Hypoxia via ERK Signaling Inhibits Hepatic PPARα to Promote Fatty Liver

Abstract

BACKGROUND & AIMS: Fatty liver or nonalcoholic fatty liver disease (NAFLD) is the most common liver disease associated with comorbidities such as insulin resistance and cardiovascular and metabolic diseases. Chronic activation of hypoxic signaling, in particular, hypoxia-inducible factor (HIF)2α, promotes NAFLD progression by repressing genes involved in fatty acid β-oxidation through unclear mechanisms. Therefore, we assessed the precise mechanism by which HIF2α promotes fatty liver and its physiological relevance in metabolic homeostasis. METHODS: ) and PPARα (Ppara-null) knockout mice that were loaded with fatty acids, murine dietary protocols to induce hepatic steatosis, and fasting-refeeding dietary regimen approaches were used to test our hypothesis. RESULTS: primary hepatocytes. Inhibition of ERK using MEK inhibitor decreased lipid contents in primary hepatocytes from a genetic model of constitutive HIF activation and primary hepatocytes loaded with free fatty acids. Moreover, MEK-ERK inhibition potentiated ligand-dependent activation of PPARα. We also show that MEK-ERK inhibition improved diet-induced hepatic steatosis, which is associated with the induction of PPARα target genes. During fasting, fatty acid β-oxidation is induced by PPARα, and refeeding inhibits β-oxidation. Our data show that ERK is involved in the post-prandial repression of hepatic PPARα signaling. CONCLUSIONS: Overall, our results demonstrate that ERK activated by hypoxia signaling plays a crucial role in fatty acid β-oxidation genes by repressing hepatocyte PPARα signaling.