Abstract
Metabolic dysfunction-associated steatohepatitis (MASH) is characterized by insulin resistance and impaired hepatic metabolism, which lead to steatosis and lipotoxicity. S100A11, an alarmin upregulated in MASH, promotes steatosis in vitro, but its role in vivo remains unclear. We hypothesized that S100A11 drives MASH by upregulating hepatic lipid synthesis. Using whole-body S100a11 knockout (S100a11 (-/-) ) mice on a MASH-inducing diet, we found S100a11 deficiency reduced steatosis, inflammation, and fibrosis. Hepatotropic AAV8-mediated silencing of S100a11 confirmed these findings. Bulk RNA sequencing with Ingenuity Pathway Analysis revealed dysregulated carbohydrate and lipid metabolism in S100a11 (-/-) livers, including downregulation of hexokinase 2 (Hk2). Since hexokinases regulate glucose flux into downstream metabolic processes, we overexpressed HK2 in S100a11 (-/-) mice, which was sufficient to increase steatosis. Further, palmitate-induced HK2 upregulation required S100A11 in a human hepatocyte cell line. These studies identify HK2 as a downstream target of S100A11, both of which are potential therapeutic targets for MASH.