Negotiation Program). CMS has begun to announce rounds of drugs eligible for negotiation and establish so-called “Maximum Fair Prices” (MFP) under the Medicare Drug Price Negotiation Program. The IRA contains a limited exception for small biotech drug manufacturers, which applies on a drug-specific basis, and provides that qualifying drugs will be exempt from selection for pricing negotiation through 2028 and eligible for a lower limit (i.e., a price floor) on the potential MFP in 2029 and 2030, if the manufacturers of those drugs continue to qualify each year (small biotech exception). As of the date of this Annual Report on Form 10-K, we have qualified for the small biotech exception with respect to our cabozantinib franchise products through 2027. We intend to apply to CMS to maintain our small biotech exception and price floor each year through 2030. Separately, in December 2024, CMS released final guidance on another program, the Medicare Part D Manufacturer Discount Program (Part D Discount Program), which requires manufacturers to take on more of the beneficiary cost previously subsidized by the federal government through the application of increased drug discounts. We have since received notice from CMS that we qualify for the "specified small manufacturer” designation and are thereby eligible for a phase-in of the increased manufacturer discounts under the Part D Discount Program, from 2025 to 2031. In November 2025, CMS also issued a proposed rule on the Part D Discount Program that largely codifies the final guidance. The IRA also imposes additional rebates for certain Part B and Part D drugs where relevant pricing metrics associated with the products increase faster than inflation.

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There have also been proposals from the current U.S. administration that aim to lower prescription drug costs, both through formal regulatory action and by encouraging voluntary compliance from manufacturers. These proposals include efforts to equalize the prices of drugs in the U.S. with the prices of those drugs in other developed countries (also known as “most favored nation” (or MFN) drug pricing policy), as well as efforts to sell prescription drugs directly to consumers. In 2025, an executive order issued by the White House directed the Department of Health and Human Services (HHS) and other federal agencies to implement MFN pricing through new models and potential regulatory actions. CMS has announced a pilot program in this regard for the Medicaid Program, but the full scope, timing, and impact of these initiatives remain uncertain. Adoption of these and other controls and measures and tightening of restrictive policies in jurisdictions with existing controls and measures, could limit reimbursement of pharmaceuticals. As a result, the business case for any product that receives regulatory approval for commercial sale in the U.S. may suffer if the government and third-party payers fail to provide adequate coverage and reimbursement.

Over time, the IRA could reduce the revenues we are able to collect from sales of our products or present challenges for payor negotiations and formulary access for our products, as well as increase our government discount and rebate liabilities. However, it is unclear how the IRA will be effectuated or changed under the current U.S. administration as well as the degree of impact that the IRA will ultimately have upon our business.

In addition, the U.S. pharmaceutical industry has also been significantly impacted by other major legislative initiatives and related political contests. For instance, efforts to repeal, substantially modify or invalidate some or all of the provisions of the PPACA, some of which have been successful, have created considerable uncertainties for all businesses involved in healthcare, including our own. Although such attempts to reform the U.S. healthcare system have not significantly impacted our business to date, challenges to the PPACA are ongoing and it is possible that additional legislative, executive and judicial activities in the future could have a material adverse impact on our business, financial condition and results of operations. Further, other legislative changes also have been proposed and adopted since the passage of the PPACA. These have, among other things, reduced Medicare payments to several types of providers, including hospitals, imaging centers and cancer treatment centers, and increased the statute of limitations period for the government to recover overpayments to providers.

At the state level, legislatures and regulatory agencies have increasingly passed legislation and implemented regulations designed to control pharmaceutical and biotherapeutic product pricing, including restrictions on pricing or reimbursement at the state government level, limitations on discounts to patients, advance notices of price increases, marketing cost disclosure and transparency measures, and, in some cases, policies to encourage importation from other countries (subject to federal approval) and bulk purchasing. These laws may affect our sales, marketing, and other promotional activities by imposing administrative and compliance burdens on us. In addition, given the lack of clarity with respect to these laws and their implementation, our reporting actions could be subject to the penalty provisions of the pertinent state and federal authorities.

