Low protein diet protects liver function upon Salmonella infection by metabolic reprogramming of macrophages

Abstract

ABSTRACTBackground & AimsWestern diets are the underlying cause of metabolic and liver diseases. Recent trend to limit the consumption of protein-rich animal products has become more prominent. This dietary change entails decreased protein consumption; however, it is still unknown how this affects innate immunity. Here, we studied the influence of a low protein diet (LPD) on the liver response to bacterial infection.MethodsMice were fed a LPD and exposed toSalmonella entericaserotype Typhimurium infection. Mechanistic studies were donein vitrowhere bone marrow derived macrophages were cultured in a low-aa media to mimicin vivoreduction of protein availability and challenged with bacterial endotoxin.ResultsWe found that a LPD protects fromSTyphimurium-induced liver damage. Bulk- and 10xsingle cell-RNA sequencing of liver tissues and isolated immune cells showed reduced activation of myeloid cells in mice fed with LPD afterSTyphimurium infection. Mechanistically, we found reduced activation of the mammalian target of rapamycin (mTOR) pathway whilst increased phagocytosis and activation of autophagy in LPD-programmed macrophages. Dietary restoration of leucine reverted the protective effects of a LPD and restored the damaging effects of Salmonella on liver parenchyma in mice.ConclusionsLow protein diet protects the liver formSTyphimurium-induced tissue damage via modulating macrophage autophagy and phagocytosis. Our result support the causal role of dietary components on the fitness of the immune system.SYNOPSISLow protein diet protects the liver from Salmonella-mediated liver injury that associates with reduced mTOR activation and increased autophagy in macrophages. Restoration of the mTOR pathway with aminoacid supplementation reverses the protection of a low protein diet from Salmonella-liver damage.