On October 24, 2024 Arcus Biosciences, Inc. (NYSE:RCUS), a clinical-stage, global biopharmaceutical company focused on developing differentiated molecules and combination therapies for patients with cancer, reported the first clinical activity data for casdatifan, a HIF-2a inhibitor with best-in-class potential, in an oral plenary session by Dr. Toni K. Choueiri, Dana-Farber Cancer Institute at the 2024 EORTC-NCI-AACR (Free EORTC-NCI-AACR Whitepaper) Symposium on Molecular Targets and Cancer Therapeutics in Barcelona, Spain (Press release, Arcus Biosciences, OCT 24, 2024, View Source [SID1234647390]).

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"Based on our experience in the ARC-20 study, we have seen casdatifan’s ability to quickly bring tumor growth under control and its high response and disease control rates," said Toni K. Choueiri, M.D., director of the Lank Center for Genitourinary (GU) Oncology at Dana-Farber, the Jerome and Nancy Kohlberg chair and professor of medicine at Harvard Medical School and lead investigator of ARC-20. "Based on these data, casdatifan has the potential to be a future treatment option for kidney cancer. I am particularly interested in planned research into novel combinations for casdatifan in both first- and second-line ccRCC."

"In the 100mg daily dose-expansion cohort of ARC-20, casdatifan showed encouraging results, particularly a low primary progressive disease rate and very durable responses. This was accomplished with a manageable safety profile," said Dimitry Nuyten, M.D., Ph.D., chief medical officer of Arcus. "These data support the potential for casdatifan to be a best-in-class HIF-2a inhibitor for the treatment of ccRCC. We look forward to initiating our first Phase 3 study for casdatifan, PEAK-1, in the first half of 2025, and expanding our development program into the first-line setting with a novel combination, as well as into other ccRCC subpopulations."

ARC-20 is a Phase 1/1b dose-escalation and -expansion study. In the dose escalation (20mg to 200mg) portion of the study, the safety profile was comparable across the doses; there were no dose-limiting toxicities, and the maximum tolerated dose was not reached at daily doses of up to 150 mg (200 mg portion of the study is currently ongoing). The 100 mg daily dose (50 mg BID [twice daily]) was selected for dose expansion, and casdatifan was evaluated in patients with metastatic ccRCC who had progressed on at least two prior lines of therapy, including both an anti-PD-1 and a tyrosine kinase inhibitor (TKI) therapy (n=33). The patient population was heavily pre-treated: 52% had received at least three prior lines of therapy; 26% had received at least four prior lines of therapy; and 61% had an International Metastatic Renal Cell Carcinoma Database Consortium (IMDC) risk factor of intermediate.

At the time of data cut off (DCO, Aug. 30, 2024), median follow-up was 11 months. Casdatifan showed a rapid time to response, and only 19% of patients had primary progressive disease (progressed at or before their first disease assessment). The majority of patients (81%) experienced disease control with either a partial response or stable disease. At the time of the DCO, the median progression-free survival had not been reached. 34% of patients experienced an objective response, meaning their tumor shrank by at least 30%. A summary of initial results is below.

Objective Response Rate (ORR) per RECIST v1.1

100mg Efficacy-Evaluable* Population (n=32)

ORR

[95% CI]

34% (11)**

[16,50]

Responses Pending Confirmation

2**

Confirmed ORR

[95% CI]

25% (8)

[12,43]

Progressive Disease

19% (6)

Disease Control Rate

[95% CI]

81%

[64,93]

Median Progression-Free Survival

Not Reached

CI=confidence interval

*100mg daily dose is 50mg BID (twice daily); efficacy-evaluable population for this expansion cohort is defined as all eligible participants who have measurable disease at baseline, receive at least one dose of casdatifan, and have at least one post-baseline efficacy assessment, or who discontinue study treatment due to progressive disease or death. One participant was enrolled but deemed not eligible for the study and was not evaluated for efficacy.

**One patient achieved a response after DCO and nearly a year on treatment, which increased the ORR from 31% (10) to 34%.

In the 100mg dose-expansion cohort, no unexpected safety signals were observed at the time of DCO, and casdatifan had an acceptable and manageable safety profile. Grade 3 treatment-emergent adverse events (TEAEs) related to casdatifan were 42%, including anemia (36%) and hypoxia (9%). No patients discontinued treatment from anemia. No TEAEs were life-threatening or led to death.

