GPR35 prevents drug-induced liver injury via the Gαs-cAMP-PKA axis in macrophages.

Acetaminophen (APAP) overdose induces acute liver injury and represents the most frequent cause of drug-induced liver injury worldwide. Macrophage-mediated inflammation plays detrimental roles during the early stage of liver injury. However, the potential targets regulating inflammation to improve drug-induced liver injury remains undefined. In this study, we reported that G protein-coupled receptor 35 (GPR35) improves drug-induced liver injury by blocking macrophage-mediated inflammation via the Gαs-cyclic AMP-protein kinase A (Gαs-cAMP-PKA) pathway. The ablation of GPR35 exacerbates APAP-induced liver injury, characterized by higher levels of alanine aminotransferase and aspartate aminotransferase in sera, larger damaged areas, and increased levels of pro-inflammatory cytokines. More hepatic macrophages appeared in the inflamed liver of mice with GPR35 deficiency. In contrast, the agonists of GPR35 alleviated APAP-induced liver injury. The depletion of macrophages abolished GPR35-mediated protection. Mechanistically, GPR35 ablation facilitated the activation of pro-inflammatory AKT, MAPK, and NF-κB signaling pathways at the downstream of Toll-like receptors in macrophages. GPR35 agonists activated Gαs-cAMP-PKA signaling to inhibit the activation of these pro-inflammatory signaling pathways and then suppress the inflammatory response in macrophages. Thus, our findings demonstrate that GPR35 prevents drug-induced liver injury by blocking macrophage-mediated inflammation via the Gαs-cAMP-PKA pathway, indicating that GPR35 is a potential target for the development of novel medicines that control drug-induced liver injury.