As a result of these developments and trends, third-party payers are increasingly attempting to contain healthcare costs by limiting coverage and the level of reimbursement of new drugs. These entities could refuse, limit or condition coverage for our products, such as by using tiered reimbursement or pressing for new forms of contracting, or alternatively for patients who rely on our co-pay assistance program, implement co-pay accumulators or maximizers that exempt such co-pay assistance from deductibles (or otherwise modify benefit designs in a manner that takes into account the availability of co-pay assistance), which has increased and could further increase the costs of our co-pay assistance program or cause patients to abandon CABOMETYX or COMETRIQ therapy due to higher out-of-pocket costs. Due to general uncertainty in the current regulatory and healthcare policy environment, and specifically regarding positions that the current U.S. administration may take with respect to these issues, we are unable to accurately predict the impact of any legislative, regulatory, third-party payer or policy actions, including potential cost containment and healthcare reform measures. In addition, it is also possible that CMS could issue new rulemaking or guidance that would affect the amount of rebates owed under the MDRP. CMS notably made recent changes to the calculation of Average Sales Price (“ASP”) for the Medicare Part B Program regarding the treatment of fees as “bona fide service fees” and for bundled sales; while we are not currently required to report ASP, CMS could seek to implement the same changes in the Medicaid Drug Rebate Program, and such changes could impact our rebate liability.

In addition, in some foreign countries, the proposed pricing for a drug must be approved before its cost may be funded within the respective national healthcare system. The requirements governing drug pricing vary widely from country to country. For example, Member States of the EEA may restrict the range of medicinal products for which their national healthcare systems provide reimbursement and may control the prices of medicinal products for human use. A Member State may approve a specific price for the medicinal product or it may instead adopt a system of direct or indirect controls

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on the profits the medicinal product generates for the company placing it on the market. Pricing and reimbursement negotiations with governmental authorities or payers in Member States of the EEA can take six to 12 months or longer after the initial marketing authorization is granted for a product, or after the marketing authorization for a new indication is granted. To obtain reimbursement and/or pricing approval in some countries, drug manufacturers and collaboration partners may also be required to conduct a study or otherwise provide data that seeks to establish the cost effectiveness of a new drug compared with other available established therapies. Other cost-control initiatives are similarly focused on affordability and accessibility, such as the Regulation on Health Technology Assessment (HTA Regulation) adopted in December 2021 and entering into effect in January 2025, as well as other upcoming legislative and policy changes aimed at increasing cooperation between Member States of the EEA, and once enacted these initiatives may further impact the price and reimbursement status of many medicinal products. There can be no assurance that any country that has price controls, reimbursement limitations or other requirements for pharmaceutical products will allow favorable reimbursement and pricing arrangements for any of our products on cost-effectiveness grounds. Historically, products launched in Member States of the EEA and other non-U.S. jurisdictions do not follow the price structures of the U.S., and they generally tend to be priced significantly lower.

Competition

There are many companies focused on the development of small molecules, antibodies and other treatments for cancer. Our competitors and potential competitors include major pharmaceutical and biotechnology companies, as well as academic research institutions, clinical reference laboratories and government agencies that are pursuing research activities similar to ours. Many of the organizations competing with us have greater capital resources, larger research and development staff and facilities, deeper regulatory expertise and more extensive product manufacturing and commercial capabilities than we do, which may afford them a competitive advantage.

Competition for Cabozantinib

We believe that our ability to compete successfully with cabozantinib in the therapeutic markets where it is or may be approved will depend on, among other things:

•efficacy, safety and reliability of cabozantinib, both alone and in combination with other therapies;

•timing and scope of regulatory approval;

•our ability to manufacture and sell commercial quantities of cabozantinib product to the market;

•our ability to successfully commercialize cabozantinib, both as a single agent and as part of any combination therapy regimen, and secure coverage and adequate reimbursement in approved indications;

•product acceptance by physicians and other health care providers;

•the level of our collaboration partners’ investments in the resources necessary to successfully commercialize cabozantinib, or any combination therapy regimen that includes cabozantinib, in territories where they are approved;

•skills of our employees and our ability to recruit and retain skilled employees;

•protection of our intellectual property, including our ability to enforce our intellectual property rights against potential generic competition; and

•the availability of substantial capital resources to fund development and commercialization activities.

We believe that the quality and breadth of activity observed with cabozantinib, the skill of our employees and our ability to recruit and retain skilled employees, our patent portfolio and our capabilities for research and drug development are competitive strengths. However, many large pharmaceutical and biotechnology companies have significantly larger intellectual property estates than we do, substantially more capital resources than we have, and greater capabilities and experience than we do in preclinical and clinical development, sales, marketing, manufacturing and regulatory affairs.

