PO.CT01.05 · 临床试验

ST316, a first in class beta-catenin antagonist, demonstrates safety and efficacy in metastatic colorectal cancer (mCRC)

海报缩略图:ST316, a first in class beta-catenin antagonist, demonstrates safety and efficacy in metastatic colorectal cancer (mCRC)
编号 CT156 展板 20 时间 4/20 02:00–05:00 区域 Section 52 主讲 Abi Vainstein-Haras, MD
分会场 Phase II and Phase III Clinical Trials
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作者与单位

Anthony El-Khoueiry1, Susanna V. Ulahannan2, Steven Powell3, Jason T. Henry4, E. Gabriela Chiorean5, Niharika Mettu6, Zachary F. Mattes7, Claudio Scuoppo7, Joyce Gakuria7, Franco Abbate7, Jim A. Rotolo7, Abi Vainstein-Haras7

1USC Norris Comprehensive Cancer Center, Los Angeles, CA,2Stephenson Cancer Center, The University of Oklahoma, Oklahoma City, OK,3Sanford Health Oncology Research, Sioux Fall, SD,4Sarah Cannon Research Institute, Denver, CO,5Fred Hutchinson Cancer Center, University of Washington, Seattle, WA,6Duke University Medical Center, Durham, NC,7Sapience Therapeutics, Tarrytown, NY

摘要 Abstract

BACKGROUND Aberrant activation of the Wnt/beta-catenin pathway is a critical driver of tumor progression and immune evasion in tumors including colorectal cancer (CRC). Targeting this pathway is challenging for multiple reasons including its role in normal tissue physiology. BCL9 is a co-activator essential for oncogenic beta-catenin activity, but not its physiologic functions, highlighting the beta-catenin/BCL9 interaction as a therapeutic target. ST316 was designed to selectively disrupt the beta-catenin and BCL9/9L interaction, resulting in disruption of oncogenic Wnt/beta-catenin transcriptional activity and potent antitumor activity, with no negative impact on intestinal or bone physiology. METHODS A phase 1/2 study is ongoing to determine the safety/tolerability, pharmacokinetics (PK), pharmacodynamics (PD), and antitumor activity of ST316 alone in solid tumors likely to harbor abnormalities of the Wnt/beta-catenin signaling pathway, and in combination with standard of care FOLFIRI + bevacizumab (SOC) in patients (pts) with metastatic CRC who have progressed after first line chemotherapy-containing regimens. PD analysis was conducted on serial tumor biopsies and blood samples collected at baseline and on-study. RESULTS Here we report biomarker data from the phase I dose escalation and clinical data from the phase 2 study. As of January 5, 2026, 23 pts were enrolled in the dose escalation Ph1 (median age 62 yrs). Pts received a median of 18 weeks of ST316 monotherapy at doses of 0.5mg/kg/QW to 12mg/kg/QW. No DLTs were observed, and the RP2D for combination with SOC was 8 mg/kg. Spatial transcriptomics analysis identified significant decreases in Wnt/beta-catenin transcriptional signatures in tumor cells in 4/4 pts analyzed, confirming on-target pathway disruption. GSEA identified significant attenuation of EMT and TGF-beta signatures, consistent with potent Wnt/beta-catenin antagonism. In Ph2, 15 2L CRC pts (median age 53, range 22-62), 100% MSS, 73% RAS mut, were treated with ST316 + FOLFIRI/bevacizumab and evaluable for response. Confirmed ORR is 46.7% (7/15 pts), along with another 46.7% of pts with SD (7/15 pts, of which 3/7 pts display decreased target lesions). Adverse events occurring in ≥20% of pts include nausea, fatigue, ALT/AST elevations and neutropenia; G3 AEs were reported for ALT/AST elevation and neutropenia. ALT/AST elevations were reversible and managed by dose reductions or drug holidays. CONCLUSIONS ST316 monotherapy was well tolerated, with no Wnt-related AEs, and significant on-target suppression of tumor cell Wnt/beta-catenin transcriptional signatures. In 2L metastatic CRC, ST316 combined with FOLFIRI/bevacizumab reached a confirmed ORR of 46.7% and disease control rate of 93.4%, which compare favorably with 2L FOLFIRI/bevacizumab historical ORR of 11% (Iwamoto et al, EAGLE), supporting a clinically meaningful combination effect. Liver enzyme elevations were reversible and asymptomatic. Together, the data support further evaluation of ST316 in combination with SOC in early-stage CRC.
利益披露 Disclosure
A. El-Khoueiry, Auransa; Fulgent; Astrazeneca; Astex Grant funding. BMS; Roche Genentech; Merck; EISAI; Astrazeneca; Qurient; Jazz Pharmaceuticals; Abbvie; Jansen; Terumo; Elevar Consulting and advisory board. Daiichi Sankyo Travel. S. V. Ulahannan, AbbVie, Inc; Adlai Nortye; ArQule, Inc; AstraZeneca; Atreca; Boehringer Ingelheim; Bristol-Myers Squibb; Celgene Corporation; Ciclomed LLC; Erasca; Evelo Biosciences, Inc.; Exelexis; ExTheraMedical Institutional support for research.. G1 Therapeutics, Inc; GlaxoSmithKline GSK; IGM biosciences; Incyte; Isofol; Klus Pharma, Inc.; Macrogenics; Merck Co. Inc; Mersana Therapeutics; OncoMed Pharmaceuticals, Inc.; Pfizer; Qurgen Institutional support for research.. Regeneron, Inc.; Revolution Medicines, Inc.; Sapience Therapeutics; Synermore Biologics Co; Takeda; Tarveda Therapeutics; Tesaro; Tempest; Vigeo Therapeutics Inc. Institutional support for research. S. Powell, Pfizer; Seattle Genetics; Merck; Bristol Meyers Squibb; Takeda; Molecular Templates; Janssen; Sapience Therapeutics; Sensei Research support. J. T. Henry, Sapience Therapeutics Research funding. E. Chiorean, AffiniT; BioAtla; Erasca; Gilead; Genentech; Lonza; Revolution Medicines, Sapience Therapeutics, Sanofi. Research funding. AADi; BMS; Fortvita; GSK; Merus; Pfizer; Purple; Regeneron; Takeda; Verastem. Scientific Advisor/Consultant. N. Mettu, Merck; Amgen; Sapience Therapeutics; Jazz; Revolution Medicine; PMV Pharmaceuticals; Pheast Therapeutics; Pfizer; Biohaven; BioNTech; Medilink; MOMA Research grant. Z. F. Mattes, Sapience Therapeutics Employment, Stock Option. C. Scuoppo, Sapience Therapeutics Employment, Stock Option. J. Gakuria, Sapience Therapeutics Employment, Stock Option. F. Abbate, Sapience Therapeutics Employment, Stock Option. J. A. Rotolo, Sapience Therapeutics Employment, Stock Option. A. Vainstein-Haras, Sapience Therapeutics Employment, Stock Option.

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