脂质代谢
再生(生物学)
新陈代谢
肝再生
化学
细胞生物学
内分泌学
生物化学
生物
癌症研究
作者
Yitian Liu,Yiwei Sun,Lv Jin,Ying Xu,Bibo Wang,Ting Yu,Xiaofei Wei,Jing Xu,Yating Wei,Shuai Yang,Min Yu,Hongyang Wang,Yao Chen
摘要
Liver regeneration is a critical adaptive response to hepatic injury, requiring precise metabolic reprogramming to meet the energetic and biosynthetic demands of proliferating hepatocytes. While the oncoprotein Gankyrin is well-established as a promoter of liver fibrosis and hepatocarcinogenesis, its role in metabolic adaptations underlying liver regeneration remains unclear. In this study, we demonstrate that Gankyrin deficiency in the liver ( Gank △Hep/Y) induces hepatic hypertrophy and aberrant glycogen accumulation. Gankyrin expression is significantly upregulated after partial hepatectomy (PHx), whereas Gank △Hep/Y -PHx mice exhibit impaired liver regeneration. This impairment is marked by a delayed restoration of the liver-to-body weight ratio, blunted glycogenolysis, and reduced fatty acid uptake. Mechanistically, Gankyrin activates Pygl and Cd36, key regulators of glycogenolysis and lipid uptake, respectively. Pharmacological inhibition of PYGL activity retards liver regeneration. Furthermore, we identify a novel interaction between Gankyrin and FOXO1, wherein Gankyrin promotes FOXO1 ubiquitination and subsequent proteasomal degradation. This Gankyrin-dependent suppression of FOXO1 leads to the transcriptional upregulation of Pygl and Cd36, thereby fueling hepatocyte proliferation. Collectively, our findings reveal Gankyrin as a master regulator of liver regeneration, integrating metabolic reprogramming with proliferative signaling through the FOXO1-PYGL/CD36 axis. These insights not only elucidate the mechanistic underpinnings of liver regeneration but also unveil the therapeutic potential of targeting the Gankyrin/FOXO1 pathway to mitigate hepatic insufficiency and enhance regenerative capacity in clinical settings.
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