OpenLB
Open Library of Bioscience

Obesity induction in mice requires high-fat diet exposure. Although hepatic steatosis develops, progression to inflammation and fibrosis, as in humans, requires prolonged exposure and additional dietary factors. Immunosuppression at room temperature may slow this progression. We evaluated thermoneutrality's effect on metabolic dysfunction-associated steatohepatitis (MASH) development using a fibrosis-inducing MASH [Gubra-Amylin NASH (GAN)] diet. Mice were fed either a MASH or chow diet and housed at room temperature or thermoneutrality. MASH diet groups were euthanized monthly from 4 to 7 mo. Serum markers of hepatic function were analyzed, and liver histology assessed steatosis, inflammation, ballooning [nonalcoholic fatty liver disease activity score (NAS) score], and fibrosis via Picrosirius Red staining. MASH diet increased body weight, liver-to-body mass ratio, and hepatic fat, with no difference between housing conditions. Housing temperature had minimal effects on MASH. Serum markers and hepatic fibrosis were similar across groups. NAS score was lower at 4 mo in thermoneutral MASH mice but not by 7 mo. Thermoneutrality did not significantly impact MASH development. These findings, alongside existing literature, suggest thermoneutral housing does not consistently enhance MASH progression in GAN MASH-fed mice. The development of MASH in mice-does housing temperature make a real difference?