聚乙二醇化
脂肪变性
PEG比率
FGF21型
医学
药理学
内科学
非酒精性脂肪肝
化学
生物
生物化学
脂肪肝
聚乙二醇
成纤维细胞生长因子
疾病
受体
财务
经济
作者
Jianying Qi,Zhimou Guo,Shenglong Zhu,Xuan Jiang,Yuanyuan Wu,Yingli Chen,Fei Hu,Jingjing Xiong,Yunzhou Wu,Xianlong Ye,Xinmiao Liang
标识
DOI:10.1016/j.ijbiomac.2024.129797
摘要
FGF21 plays an active role in the treatment of type 2 diabetes, obesity, nonalcoholic fatty liver disease (NAFLD), and nonalcoholic steatohepatitis (NASH). However, the short half-life and poor stability of wild-type FGF21 limit its clinical application. Previous studies found that PEGylation can significantly increase the stability of FGF21. However, the uneven distribution of PEGylation sites in FGF21 makes it difficult to purify PEG-FGF21, thereby affecting its yield, purity, and activity. To obtain long-acting FGF21 with controlled site-specific modification, we mutated lysine residues in FGF21, resulting in PEGylation only at the N-terminus of FGF21 (mFGF21). In addition, we modified mFGF21 molecules with different PEG molecules and selected the PEG-mFGF21 moiety with the highest activity. The yield of PEG-mFGF21 in this study reached 1 g/L (purity >99 %), and the purification process was simple and efficient with strong quality controllability. The half-life of PEG-mFGF21 in rats reached 40.5–67.4 h. Pharmacodynamic evaluation in mice with high-fat, high-cholesterol- and methionine and choline deficiency-induced NASH illustrated that PEG-mFGF21 exhibited long-term efficacy in improving liver steatosis and reducing liver cell damage, inflammation, and fibrosis. Taken together, PEG-mFGF21 could represent a potential therapeutic drug for the treatment of NASH.
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