Protection against diet-induced obesity by a single-point mutation in Kir2.1 channels

High-fat diet (HFD)-induced obesity remains a significant global health challenge. In this study, we show that a global knock-in CRISPR mouse with the Kir2.1 ^L222I single-point mutation exhibits remarkable resistance to HFD-induced obesity. We identify palmitic acid (PA), a prevalent long-chain fatty acid in obesity, as a novel negative regulator of Kir2.1. Kir2.1 ^L222I previously shown to protect against cholesterol-mediated inhibition of Kir2.1, also confers protection against PA-induced suppression. Moreover, PA-induced suppression of Kir2.1 results in a significant loss of flow-induced vasodilation (FIV), while the L222I mutation exerts a protective effect. Notably, Kir2.1 ^L222I mice display significant protection against HFD-induced weight gain and adiposity independent of caloric intake. Specifically, the mutant mice show increased lean mass and decreased fat mass, specifically in both visceral and subcutaneous white adipose tissue (WAT) and intrascapular brown adipose tissue (BAT). Importantly, visceral-to-subcutaneous white adipose ratios decrease while BAT/WAT tissue ratios increase, suggesting a metabolically favorable fat distribution. This protection correlates with enhanced physical activity and increased energy expenditure. Metabolomic analysis reveals elevated TCA cycle metabolites in adipose tissue of Kir2.1 ^L222I mice, consistent with their enhanced energy expenditure. These findings highlight Kir2.1 channels as potential therapeutic targets for obesity and related metabolic disorders.