内科学
内分泌学
脂肪组织
产热
GDF15型
平衡
脂质代谢
生物
肥胖
基因剔除小鼠
分泌物
化学
医学
受体
作者
Fei He,Hao Chen,Chang Peng,Tingting Wang,Rong‐Rong Xiao,Meiling Chen,Nixue Song,Zhenyun Du,Hanlin Wang,Xiaoyu Ding,Yikai Shao,Jianping Fang,Yi Zang,Rong Hua,Jia Li,Kan Ding
标识
DOI:10.1016/j.jhep.2023.05.011
摘要
Disturbed hepatic metabolism frequently results in excessive lipid accumulation in the adipose tissue. However, the specific role of the liver-adipose axis in maintaining lipid homeostasis, as well as the underlying mechanism, has not yet been fully elucidated. In this study, we investigated the role of hepatic glucuronyl C5-epimerase (Glce) in the progression of obesity.We determined the association between the expression of hepatic Glce and body mass index (BMI) in obese patients. Obesity models were established in hepatic Glce-knockout and wild-type mice fed a high-fat diet (HFD) to understand the effect of Glce on obesity development. The role of Glce in the progression of disrupted hepatokine secretion was examined via secretome analysis.Hepatic Glce expression was inversely correlated with BMI in obese patients. Moreover, Glce level was found to be decreased in the liver of a HFD murine model. Hepatic Glce deficiency led to impaired thermogenesis in adipose tissue and exacerbated HFD-induced obesity. Interestingly, decreased level of growth differentiation factor 15 (GDF15) was observed in the culture medium of Glce-knockout mouse hepatocytes. Treatment with recombinant GDF15 obstructed obesity progression derived from the absence of hepatic Glce, similar to the effect of Glce or its inactive mutant overexpressed both in vitro and in vivo. Furthermore, liver Glce deficiency led to diminished production and increased degradation of mature GDF15, resulting in reduced hepatic GDF15 secretion.Hepatic Glce deficiency facilitated obesity development, and decreased Glce expression further reduced hepatic secretion of GDF15, thereby perturbing lipid homeostasis in vivo. Therefore, the novel Glce-GDF15 axis plays an important role in maintaining energy balance and may act as a potential target for combating obesity.Evidence suggests that GDF15 plays a key role in hepatic metabolism; however, the molecular mechanism for regulating its expression and secretion is largely unknown. Our work observes that hepatic Glce, as a key Golgi-localised epimerase, may work on the maturation and post-translational regulation of GDF15. Hepatic Glce deficiency reduces the production of mature GDF15 protein and facilitates its ubiquitination, resulting in the aggravation of obesity development. This study sheds light on the new function and mechanism of the Glce-GDF15 axis in lipid metabolism and provides a potential therapeutic target against obesity.
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