Arcus is pursuing a broad development program in both the first-line and post-anti-PD-1 settings with differentiated combinations to maximize the opportunity for casdatifan in ccRCC. In addition to the monotherapy cohorts of ARC-20, the study is also enrolling a cohort to evaluate casdatifan in combination with cabozantinib, a VEGFR TKI which is intended to support the initiation of Arcus’s planned first Phase 3 study, PEAK-1, evaluating casdatifan in combination with cabozantinib versus cabozantinib monotherapy in patients with metastatic ccRCC who have previously received anti-PD-1 therapy. The primary endpoint will be progression-free survival with a key secondary endpoint of overall survival. Arcus also recently announced a clinical collaboration as part of its first-line strategy in advanced ccRCC to evaluate casdatifan in combination with volrustomig, an investigational anti-PD-1/CTLA-4 bispecific antibody.

Investors may dial in to the conference call at +1 (404) 975- 4839 (local) or +1 (833) 470-1428 (toll-free), using Conference ID: 595409 on Thursday, October 24, 2024 at 5:00 AM PT / 8:00 AM ET. Participants may also register for the call online using the following link: View Source;confId=70796. In addition to the ARC-20 data, the conference call will address the development strategy and market potential for casdatifan. Arcus will also be joined by Dr. Rana McKay of the University of California San Diego. To access the live webcast and accompanying slide presentation, please visit the "Investors & Media" section of the Arcus Biosciences website at www.arcusbio.com. A replay will be available following the live event.

About Casdatifan (AB521)

Casdatifan is a small-molecule inhibitor of HIF-2a, a tumorigenic transcription factor involved in oxygen sensing in multiple organs as well as in tumors. Clear cell RCC is almost universally associated with HIF-2a dysregulation as a result of genetic abnormalities in the VHL pathway. This creates a situation of pseudohypoxia and the abnormal increase in HIF-2a-mediated expression of a broad range of oncogenic proteins. By selectively inhibiting HIF-2a, casdatifan is designed to disable a wide array of pathways involved in tumor proliferation and survival, treatment resistance and angiogenesis, leading to cancer cell death. Casdatifan is being evaluated in ARC-20, a Phase 1/1b study in cancer patients, and STELLAR-009, a Phase 1b/2 study in combination with zanzalintinib in patients with advanced solid tumors, including ccRCC.

Under the Gilead and Arcus collaboration agreement, Gilead has the right to opt-in to development and commercialization for casdatifan after Arcus’s delivery of a qualifying data package.

Casdatifan is an investigational molecule. Approval from any regulatory authority for its use has not been received, and its safety and efficacy have not been established.

About RCC

According to the American Cancer Society, kidney cancer is among the top 10 most commonly diagnosed forms of cancer among both men and women in the U.S., and an estimated 81,600 Americans will be diagnosed with kidney cancer in 2024. Clear cell RCC is the most common type of kidney cancer in adults. If detected in its early stages, the five-year survival rate for RCC is high; for patients with advanced or late-stage metastatic RCC, however, the five-year survival rate is only 15%. In 2022, approximately 32,200 patients with advanced kidney cancer required systemic therapy in the U.S., with over 20,000 patients receiving first-line treatment.

On October 24, 2024 NiKang Therapeutics Inc. ("NiKang") is a clinical stage biotech company focused on developing innovative small molecule oncology medicines to bring transformative therapies to patients in need, reported the unveiling of NKT3964 at the EORTC-NCI-AACR (Free EORTC-NCI-AACR Whitepaper) Symposium on Molecular Targets and Cancer Therapeutics ("Triple Meeting") during a Poster Spotlight Session (Press release, NiKang Therapeutics, OCT 24, 2024, View Source [SID1234647389]). The conference is being held October 23-25, 2024, in Barcelona, Spain. NKT3964 is a first-in-class, orally bioavailable small molecule CDK2 degrader that selectively degrades CDK2, demonstrating high specificity over CDK1 and other CDK family members. Its high potency and unique mechanism of action result in sustained inhibition of CDK2 pathway without causing cyclin E accumulation. NKT3964 is designed to treat patients with aberrant CDK2/cyclin E pathway activation, including those with ovarian, endometrial, gastric and HR+HER2- breast cancers.

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NiKang has initiated a phase 1, open-label, dose escalation study of NKT3964 as a single agent. This first-in-human study (NCT06586957) is designed to evaluate the safety, tolerability, pharmacokinetics and preliminary anti-tumor activity to determine the preliminary recommended dose for expansion of NKT3964 in adults with advanced or metastatic solid tumors.

