High-fat diet (HFD) consumption contributes to obesity and liver damage, while exercise training may counteract these effects. Given the regulatory role of microRNAs in lipid metabolism, this study in Show more
High-fat diet (HFD) consumption contributes to obesity and liver damage, while exercise training may counteract these effects. Given the regulatory role of microRNAs in lipid metabolism, this study investigates the impact of high-intensity interval training (HIIT) and HFD on hepatic fat accumulation, as well as the expression of miRNA-34a, miRNA-467b, and their associated proteins. Twenty-four male rats were randomly assigned to four groups: (1) CON, (2) HIIT, (3) HFD, and (4) HIIT+HFD. The HFD groups received a 60% fat diet, while the rats in the HIIT groups performed high-intensity interval training (3 sessions/week, 2.5 minutes high-intensity running × 90% maximal running capacity (MRC) with 2.5 minutes active rest × 50% MRC, for ten weeks). Forty-eight hours post-intervention, blood and liver samples were collected to assess histopathology, liver enzymes, and the expression of miRNA-34a, miRNA-467b, SIRT1, PPAR-ɑ, and LPL proteins. The HFD group exhibited excessive hepatic lipid accumulation, whereas HIIT significantly prevented HFD-induced hepatic steatosis, as confirmed by histopathological examinations. Liver enzyme levels (AST, ALT, and ALP) were significantly higher in the HFD group and significantly lower in both the HIIT and HIIT+HFD groups. Additionally, HIIT significantly increased miRNA-467b, SIRT1, and PPAR-ɑ expression while significantly decreasing miRNA-34a and LPL expression, preventing the effects of HFD. Our findings identified a novel molecular mechanism confirming that HIIT is beneficial to prevent hepatic steatosis and hepatic damage induced by HFD, likely due to the modulation of miRNA-467b, miRNA-34a, and their main target proteins. Show less