Interactions Between Gut Microbiome, Genetic Risk, and Obesity: Insights into Metabolic Pathways and Host-Microbe Dynamics
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Background
Obesity is a multifactorial metabolic disorder driven by genetic predisposition and gut microbiome composition, influencing key metabolic pathways through the gut-brain axis, gut-liver interactions, immune modulation, and insulin resistance. This study integrates gut microbiome and genetic data to uncover microbial and genetic signatures linked to obesity across these metabolic dimensions.
Methods
We analyzed gut microbiome composition and polygenic risk scores (PGS) for BMI in a cohort of 3,319 individuals, with genetic data available for 2,883 participants. Regression analyses were performed to identify bacterial taxa and microbial metabolic pathways associated with baseline BMI. Interaction analyses assessed how genetic predisposition modifies microbiome associations with BMI. A subset of individuals (n = 180) with longitudinal microbiome data was analyzed to examine microbial changes associated with BMI reduction.
Results
Several bacterial taxa, including Oscillospiraceae, Faecalibacterium , and Christensenellaceae, were inversely associated with BMI, while Lachnoclostridium and Dorea exhibited positive associations. Microbial pathways related to neurotransmitter metabolism, amino acid degradation, and short-chain fatty acid synthesis were significantly associated with BMI, highlighting their potential role in obesity. Interaction analyses revealed that BMI-PGS attenuated the association of butyrate synthesis and tryptophan degradation with BMI, while Faecalibacterium exhibited a stronger association in individuals with high genetic risk. Longitudinal analysis showed that shifts in microbial composition accompanied BMI reduction, particularly increases in Christensenellaceae and reductions in Dorea .
Conclusion
The gut microbiome is intricately linked to obesity through its modulation of metabolic pathways across the gut-brain axis, gut-liver axis, inflammation, and insulin resistance. Genetic predisposition further modifies these relationships, emphasizing the need for personalized approaches in microbiome-based obesity interventions.
