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Infant gut microbiota and SCFAs mediate the association between early-life human milk microbiota and neurodevelopment

Simou Wu, Wen Jia, Jinxing Li, Yating Luo, Fei Chen, Ting Yang, Xia Jiang, Fang He, Ruyue Cheng

2025npj Biofilms and Microbiomes6 citationsDOIOpen Access PDF

Abstract

Human milk microbiota (HMM) plays a key role in infant gut microbiota (IGM) establishment, however, the influence of the early life HMM in later neurodevelopment remains unclear. In this mother-infant cohort, we investigated HMM development and its impact on IGM-neurodevelopment crosstalk. Breast milk and infant feces were collected on days 0, 7, and 30 for sequencing and SCFAs quantification, while neurodevelopment was assessed via ASQ-3 at 12 months. HMM remained stable during the first month, while IGM fluctuated significantly within the first 7 days. Songbird and mediation analyses revealed strengthening associations between HMM, IGM, and neurodevelopment over time. IGM served as a key mediator linking HMM to neurodevelopment, with SCFAs playing a mediating role in the connection between IGM and neurodevelopment on day 30. Our findings suggest that early-life stable and unique HMM may influence long-term neurodevelopment by dynamically modulating IGM and SCFAs, highlighting a potential strategy to prevent neurodysplasia by monitoring mother-infant microecology.

Topics & Concepts

Gut floraBiologyGut–brain axisAssociation (psychology)MicrobiologyImmunologyPsychologyPsychotherapistGut microbiota and healthPediatric health and respiratory diseasesInfant Health and Development
Infant gut microbiota and SCFAs mediate the association between early-life human milk microbiota and neurodevelopment | Litcius