Biomarkers of Metabolic Adaptation to High Dietary Fats in a Mouse Model of Obesity Resistance

METABOLITES(2024)

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摘要
Obesity -resistant (non -responder, NR) phenotypes that exhibit reduced susceptibility to developing obesity despite being exposed to high dietary fat are crucial in exploring the metabolic responses that protect against obesity. Although several efforts have been made to study them in mice and humans, the individual protective mechanisms are poorly understood. In this exploratory study, we used a polygenic C57BL/6J mouse model of diet -induced obesity to show that NR mice developed healthier fat/lean body mass ratios (0.43 +/- 0.05) versus the obesity -prone (super -responder, SR) phenotypes (0.69 +/- 0.07, p < 0.0001) by upregulating gene expression networks that promote the accumulation of type 2a, fast -twitch, oxidative muscle tissues. This was achieved in part by a metabolic adaptation in the form of blood glucose sparing, thus aggravating glucose tolerance. Resistance to obesity in NR mice was associated with 4.9 -fold upregulated mitoferrin 1 (Slc25a37), an essential mitochondrial iron importer. SR mice also showed fecal volatile metabolite signatures of enhanced short -chain fatty acid metabolism, including increases in detrimental methyl formate and ethyl propionate, and these effects were reversed in NR mice. Continued research into obesityresistant phenotypes can offer valuable insights into the underlying mechanisms of obesity and metabolic health, potentially leading to more personalized and effective approaches for managing weight and related health issues.
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body composition,metabolic inflexibility,metabolic rate,dietary fats,skeletal muscle remodeling,glucose tolerance,microbiome
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