ZnR/GPR39 regulates hepatic insulin signaling, tunes liver bioenergetics and ROS production, and mitigates liver fibrosis and injury.

Adequate supply of zinc is essential for hepatic function and its deficiency is associated with acute liver injury (ALI) and chronic nonalcoholic fatty liver disease (NAFLD). However, how zinc controls hepatic function is unknown. We found that the zinc sensitive ZnR/GPR39, a mediator of zinc signaling, enhances hepatic phosphorylation of ERK1/2, which is reduced in ZnR/GPR39 deficient livers. Surprisingly, livers from ZnR/GPR39 knockout (KO) mice exhibited elevated insulin receptor expression and downstream AKT activation. Moreover, ZnR/GPR39 KO mice had higher blood fasting glucose level, pronounced hepatic lipid accumulation, increased hepatocyte oxygen consumption rate (OCR) and reactive oxygen species (ROS) levels. These data suggest that ZnR/GPR39 modulates insulin receptor signaling, a major pathway in hepatic metabolism. Associated with the impaired signaling, ZnR/GPR39 KO livers exhibited increased tissue fibrosis, manifested by marked elevation of collagen expression, compared to wildtype (WT). Additionally, we found alteration of hepatocyte junctional proteins that was accompanied by increased macrophage infiltration and higher liver inflammation in ZnR/GPR39 KO mice. To determine the role of ZnR/GPR39 in ALI, we applied a mild LPS challenge that induced profound decrease in hepatic OCR, also leading to higher ROS generation in ZnR/GPR39 KO hepatocytes, but not in WT. We further found increased serum IL-2 and AST/ALT ratio only in ZnR/GPR39 KO mice. Our findings reveal a role of ZnR/GPR39 in controlling hepatic insulin receptor signaling and mitigating liver fibrosis and inflammation, thus underscoring the important role of ZnR/GPR39 in liver signaling and function.