Furthermore, the specific indications for which CABOMETYX is currently or may be approved are highly competitive. Several novel therapies and combinations of therapies have been approved, are in advanced stages of clinical development or are under expedited regulatory review in these indications, and these other therapies are currently competing or are expected to compete with CABOMETYX. While we have had success in adapting our development strategy for the cabozantinib franchise to address the competitive landscape, including through evaluation of therapies that combine ICIs with other targeted agents, it is uncertain whether current and future clinical trials will lead to additional regulatory approvals, or whether physicians will prescribe regimens containing cabozantinib instead of competing product combinations in approved indications.

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Below is a summary of the principal competition for cabozantinib in the indications for which it is approved or for which it has been or is currently being evaluated in potentially label-enabling trials, both as a single agent and in combination with other therapies. The information below does not include all competitor products, but rather those approved products that have or we believe may capture significant market share within their respective indications, or with respect to therapies still in development, those that are likely to overlap with patient populations that are or may be treated with cabozantinib or a combination therapy regimen that includes cabozantinib.

Competition in Approved Cabozantinib Indications

CABOMETYX - RCC: We believe the principal competition for CABOMETYX in advanced RCC includes: the combination of Merck & Co.’s pembrolizumab and Pfizer’s axitinib; the combination of BMS’s ipilimumab and nivolumab; the combination of Merck & Co.’s pembrolizumab and Eisai’s lenvatinib; the combination of Eisai’s lenvatinib and Novartis’ everolimus; and Merck & Co.’s belzutifan. Additionally, there are a variety of therapies being developed for advanced RCC, including: the combination of Merck & Co.’s belzutifan and Eisai’s lenvatinib; the combination of Merck & Co.’s pembrolizumab and belzutifan and Eisai’s lenvatinib; and the combination of Merck & Co.’s pembrolizumab and quavonlimab and Eisai’s lenvatinib.

The competitive landscape for RCC is evolving rapidly, especially given the entrance and increased adoption of ICI and ICI-TKI combination therapies into the RCC treatment landscape, particularly in the first-line setting. This has led to changing trends in prescribing and sequencing of certain drugs and combinations across different lines of therapy. It is difficult to accurately predict how these changes will affect sales of CABOMETYX during 2026 and going forward.

CABOMETYX - HCC: We believe the principal competition for CABOMETYX in previously treated HCC includes: Bayer’s regorafenib and Eisai’s lenvatinib.

The competitive landscape for HCC has changed with the increased adoption of ICI combination therapies in the first-line setting. This has led to increased competition due to the increase in prescribing and sequencing of TKIs in subsequent lines of therapy as more patients overall receive multiple lines of therapy. It is difficult to accurately predict how these changes will affect sales of CABOMETYX during 2026 and going forward.

CABOMETYX - DTC: We believe the principal competition for CABOMETYX in its previously treated DTC indication includes two treatments that are also approved for previously untreated DTC: Bayer’s sorafenib and generic versions of sorafenib; and Eisai’s lenvatinib. In addition, we believe there is also competition for CABOMETYX from mutation-targeted therapies approved or in development to treat patients with advanced or metastatic RET fusion-positive thyroid cancer who require systemic therapy and who are RAI-refractory (if RAI is appropriate), or patients with BRAF V600E mutations, including: Blueprint Medicine’s and Roche’s pralsetinib; Eli Lilly‘s selpercatinib; and the combination of Novartis’ dabrafenib and trametinib.

Other than the approvals of RET inhibitors to treat certain DTC patients, there has been little change in the competitive landscape for RAI-refractory DTC treatments during recent years.

CABOMETYX - pNET/epNET: We believe the principal competition for CABOMETYX in previously treated, advanced pNET and epNET includes the following approved therapies or therapies in late-stage development: Novartis’ lutetium Lu177 dotatate; Novartis’s everolimus; Pfizer’s sunitinib; Lantheus Holdings, Inc. and POINT Biopharma’s 177Lu-PNT2003; Curium US LLC’s 177Lu-DOTATATE; ITM Solucin GmbH’s 177Lu-Edotreotide; and the combination of Roche’s capecitabine and Merck & Co.’s temozolomide.

The pNET/epNET landscape has become increasingly complex with growing use of peptide receptor radionuclide (PRR) therapies in both first-line and second-line settings and ongoing discussions around optimal sequencing as new PRR therapies entrants may impact the treatment paradigm. It is difficult to accurately predict how these changes will affect sales of CABOMETYX during 2026 and going forward.