"We are excited to share the discovery of NKT3964, a first-in-class oral CDK2 degrader at this year’s Triple Meeting," said Zhenhai Gao, Ph.D., co-founder, president, and CEO of NiKang. "This is the second of three programs targeting the cell cycle (CDK2 inhibitor NKT3447, CDK2 degrader NKT3964, and a CDK2/4 selective dual degrader) that we have advanced to the clinic. We believe CDK2 plays a critical role in driving tumor growth. Recent clinical data presented at ESMO (Free ESMO Whitepaper) further validates CDK2 as a key oncology target. We are developing a cutting-edge portfolio of CDK2 and CDK2/4 degraders that can achieve sustained CDK pathway inhibition while avoiding paradoxical cyclin E increase. Our multi-pronged approach allows us to thoroughly and deeply interrogate this pathway. We look forward to exploring NKT3964’s potential in treating patients with advanced or metastatic solid tumors."

Poster Presentation Details:

Title:

Discovery of NKT3964: a first-in-class, highly potent and selective, orally bioavailable CDK2 PROTAC degrader for cancer therapy

Presenter:

Jianlin Geng, Ph.D.

Abstract Number:

PB002

Session:

Posters in the Spotlight

Date/Time:

2:00 p.m.-2:40 p.m. CEST on October 24, 2024

About NKT3964

NKT3964 is a first-in-class, highly potent and selective, orally bioavailable CDK2 PROTAC degrader, causing prolonged CDK2 pathway inhibition without cyclin E accumulation. It has the potential to maximally inhibit the CDK2 pathway, fully harnessing the therapeutic benefits of CDK2 inhibition. NKT3964 is currently under evaluation in a Phase 1 clinical study in advanced or metastatic solid tumors as a single agent (NCT06586957).

On October 24, 2024 Matica Biotechnology Inc. (Matica Bio), a CDMO specializing in viral vector development and manufacturing, reported the signing of a Letter of Intent (LOI) with KaliVir Immunotherapeutics, a U.S.-based clinical-stage biotechnology company developing cutting-edge, multi-mechanistic oncolytic viral immunotherapies (Press release, KaliVir Immunotherapeutics, OCT 24, 2024, View Source [SID1234647388]).

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KaliVir is at the forefront of developing novel cancer therapies using its proprietary Vaccinia Enhanced Template (VET) platform. This platform allows for the expression and systemic delivery of multiple therapeutic transgenes. KaliVir’s lead clinical candidate, VET3-TGI, expresses interleukin-12 and a TGFbeta inhibitor.

Under this new partnership, Matica Bio will utilize its proprietary cell line, MatiMax, to explore a new manufacturing process for KaliVir’s oncolytic virus product.

Helena Chaye, CEO of KaliVir, stated, "Our collaboration with Matica Bio allows us to accelerate the development of our oncolytic virus therapies. This agreement is expected to expand our strategic partnership across all phases of product development."

"The development of production processes for viral vectors is crucial for the stable production of high-quality therapeutics. Through this agreement, we aim to leverage our high-performance MatiMax cell line and CGT manufacturing expertise to actively support KaliVir’s oncolytic virus program," said Paul Kim, CEO of Matica Bio.

Matica Biotechnology has viral vector facilities in College Station, Texas, purpose-built and equipped with single-use system to develop and produce viral vectors, a key raw material for cell and gene therapies. In June 2023, Matica successfully developed its proprietary MatiMax cell line, enhancing viral vector production efficiency. The company continues to expand its contract service orders while advancing biomanufacturing technologies.

On October 24, 2024 Havah Therapeutics, a clinical stage biopharmaceutical company developing innovative, proprietary hormonal implant therapies for prevention and treatment of breast cancers, reported the formation of their Clinical Advisory Board Chaired by Havah Therapeutics founder Stephen Birrell, MD, PhD (Press release, HavaH Therapeutics, OCT 24, 2024, View Source [SID1234647387]).

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"The scientific and clinical guidance of this esteemed group will be invaluable as we advance our androgen targeted therapy into late-stage clinical studies for Ductal Carcinoma In-Situ (DCIS) and investigator-sponsored combination studies in more advanced disease," said, Matthew Brewer, CEO of Havah Therapeutics.

Shelley Hwang, MD, MPH, Breast Cancer Research Foundation (BCRF) Investigator and internationally recognized expert in pre-invasive disease and DCIS, added: "I am thrilled to be involved with Havah Therapeutics at this critical stage of their development. Insights gained from their ongoing Phase 2 study (RECAST DCIS), coupled with my experience as the principal investigator of the COMET Study, will potentially enable the company’s androgen receptor targeting therapy to provide a much needed treatment alternative to invasive surgery and radiation treatment."

The members of Havah Therapeutics’ Clinical Advisory Board include:

Stephen Birrell, MD, PhD (Chair), is founder of Havah Therapeutics and Chief Medical Officer of Wellend Health, an Australia-wide clinic that specializes in breast hormone-health, women at high-risk breast cancer and clinical trials. He is a Clinical Affiliate academic at the University of Adelaide Dame Roma Mitchell Cancer Research Laboratories.

