黄芩苷
肝星状细胞
纤维化
车站3
癌症研究
细胞外基质
肝纤维化
功能(生物学)
黄芩
基质金属蛋白酶
药理学
基因
突变体
肝纤维化
生物
化学
基因敲除
斯达
中医药
肝功能
机制(生物学)
计算生物学
医学
信号转导
细胞生物学
生物信息学
细胞外
基因敲除
黄芩
作用机理
体内
突变
作者
Shouli Yuan,Yuan‐Fei Zhou,Bin Ma,Yuan Liu,Jin Zhang,Yanqi Wang,Weidi Xiao,Haifan Liu,Fengzhang Wang,Aimin Yu,Weipeng Yang,Chu Wang
摘要
, was able to inhibit the activation of hepatic stellate cells and attenuate liver fibrosis in various mouse models. In order to elucidate the molecular basis of its antifibrotic effects, we designed a novel baicalin photo-cross-linking probe and applied a quantitative chemoproteomic strategy based on dimethyl labeling to profile baicalin-interacting proteins. Aided by systematic gene knockouts of these potential baicalin interactors, we identified STAT3 as a key target in mediating the antifibrotic function of baicalin. Mechanistically, baicalin primarily binds to the N-terminal domain of STAT3, inhibits its interaction with JAK2 and thereby suppresses STAT3 phosphorylation. Our findings reveal the molecular mechanism of the antifibrotic effects of baicalin and provide a theoretical basis for the design of new antifibrotic drugs based on the structure of baicalin.
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