COMETRIQ - MTC: We believe that the principal competing anti-cancer therapy to COMETRIQ in progressive, metastatic MTC is Genzyme’s vandetanib, which has been approved by the FDA and the EC for the treatment of symptomatic or progressive MTC in patients with unresectable, locally advanced, or metastatic disease, as well as other therapies that have been recently approved to treat patients with advanced or metastatic RET-mutant MTC who require systemic therapy, including: Blueprint Medicines’ and Roche’s pralsetinib; and Eli Lilly’s selpercatinib.

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Other than the recent approvals of RET inhibitors to treat certain MTC patients, there has been little change in the treatment landscape for progressive, metastatic MTC during recent years, and due to the limited number of ongoing late-stage clinical trials in this indication, we do not expect many additional competitors to emerge in 2026.

Competition for Zanzalintinib

We submitted our first NDA to the FDA for zanzalintinib in December 2025. We believe that the factors that will impact our ability to compete in indications where zanzalintinib may be approved would be similar to those for the cabozantinib franchise, as described above. Below is a summary of the principal competition for zanzalintinib in the indication for which we have submitted an NDA, as well as the indications for which it is currently being evaluated in potentially label-enabling trials, both as a single agent and in combination with other therapies. The information below does not include all competitor products, but rather those approved products that have or we believe may capture significant market share within their respective indications, or with respect to therapies still in development, those that are likely to overlap with patient populations that are or may be treated with zanzalintinib or a combination therapy regimen that includes zanzalintinib.

Competition in Potential Zanzalintinib Indications

Zanzalintinib in combination with ICI - CRC: STELLAR-303 is a phase 3 pivotal trial evaluating the combination of zanzalintinib and atezolizumab in patients with metastatic, refractory non-MSI-H/dMMR CRC who have progressed after, or are intolerant to, the current standard of care. Should the combination of zanzalintinib and atezolizumab be approved for the treatment of these CRC patients, we believe its principal competition may include the following approved therapies or therapies in late-stage development: Bayer’s regorafenib; Taiho Oncology’s trifluridine/tipiracil; the combination of Taiho Oncology’s trifluridine/tipiracil and Roche’s bevacizumab; Takeda’s fruquintinib; and the combination of Agenus’ botensilimab and balstilimab.

Zanzalintinib in combination with ICI - RCC: STELLAR-304 is a phase 3 pivotal trial evaluating zanzalintinib in combination with nivolumab in previously untreated patients with advanced nccRCC. Should the combination of zanzalintinib and nivolumab be approved for the treatment of these RCC patients, we believe its principal competition may include AstraZeneca PLC’s savolitinib + durvalumab vs. Pfizer’s sunitinib and similar approved therapies or therapies in late-stage development that compete with cabozantinib or combination regimens containing cabozantinib in various RCC indications.

Zanzalintinib as a monotherapy – Advanced NET. STELLAR-311 is a phase 2/3 pivotal trial evaluating zanzalintinib versus everolimus in patients with advanced NET, regardless of site of origin, who had received up to one prior line of therapy. Should zanzalintinib be approved for the treatment of these NET patients, we believe its principal competition may include: Roche’s capecitabine + Merck’s temozolomide; Novartis’ everolimus; Merck’s pembrolizumab; and similar approved therapies or therapies in late-stage development that compete with cabozantinib in advanced NET.

Competition for Cobimetinib and Esaxerenone

There is competition for both cobimetinib and esaxerenone in the specific indications and territories where they are approved, and there are regular new entrants and developments in all aspects of these markets. However, given the relatively lesser degree of adoption of these therapies within the broader markets in which they compete and their minimal contribution to our total revenues as out-licensed products, we do not believe changes in the competitive landscape in these indications will have a material impact on our business.

Patents and Proprietary Rights

We actively seek patent protection in the U.S., EU and selected other foreign jurisdictions to cover our product candidates and related technologies. Patents extend for varying periods according to the date of patent filing or grant and the legal term of patents in the various countries where patent protection is obtained. The actual protection afforded by a patent, which can vary from country to country, depends on the type of patent, the scope of its coverage and the availability of legal remedies in the country. We have numerous patents and pending patent applications that relate to compounds and formulations that modulate drug targets, as well as methods of making and using such compounds and formulations.

While many patent applications have been filed relating to the product candidates that we have developed, the majority of these are not yet issued or allowed. To our knowledge, we own all global patents necessary for the continued

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sale and development of cabozantinib and cobimetinib, and we either own or have in-licensed all global patents for our other product candidates, as further described below.

