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Precocious infant fecal microbiome promotes enterocyte barrier dysfuction, altered neuroendocrine signaling and associates with increased childhood obesity risk

Germaine Yong, Cara E. Porsche, Alexandra R. Sitarik, Kei E. Fujimura, Kathryn McCauley, Dat Nguyen, Albert M. Levin, Kimberley J. Woodcroft, Dennis R. Ownby, Andrew Rundle, Christine Cole Johnson, Andrea E. Cassidy‐Bushrow, Susan V. Lynch

2023Gut Microbes12 citationsDOIOpen Access PDF

Abstract

Early life gut microbiome composition has been correlated with childhood obesity, though microbial functional contributions to disease origins remain unclear. Here, using an infant birth cohort (n = 349) we identify a distinct fecal microbiota composition in 1-month-old infants with the lowest rate of exclusive breastfeeding, that relates with higher relative risk for obesity and overweight phenotypes at two years. Higher-risk infant fecal microbiomes exhibited accelerated taxonomic and functional maturation and broad-ranging metabolic reprogramming, including reduced concentrations of neuro-endocrine signals. In vitro, exposure of enterocytes to fecal extracts from higher-risk infants led to upregulation of genes associated with obesity and with expansion of nutrient sensing enteroendocrine progenitor cells. Fecal extracts from higher-risk infants also promoted enterocyte barrier dysfunction. These data implicate dysregulation of infant microbiome functional development, and more specifically promotion of enteroendocrine signaling and epithelial barrier impairment in the early-life developmental origins of childhood obesity.

Topics & Concepts

BiologyMicrobiomeGut floraObesityEnterocyteFecesEnteroendocrine cellEndocrine systemPhysiologyEndocrinologyBioinformaticsImmunologyHormoneMicrobiologySmall intestineGut microbiota and healthInfant Health and DevelopmentDiet and metabolism studies
Precocious infant fecal microbiome promotes enterocyte barrier dysfuction, altered neuroendocrine signaling and associates with increased childhood obesity risk | Litcius