Taurine ameliorates liver fibrosis by repressing Fpr2-regulated macrophage M1 polarization

Liver fibrosis is a reversible pathophysiological condition characterized by excessive extracellular matrix deposition that can progress to cirrhosis and liver failure if left untreated. Taurine, a sulfur-containing amino acid, protects the liver from damage. However, the effects of taurine on liver fibrogenesis have not been completely elucidated. In this study, we used amino acid metabolomics, gene expression microanalysis, and single-cell RNA Sequencing (scRNA-seq) to investigate the roles of taurine, formyl peptide receptor 2 (Fpr2), and proinflammatory macrophages in liver fibrosis in human fibrotic sections and two distinct mouse models of liver fibrosis. Taurine transporter SLC6A6 wild-type and knockout littermate models and critical element inhibitors were also used. We found that taurine levels were significantly reduced in both human and murine fibrotic sections and that exogenous taurine supplementation alleviated fibrosis via SLC6A6. Furthermore, gene expression microarray analysis and scRNA-seq analyses demonstrated that exogenous taurine mitigated liver fibrosis, mainly by regulating Fpr2-related macrophage status. WRW4-mediated inhibition of Fpr2 ameliorated M1 macrophage polarization and alleviated liver fibrosis. Additionally, exogenous taurine suppressed Fpr2-modulated macrophage M1 polarization and the production of associated proinflammatory cytokines by repressing NF-κBp65 phosphorylation; moreover, SLC6A6 deficiency or treatment of liver fibrosis mouse models with an NF-κB Inhibitor, BAY, impaired this protective effect of taurine. Therefore, taurine exerts a protective effect against liver fibrosis by repressing Fpr2/NF-κBp65-regulated macrophage M1 polarization, highlighting its potential therapeutic agent.

Fpr2; Liver fibrosis; Macrophage; SLC6A6; Taurine.