Cabozantinib

Cabozantinib is covered by more than 15 issued patents in the U.S., building from U.S. Patent No. 7,579,473, for the composition of matter of cabozantinib and pharmaceutical compositions thereof. This composition of matter patent, with patent term extension, will expire in August 2026. The following table describes the U.S. patents that cover our marketed cabozantinib products, and which are listed in the Orange Book. Except as otherwise noted, the stated expiration dates include any patent term adjustments or extensions already granted. In addition to the composition of matter patent referenced above, the table includes patents directed to other aspects of the commercial product. We continue to pursue additional patents and patent term extensions in the U.S. covering various aspects of our cabozantinib products that may, if issued, extend exclusivity beyond the expiration of the patents listed in the table.

Some of our cabozantinib patents have been subject to patent litigation with companies that filed ANDAs or 505(b)(2) applications seeking to market generic or other versions of CABOMETYX or cabozantinib, and some of our cabozantinib patents have been the subject of requests by others for inter partes review (IPR) before the Patent Trial and Appeal Board. We cannot predict the ultimate outcome of these ANDA and 505(b)(2) submissions and/or any related lawsuits and/or IPRs or other challenges that may arise with respect to our patents and patent applications or provide assurance that these lawsuits and/or administrative proceedings will prevent the introduction of a generic version of CABOMETYX for any particular length of time, or at all. For a more detailed discussion of these litigation and administrative matters, see “Note 12. Commitment and Contingencies – Legal Proceedings” of the “Notes to Consolidated Financial Statements” in Part II, Item 8 of this Annual Report on Form 10-K.

In the EU, cabozantinib is protected by issued patents covering the composition of matter until 2029, with Supplementary Protection Certificates. In addition to the composition of matter patent, Exelixis owns certain later-expiring patents directed to the commercial product, including, particular salts, polymorphs, formulations, or use of the compound in the treatment of specified diseases or conditions.

Similarly, in Japan, cabozantinib is protected by issued patents covering the composition of matter, and salts thereof, as well as pharmaceutical compositions and related methods of use. Takeda has applied for patent term extension in Japan to extend the term of the composition of matter patent to 2029. We have other filed patent applications and

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issued patents in the U.S. and other selected countries covering certain synthetic methods, salts, polymorphs, formulations, prodrugs, metabolites and/or combinations of cabozantinib that, if issued, are anticipated to expire as late as 2037. Outside the U.S. and Japan, cabozantinib is licensed to Ipsen, and in Japan, cabozantinib is licensed to Takeda, each in accordance with the respective collaboration agreements. A discussion of risks and uncertainties that may affect our patent position and other proprietary rights is set forth in “Risk Factors” in Part I, Item 1A of this Annual Report on Form 10-K.

Zanzalintinib and Other Product Candidates

We also have issued patents and pending patent applications, and will continue to file new patent applications, in the U.S., the EU and other selected countries covering zanzalintinib and our other product candidates in clinical and/or preclinical development. Zanzalintinib is covered by U.S. Patent No. 11,542,259, and we have pending patent applications and other issued patents in the U.S. and other selected countries covering the composition of matter, certain synthetic methods, salts, polymorphs, formulations and combinations of zanzalintinib that, if issued, are anticipated to expire between 2039 and 2044, excluding any potential patent term adjustments and/or extensions.

We have obtained licenses from various parties that give us rights to technologies that we deem to be necessary or desirable for our research and development. These licenses (both exclusive and non-exclusive) may require us to pay royalties as well as upfront and milestone payments.

We require our scientific personnel to maintain laboratory notebooks and other research records in accordance with our policies, which are designed to strengthen and support our intellectual property protection. In addition to our patented intellectual property, we rely on trade secrets and other proprietary information, especially when we do not believe that patent protection is appropriate or can be obtained. We require all of our employees and consultants, outside scientific collaborators, sponsored researchers and other advisors who receive proprietary information from us to execute confidentiality agreements upon the commencement of employment or consulting relationships with us. In addition, these agreements and, in most circumstances, our agreements with consultants, outside scientific collaborators, sponsored researchers and other advisors expressly provide that all inventions, concepts, developments, copyrights, trademarks or other intellectual property developed by an employee during the employment period or developed by a service provider during the service period or utilizing our proprietary drugs or information, shall be our exclusive property. There can be no assurance, however, that these agreements will provide meaningful protection or adequate remedies for our trade secrets in the event of unauthorized use or disclosure of such information.

