AI Article Synopsis
- The study explores how different diets affect weight and metabolism in genetically diverse mouse strains, highlighting that individual genetic makeups influence these responses.
- Mice were subjected to various humanized diets (American, Mediterranean, vegetarian, and vegan), revealing significant variations in body weight, triglyceride, and insulin levels based on both diet and genetic strain.
- Specifically, around 400 genes related to metabolism responded differently to diets in various strains, suggesting that while genetics strongly influences metabolism, dietary choices also play a crucial role, paving the way for research into personalized nutrition for humans.
Article Abstract
In humans, dietary patterns impact weight and metabolism differentially across individuals. To uncover genetic determinants for differential dietary effects, we subjected four genetically diverse mouse strains to humanized diets (American, Mediterranean, vegetarian, and vegan) with similar macronutrient composition, and performed body weight, metabolic parameter, and RNA-seq analysis. We observed pronounced diet- and strain-dependent effects on weight, and triglyceride and insulin levels. Differences in fat mass, adipose tissue, and skeletal muscle glucose uptake, and gene expression changes in most tissues were strain-dependent. In visceral adipose tissue, ∼400 genes responded to diet in a strain-dependent manner, many of them in metabolite transport and lipid metabolism pathways and several previously identified to modify diet effects in humans. Thus, genetic background profoundly impacts metabolism, though chosen dietary patterns modify the strong genetic effects. This study paves the way for future mechanistic investigations into strain-diet interactions in mice and translation to precision nutrition in humans.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11617257 | PMC |
| http://dx.doi.org/10.1016/j.isci.2024.111323 | DOI Listing |
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