化学
碘代乙酰胺
变构调节
共价键
HEK 293细胞
半胱氨酸
生物化学
促炎细胞因子
选择性
血浆蛋白结合
共价结合
结构-活动关系
结合位点
炎症体
立体化学
组合化学
分泌物
小分子
装订袋
行动方式
靶蛋白
结合选择性
平均力势
受体
重组DNA
作者
Yanli Sun,Fengying Zhang,Lixin Zhou,Yixuan Feng,Shuke Yang,Qiuxian Lu,Xin Yuan,Wenqing Hou,Bi-wei Liu,Zhixiang Guo,Lu Chen,Bo Peng,Xianzhen Yin,Yiwen Zhang,Jing Yang,Nan Chen,Wenchao Lu
标识
DOI:10.1021/acs.jmedchem.5c01724
摘要
GSTO1 activates the NLRP3 inflammasome by deglutathionylating NEK7 at Cys253, driving proinflammatory responses. Using PRM-based targeted mass spectrometry, we identified compound A1 as a covalent GSTO1 inhibitor modifying Cys32. Ligand-based optimization generated analogues with diverse activities; among them, A13 exhibited moderate target engagement (kinact/KI = 226 M-1·s-1), excellent cysteine selectivity confirmed by desthiobiotin iodoacetamide (DBIA)- and alkyne-based ABPP, and superior metabolic stability in human liver microsomes. High-resolution crystal structures revealed an unexpected A13 binding mode occupying a new hydrophobic pocket distinct from known GSTO1 inhibitors. Functionally, covalent targeting of GSTO1-C32 by A13 markedly reduced LPS-induced IL-1β and IL-18 secretion in human monocyte-derived macrophages. Collectively, these results identify A13 as a potent, selective, and metabolically stable lead compound for developing next-generation GSTO1 inhibitors targeting inflammatory diseases.
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