Bisphosphoglycerate mutase is involved in glucose metabolism and progression of nonalcoholic fatty liver disease based on liver organoids
摘要
This study seeks to investigate the underlying mechanism of glycolytic key gene bisphosphoglycerate mutase (BPGM) in nonalcoholic fatty liver disease (NAFLD). qRT-PCR and immunohistochemistry were utilized to detect BPGM levels in clinical NAFLD samples. HepG2 cells and liver organoids were treated with free fatty acid. (FFA). The role of BPGM in NAFLD was explored at cellular, organoid, and animal levels. Metabolomics was performed to analyze differential metabolites and metabolic pathways. Furthermore, we examined the regulatory mechanisms of BPGM by HIF-1α in NAFLD. Results indicated that high expression of BPGM in NAFLD samples was correlated with NAFLD progression. Moreover, Severe group had higher BPGM expression than Mild group. FFA treatment induced time-dependent steatosis and BPGM upregulation in HepG2 cells and liver organoids, whereas BPGM knockdown attenuated lipid accumulation, cellular injury, and oxidative stress. At the animal level, knockdown of BPGM reversed high-fat diet (HFD) induced lipid accumulation and liver tissue injury. Metabolomics studies showed significant changes of metabolic pathways including glycolysis/gluconeogenesis and pyruvate metabolism. Verification experiment showed FFA increased pyruvic acid levels, and knockdown of BPGM decreased pyruvic acid levels. Pyruvic acid further reversed the changes in NAFLD progression caused by BPGM knockdown at the cellular and organoid levels. Finally, HIF-1α regulated the expression of BPGM in NAFLD. Together, our findings suggest that BPGM contributes to abnormal glucose metabolism and promotes hepatic steatosis, thereby driving NAFLD progression.