Single‐cell transcriptome analysis of aging mouse liver

Abstract Aging has a great impact on the liver, which causes a loss of physiological integrity and an increase in susceptibility to injury, but many of the underlying molecular and cellular processes remain unclear. Here, we performed a comprehensive single‐cell transcriptional profiling of the liver during aging. Our data showed that aging affected the cellular composition of the liver. The increase in inflammatory cells including neutrophils and monocyte‐derived macrophages, as well as in inflammatory cytokines, could indicate an inflammatory tissue microenvironment in aged livers. Moreover, aging drove a distinct transcriptional course in each cell type. The commonly significant up‐regulated genes were S100a8 , S100a9, and RNA‐binding motif protein 3 across all cell types. Aging‐related pathways such as biosynthesis, metabolism, and oxidative stress were up‐regulated in aged livers. Additionally, key ligand–receptor pairs for intercellular communication, primarily linked to macrophage migration inhibitory factor, transforming growth factor‐β, and complement signaling, were also elevated. Furthermore, hepatic stellate cells (HSCs) serve as the prominent hub for intrahepatic signaling. HSCs acquired an “activated” phenotype, which may be involved in the increased intrahepatic vascular tone and fibrosis with aging. Liver sinusoidal endothelial cells derived from aged livers were pseudocapillarized and procontractile, and exhibited down‐regulation of genes involved in vascular development and homeostasis. Moreover, the aging‐related changes in cellular composition and gene expression were reversed by caloric restriction. Collectively, the present study suggests liver aging is linked to a significant liver sinusoidal deregulation and a moderate pro‐inflammatory state, providing a potential concept for understanding the mechanism of liver aging.