自由能微扰
计算生物学
组合化学
化学
选择性
突变
生物信息学
计算机科学
摄动(天文学)
药理学
抗药性
结构-活动关系
立体化学
临床疗效
纳米技术
计算化学
癌症研究
作者
Éric Therrien,Shulu Feng,Katherine Amberg-Johnson,Nadim Shaikh,Pradeep Patil,Sarmistha Majumdar,Nikita Abraham,Daniel Eiler,Steffen Kutter,Steven K. Albanese,Susanta Haldar,Kyle G. Kroeck,Christian Atsriku,Aleksey I. Gerasyuto,Adam M. Levinson
标识
DOI:10.1021/acsmedchemlett.6c00158
摘要
The clinical emergence of diverse c-MET mutations with resistance to approved inhibitors has created an urgent demand for next-generation inhibitors with efficacy against c-MET-resistant mutations while maintaining c-MET wild-type (WT) potency, selectivity over other kinases, and brain penetration. Here, we report a novel chemical series discovered through iterative core enumeration and decoration guided by free energy perturbation calculations. Type-III inhibitor 20 demonstrated potent activity against both WT and c-MET with the D1228V resistance mutation with promising physicochemical properties, laying the foundation for the development of brain-penetrant therapies targeting c-MET–driven cancers.
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