化学
癌症研究
激酶
共价键
生物化学
四肽
癌细胞
结构-活动关系
细胞毒性
转移
药理学
酶
残留物(化学)
电泳剂
蛋白激酶A
组合化学
连接器
癌症
信号转导
个人识别码1
重新调整用途
药物重新定位
基诺美
树枝状大分子
合理设计
作者
Shan Li,Yingao Wang,Xuechen Liu,Hong Chun Zhang,Chong Lei,Zhen Wang,Yuqing Zhang,Xiaoli Du,Li Xu,Ziwen Li,Yuru Shi,Xinpeng Ning,Ji Cao,Zhi-Min Zhang,Dawei Ma,Keyi Ding
标识
DOI:10.1021/acs.jmedchem.5c03079
摘要
NUAK1, an AMPK-related kinase overexpressed in cancers, plays a crucial role in tumor metastasis and cell survival, making it an attractive cancer therapeutic target. Herein, we report potent, selective NUAK1 inhibitors via structure-guided repurposing of a covalent JAK3 inhibitor. By capitalizing on the critical structural difference─Cys909 in JAK3 versus Glu139 in NUAK1─we substituted the electrophilic warhead with glutamate-favoring moieties, a modification that confers selective NUAK1 targeting. Supporting this design rationale, cocrystal structures verify the specific engagement of these moieties with the Glu139 residue of NUAK1. Among the synthesized analogs, candidate compound 10i exhibits subnanomolar NUAK1 inhibition (IC 50 = 0.49 nM) and kinome-wide selectivity. Besides, 10i suppresses proliferation, migration, and invasion of triple-negative breast cancer cells, reverses EMT markers, and shows robust antitumor efficacy in mouse xenografts. This study provides a promising lead and validates Glu139 as an anchor for selective NUAK1 targeting.
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