化学
班级(哲学)
组合化学
癌症研究
计算机科学
人工智能
生物
作者
Denise C. Grünenfelder,Upender Velaparthi,Jayakumar Warrier,Louis Chupak,Chetan Padmakar Darne,Bireshwar Dasgupta,T. G. Murali Dhar,Min Ding,Robert G. Gentles,Yazhong Huang,Prasada Rao Jalagam,Manjunatha Kamble,Raju Mannoori,Scott Martin,Shana Posy,Hasibur Rahaman,Thiruvenkadam Raja,Kotha Rathnakar Reddy,Saumya Roy,Amy A. Sarjeant
标识
DOI:10.1021/acs.jmedchem.5c02240
摘要
DGKα and DGKζ are intracellular T cell checkpoints that negatively regulate T cell signaling, activation, and tumor immunity. Inhibition of DGKα/ζ is an attractive mechanism for next-generation immunotherapy, with the potential to broaden the response to existing cancer treatments, including anti-PD-1 and anti-CTLA-4. The lead molecule BMS-502 was optimized to the first-in-class dual DGKα/ζ inhibitor BMS-986408 (BMS-408), starting with the replacement of an aryl nitro group that posed a potential liability. Subsequent improvement in cellular potency, cross-species oral pharmacokinetic profile, and optimization of physicochemical properties led to the identification of the development candidate BMS-408. In preclinical studies, BMS-408 demonstrated dose-proportional pharmacokinetics and pharmacodynamics in mice, as well as robust efficacy in combination with either anti-PD-1 and/or anti-CTLA-4 in MC-38 and 1956 tumor models. Given the favorable in vitro and in vivo profiles, as well as in vivo pharmacology, BMS-408 was advanced to clinical development.
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