Human Capital Management

Our Workforce and Commitment to Inclusion

As of December 31, 2025, we had 1,077 employees, representing a 6.10% decrease in our employee workforce as compared to December 31, 2024. Of these employees, 509 are members of our research and development teams and 568 are members of our commercial, general and administrative teams. Of these employees, 166 hold Ph.D. degrees, 24 hold M.D. (or foreign equivalent) degrees, 12 hold PharmD degrees and 89 hold other professional degrees such as a J.D. or M.B.A. None of our employees are represented by a labor union, and we consider our employee relations to be good.

For the past five years, our employee turnover has trended below the U.S. life sciences industry benchmark, with the exception of 2024, which reflected the impact of an organizational restructure. We regularly monitor turnover, recruitment initiatives, compensation and benefits, workplace safety and other key aspects of human capital management, and we share these insights with our Board of Directors on a periodic basis.

We are an equal opportunity employer and maintain policies that prohibit unlawful discrimination based on race, color, religion, gender, sexual orientation, gender identity/expression, national origin/ancestry, age, disability, marital and veteran status. We are proud to employ a diverse workforce that, as of December 31, 2025, was 57% non-white and 50% women. In addition, as of December 31, 2025, 53% of our positions that manage other employees directly were held by non-whites and 40.5% were held by women, and women made up 20% of our senior leadership team. We strive to build and nurture a culture where all employees feel empowered to be their authentic selves. We respect and appreciate each employee’s unique perspective and experiences, and value their contributions to our mission. It is important that we celebrate, encourage and support similarities and differences to drive innovation for the benefit of our patients, employees and community.

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Culture, Compensation and Benefits

At Exelixis, we value being exceptional in what we do and how we lead, excelling for patients by going the extra mile to care for them and exceeding together as a business and contributor to the scientific community. We strive to live these values every day across the company, integrating them into everything from our interview, hiring and onboarding processes, to our performance evaluation, rewards and recognition programs. We provide generous compensation packages designed to attract and retain high-quality employees, and all of our employees are eligible for cash bonuses and grants of long-term incentive awards. We regularly evaluate our compensation programs with an independent compensation consultant and utilize industry benchmarking to ensure our programs are competitive with the biotechnology and biopharmaceutical companies against which we compete for talent. We also work with third party consultants to conduct an annual, independent pay equity analysis to ensure our compensation programs are fair across our workforce. We are proud to provide a variety of programs and services to help employees meet and balance their needs at work, at home and in life, including an attractive mix of healthcare, insurance and other benefit plans. We deliver a benefits program that is designed to keep our employees and their families mentally, physically and emotionally healthy, which includes not only medical, dental and vision benefits, but also a wellness subsidy program, virtual and onsite fitness classes, adoption assistance, mental health coverage, subsidized commuter benefits and other wellness benefits. Our inclusive benefits are also designed to support family life with options including, among others, generous parental leave policies, grandparent leave, adoption, surrogacy and fertility programs, new parent and nursing mother support programs, childcare tuition subsidy and tutoring services, dependent care for children and adults, family care coordination, and pet insurance.

Beyond compensation and benefits, we also value career development for all employees, and we offer a tuition reimbursement program, as well as professional development courses ranging from technical training, competency-based workshops and leadership development programs facilitated by external partners who are experts in their respective fields. In 2024, we established the Exelixis Leadership Foundations, a comprehensive two-year leadership program designed exclusively to assist managers in achieving outcomes effectively. Managers also take an active role in identifying development plans to assist their employees in realizing their full potential for expanded responsibilities and career growth which enhance the engagement and retention across our workforce.

Corporate Information

We were incorporated in Delaware in November 1994 as Exelixis Pharmaceuticals, Inc. and changed our name to Exelixis, Inc. in February 2000. Our principal executive offices are located at 1851 Harbor Bay Parkway, Alameda, California 94502. Our telephone number is (650) 837-7000. We maintain a site on the worldwide web at www.exelixis.com; however, information found on our website is not incorporated by reference into this report.

We make available free of charge on or through our website our Securities and Exchange Commission (SEC) filings, including our annual report on Form 10-K, quarterly reports on Form 10-Q, current reports on Form 8-K and amendments to those reports filed or furnished pursuant to Section 13(a) or 15(d) of the Securities Exchange Act of 1934, as amended, as soon as reasonably practicable after we electronically file such material with, or furnish it to, the SEC. The SEC maintains a site on the worldwide web that contains reports, proxy and information statements and other information regarding our filings at www.sec.gov.