Chromatin regulator srg3 overexpression protects against lps/d‐galn‐induced sepsis by increasing il10‐producing macrophages and decreasing ifnγ‐producing nk cells in the liver

Abstract

We previously showed that ubiquitous overexpression of the chromatin remodeling factor SWItch3‐related gene (SRG3) promotes M2 macrophage differentiation, resulting in anti‐inflammatory responses in the experimental autoimmune encephalomyelitis model of multiple sclerosis. Since hepatic macrophages are responsible for sepsis‐induced liver injury, we investigated herein the capacity of transgenic SRG3 overexpression (SRG3β‐actin mice) to modulate sepsis in mice exposed to lipopolysaccharide (LPS) plus D‐galactosamine (D‐GalN). Our results demonstrated that ubiquitous SRG3 overexpression significantly protects mice from LPS/D‐GalN‐induced lethality mediated by hepatic M1 macrophages. These protective effects of SRG3 overexpression correlated with the phenotypic conversion of hepatic macrophages from an M1 toward an M2 phenotype. Furthermore, SRG3β‐actin mice had decreased numbers and activation of natural killer (NK) cells but not natural killer T (NKT) cells in the liver during sepsis, indicating that SRG3 overexpression might contribute to cross‐talk between NK cells and macrophages in the liver. Finally, we demonstrated that NKT cell‐deficient CD1d KO/SRG3β‐actin mice are protected from LPS/D‐GalN‐induced sepsis, indicating that NKT cells are dispensable for SRG3‐mediated sepsis suppression. Taken together, our findings provide strong evidence that SRG3 overexpression may serve as a therapeutic approach to control overwhelming inflammatory diseases such as sepsis.