Shelley Hwang, MD, MPH is the Mary and Deryl Hart Distinguished Professor of Surgical Oncology and Radiology, Vice Chair of Research and Disease Group Leader for the Breast Cancer Program at Duke University Comprehensive Cancer Center. Her research focus includes breast cancer prevention, identifying less invasive treatments for early-stage breast cancers including DCIS and addressing and mitigating health care disparities in breast cancer.

Seema A. Khan, MD is Professor of Surgery in the Feinberg School of Medicine at Northwestern University, and the Bluhm Family Professor of Cancer Research. She is the Co-Leader of the Cancer Prevention Research Program at the Robert H. Lurie Comprehensive Cancer Center. Her research focuses on applying biomarker knowledge to improve breast cancer risk stratification and develop preventive interventions for high-risk women. Her research is funded by the National Institutes of Health, The Breast Cancer Research Foundation, the Avon Foundation, and the Susan G. Komen Foundation

Professor Wayne Tilley, PhD is the Inaugural Director of the Dame Roma Mitchell Cancer Research Laboratories, University of Adelaide. He completed a Fellowship at UT Southwestern in Dallas Texas in the late 1980s where he was one of the first to clone the human androgen receptor (AR) with Professor Jean Wilson, MD. A current major research focus of Professor Tilley’s lab is the development of new treatments for breast cancer that stimulate the tumor suppressive activity of the AR in the breast (Nature Medicine 2021; Lancet Oncology 2024) to counter the proliferative effects of estrogen.

Additional background information on the CAB members can be found on the company’s website: www.havahtx.com

About RECAST DCIS

Havah Therapeutics is currently participating in the Re-Evaluating Conditions for Active Surveillance Suitability as Treatment: Ductal Carcinoma In Situ (RECAST DCIS), a Phase 2 platform study aimed at preventing the progression of DCIS to breast cancer. Havah Therapeutics’ HAVAH T+Ai, a proprietary combination of testosterone (T) and anastrozole (Ai) that targets the androgen and estrogen receptor pathways, is being evaluated alongside two other endocrine therapy arms.

On October 24, 2024 Qurient Co. Ltd. (KRX: 115180) reported the commencement of a clinical trial for adrixetinib (formerly named Q702), following the clearance of its investigational new drug (IND) application by the U.S. FDA (Press release, Qurient Therapeutics, OCT 24, 2024, View Source [SID1234647386]).

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The trial is a Phase 1 dose escalation and expansion study designed to assess the safety and preliminary efficacy of Q702 as a single agent and in a triplet combination with venetoclax and azacitidine for patients with relapsed/refractory acute myeloid leukemia (AML) (ClinicalTrials.gov Identifier: NCT06445907). Adrixetinib, an orally administered, selective inhibitor of AXL/MER/CSF1R kinases, has demonstrated significant anti-tumor activities, enhancing chemo-sensitivity and immune response across various tumor models. The innovative combination therapy is expected to work synergistically, potentially improving patient outcomes in AML treatment.

The trial’s principal investigator is Abhishek Maiti, M.D., assistant professor in the Department of Leukemia at The University of Texas MD Anderson Cancer Center in Houston.

The expression of AXL and MER (TAM family kinases) and CSF1R has been linked to a poorer prognosis in AML, positioning them as critical therapeutic targets within the cell and tumor microenvironment. Preclinical studies have shown the efficacy of AXL/MER inhibition, both as a standalone treatment and in combination with venetoclax, in various AML models, including aggressive FLT3-ITD bearing AML and venetoclax-resistant primary AML samples. CSF1R inhibition also targets AML by disrupting supportive microenvironmental signals, while AXL inhibition in macrophages may enhance the myeloid-centered anti-leukemia immune response.

Dr. Kiyean Nam, CEO of Qurient, conveyed his enthusiasm for the company’s strategic trajectory, stating, "The establishment of adrixetinib’s Phase 2 recommended dosage has set the stage for further clinical collaboration with leading American medical institutions for patients diagnosed with AML, but who may not be eligible for intensive chemotherapy. I believe that adrixetinib’s unique underlying biology can help these patients in combination with venetoclax and azacitidine."

About Adrixetinib (Q702)

Adrixetinib, an innovative immunotherapy conceived by Qurient, is a selective triple kinase inhibitor that targets AXL, MER, and CSF1R. It enhances the body’s innate immune defenses and increases the susceptibility of cancer cells to therapeutic interventions. Q702 is currently in clinical development for the treatment of select advanced solid tumors and hematologic malignancies.