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The gut microbiome and early-life growth in a population with high prevalence of stunting

Author

Listed:
  • Ruairi C. Robertson

    (Queen Mary University of London
    Microenvironment & Immunity Unit, INSERM U1224, Institut Pasteur)

  • Thaddeus J. Edens

    (Devil’s Staircase Consulting)

  • Lynnea Carr

    (University of British Columbia)

  • Kuda Mutasa

    (Zvitambo Institute for Maternal and Child Health Research)

  • Ethan K. Gough

    (Johns Hopkins Bloomberg School of Public Health)

  • Ceri Evans

    (Queen Mary University of London
    Zvitambo Institute for Maternal and Child Health Research)

  • Hyun Min Geum

    (University of British Columbia)

  • Iman Baharmand

    (University of British Columbia)

  • Sandeep K. Gill

    (University of British Columbia)

  • Robert Ntozini

    (Zvitambo Institute for Maternal and Child Health Research)

  • Laura E. Smith

    (Zvitambo Institute for Maternal and Child Health Research
    Cornell University)

  • Bernard Chasekwa

    (Zvitambo Institute for Maternal and Child Health Research)

  • Florence D. Majo

    (Zvitambo Institute for Maternal and Child Health Research)

  • Naume V. Tavengwa

    (Zvitambo Institute for Maternal and Child Health Research)

  • Batsirai Mutasa

    (Zvitambo Institute for Maternal and Child Health Research)

  • Freddy Francis

    (University of British Columbia)

  • Joice Tome

    (Zvitambo Institute for Maternal and Child Health Research)

  • Rebecca J. Stoltzfus

    (Goshen College, Goshen)

  • Jean H. Humphrey

    (Johns Hopkins Bloomberg School of Public Health)

  • Andrew J. Prendergast

    (Queen Mary University of London
    Zvitambo Institute for Maternal and Child Health Research
    Johns Hopkins Bloomberg School of Public Health)

  • Amee R. Manges

    (University of British Columbia
    British Columbia Centre for Disease Control)

Abstract

Stunting affects one-in-five children globally and is associated with greater infectious morbidity, mortality and neurodevelopmental deficits. Recent evidence suggests that the early-life gut microbiome affects child growth through immune, metabolic and endocrine pathways. Using whole metagenomic sequencing, we map the assembly of the gut microbiome in 335 children from rural Zimbabwe from 1–18 months of age who were enrolled in the Sanitation, Hygiene, Infant Nutrition Efficacy Trial (SHINE; NCT01824940), a randomized trial of improved water, sanitation and hygiene (WASH) and infant and young child feeding (IYCF). Here, we show that the early-life gut microbiome undergoes programmed assembly that is unresponsive to the randomized interventions intended to improve linear growth. However, maternal HIV infection is associated with over-diversification and over-maturity of the early-life gut microbiome in their uninfected children, in addition to reduced abundance of Bifidobacterium species. Using machine learning models (XGBoost), we show that taxonomic microbiome features are poorly predictive of child growth, however functional metagenomic features, particularly B-vitamin and nucleotide biosynthesis pathways, moderately predict both attained linear and ponderal growth and growth velocity. New approaches targeting the gut microbiome in early childhood may complement efforts to combat child undernutrition.

Suggested Citation

  • Ruairi C. Robertson & Thaddeus J. Edens & Lynnea Carr & Kuda Mutasa & Ethan K. Gough & Ceri Evans & Hyun Min Geum & Iman Baharmand & Sandeep K. Gill & Robert Ntozini & Laura E. Smith & Bernard Chasekw, 2023. "The gut microbiome and early-life growth in a population with high prevalence of stunting," Nature Communications, Nature, vol. 14(1), pages 1-15, December.
    • Handle: RePEc:nat:natcom:v:14:y:2023:i:1:d:10.1038_s41467-023-36135-6
    DOI: 10.1038/s41467-023-36135-6
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    1. Fanette Fontaine & Sondra Turjeman & Karel Callens & Omry Koren, 2023. "The intersection of undernutrition, microbiome, and child development in the first years of life," Nature Communications, Nature, vol. 14(1), pages 1-9, December.

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