<p>India’s escalating burden of obesity and metabolic disease is characterized by a distinctive “thin–fat” phenotype, in which individuals with normal or near-normal body mass index exhibit disproportionate visceral adiposity, reduced skeletal muscle mass, and heightened susceptibility to insulin resistance. Conventional obesity models centered primarily on caloric imbalance fail to adequately explain this pattern, underscoring the need for a more integrative pathophysiological framework. Emerging evidence implicates gut microbiome dysbiosis, impaired fermentation of dietary fibers, reduced short-chain fatty acid (SCFA) signaling, altered bile acid metabolism, metabolic endotoxemia, and dysregulated adipose tissue crosstalk as key contributors to metabolic vulnerability in South Asian populations. This commentary synthesizes mechanistic insights into the gut–metabolic axis and examines their relevance to India’s phenotype-specific challenges. Key pathways, including SCFA-mediated incretin secretion, Toll-like receptor&#xa0;4 (TLR4)-driven inflammatory signaling, angiopoietin-like protein&#xa0;4 (ANGPTL4)-mediated lipid partitioning, and microbiota-dependent bile acid biotransformation, are discussed as interconnected drivers of metabolic dysfunction. Emerging clinical evidence from randomized controlled trials evaluating synbiotic and prebiotic–botanical formulations is also discussed, highlighting their potential benefits as adjuncts to lifestyle modification. Given India’s dietary patterns and widespread deficiency of fermentable fiber intake, synbiotics may represent a scalable and biologically coherent strategy to support metabolic health. However, heterogeneity of formulations, interindividual microbiome variability, and limited long-term outcome data necessitate cautious interpretation. Advancing precision microbiome-targeted interventions will require population-specific research, multi-omics integration, and rigorous clinical evaluation.</p>

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Reconsidering Obesity in India Through a Gut–Metabolic Lens: Mechanistic Insights and the Emerging Role of Synbiotics in Individuals with the Thin–Fat Phenotype

  • Nirmal Kumar Ganguly,
  • Sanjay Kalra,
  • Nitin Kapoor,
  • Pariksha Rao,
  • Manorama Bakshi

摘要

India’s escalating burden of obesity and metabolic disease is characterized by a distinctive “thin–fat” phenotype, in which individuals with normal or near-normal body mass index exhibit disproportionate visceral adiposity, reduced skeletal muscle mass, and heightened susceptibility to insulin resistance. Conventional obesity models centered primarily on caloric imbalance fail to adequately explain this pattern, underscoring the need for a more integrative pathophysiological framework. Emerging evidence implicates gut microbiome dysbiosis, impaired fermentation of dietary fibers, reduced short-chain fatty acid (SCFA) signaling, altered bile acid metabolism, metabolic endotoxemia, and dysregulated adipose tissue crosstalk as key contributors to metabolic vulnerability in South Asian populations. This commentary synthesizes mechanistic insights into the gut–metabolic axis and examines their relevance to India’s phenotype-specific challenges. Key pathways, including SCFA-mediated incretin secretion, Toll-like receptor 4 (TLR4)-driven inflammatory signaling, angiopoietin-like protein 4 (ANGPTL4)-mediated lipid partitioning, and microbiota-dependent bile acid biotransformation, are discussed as interconnected drivers of metabolic dysfunction. Emerging clinical evidence from randomized controlled trials evaluating synbiotic and prebiotic–botanical formulations is also discussed, highlighting their potential benefits as adjuncts to lifestyle modification. Given India’s dietary patterns and widespread deficiency of fermentable fiber intake, synbiotics may represent a scalable and biologically coherent strategy to support metabolic health. However, heterogeneity of formulations, interindividual microbiome variability, and limited long-term outcome data necessitate cautious interpretation. Advancing precision microbiome-targeted interventions will require population-specific research, multi-omics integration, and rigorous clinical evaluation.