肝损伤
青蒿琥酯
药理学
泛素
医学
基因敲除
程序性细胞死亡
肝损伤
青蒿素
癌症研究
肝癌
肝细胞
自噬
蛋白质降解
化学
基因剔除小鼠
肝衰竭
动物模型
作者
Zhe Zhang,Hongyi Zhang,H. Henry Guo,X. B. Zhang,Yidan Wang,Baoyin Wang,Tong Wang,Guokun Zhao,Qing Zhang,Fei Gao,Shuang Liang,Haibo Jiang,Yu Ding,Xiliang Du,Jiabao Zhang,Yi Zheng,Yu Li,Bao Yuan
标识
DOI:10.1002/advs.202521818
摘要
ABSTRACT Liver injury can lead to severe acute liver failure and even death in patients. Artesunate (ART), which is a derivative of artemisinin that has been approved by the FDA for the treatment of malaria, has significant regulatory effects on cell death and inflammation. In this study, we found that ART exerts a protective effect on various preclinical animal models of liver injury, including mouse models of liver injury induced by APAP, CCl 4 , and Con A. Mechanistically, CETSA, DARTS and SPR indicate that ART directly binds to the LYS653 and ASP837 residues within the HECT domain of NEDD4L, and enhances the interaction between NEDD4L and the substrate TXNIP, promoting the ubiquitination and proteasomal degradation of TXNIP, ultimately alleviating APAP‐induced liver injury. Furthermore, the overexpression of TXNIP as well as the global knockout or liver‐specific knockdown of NEDD4L eliminates the effect of ART on alleviating liver injury. These data suggest that the NEDD4L‐TXNIP axis participates in the development of liver injury and highlight the potential of ART to be used in the clinical treatment of liver injury.
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