4.7 Article

Metagenomic analysis of mother-infant gut microbiome reveals global distinct and shared microbial signatures

Journal

GUT MICROBES
Volume 13, Issue 1, Pages -

Publisher

TAYLOR & FRANCIS INC
DOI: 10.1080/19490976.2021.1911571

Keywords

Mother; infant; neonate; metagenomics; microbiome; gut; vertical transmission; prediction

Funding

  1. Science Foundation Ireland [SFI/12/RC/2273]
  2. Dupont Nutrition Biosciences

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The study analyzed 376 mother-infant dyads and found that maternal gut microbiota has higher diversity at species and strain levels, with many shared species showing more metabolic functions in mother-sourced species. Predictive models showed moderate performance accuracy for shared species and strains occurrences in infants.
Emerging evidence indicates maternal microbiota as one major reservoir for pioneering microbes in infants. However, the global distinct and identical features of mother-infant gut microbiota at various taxonomic resolutions and metabolic functions across cohorts and potential of infant microbial prediction based on their paired mother's gut microbiota remain unclear. Here, we analyzed 376 mother-infant dyads (468 mother and 1024 infant samples) of eight studies from six countries and observed higher diversity at species and strain levels in maternal gut microbiota but not their metabolic functions. A number of 290 species were shared in at least one mother-infant dyad, with 26 species (five at strain level) observed across cohorts. The profile of mother-infant shared species and strains was further influenced by delivery mode and feeding regimen. The mother-sourced species in infants exhibited similar strain heterogeneity but more metabolic functions compared to other-sourced species, suggesting the comparable stability and fitness of shared and non-shared species and the potential role of shared species in the early gut microbial community, respectively. Predictive models showed moderate performance accuracy for shared species and strains occurrences in infants. These generalized mother-infant shared species and strains may be considered as the primary targets for future work toward infant microbiome development and probiotics exploration.

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