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Specific gut microbiome signatures and the associated pro-inflamatory functions are linked to pediatric allergy and acquisition of immune tolerance

Author

Listed:
  • Francesca De Filippis

    (University of Naples Federico II
    University of Naples Federico II)

  • Lorella Paparo

    (University of Naples Federico II
    University of Naples Federico II)

  • Rita Nocerino

    (University of Naples Federico II
    University of Naples Federico II)

  • Giusy Della Gatta

    (University of Naples Federico II
    University of Naples Federico II)

  • Laura Carucci

    (University of Naples Federico II
    University of Naples Federico II)

  • Roberto Russo

    (University of Naples Federico II)

  • Edoardo Pasolli

    (University of Naples Federico II
    University of Naples Federico II)

  • Danilo Ercolini

    (University of Naples Federico II
    University of Naples Federico II)

  • Roberto Berni Canani

    (University of Naples Federico II
    University of Naples Federico II
    University of Naples Federico II
    University of Naples Federico II)

Abstract

Understanding the functional potential of the gut microbiome is of primary importance for the design of innovative strategies for allergy treatment and prevention. Here we report the gut microbiome features of 90 children affected by food (FA) or respiratory (RA) allergies and 30 age-matched, healthy controls (CT). We identify specific microbial signatures in the gut microbiome of allergic children, such as higher abundance of Ruminococcus gnavus and Faecalibacterium prausnitzii, and a depletion of Bifidobacterium longum, Bacteroides dorei, B. vulgatus and fiber-degrading taxa. The metagenome of allergic children shows a pro-inflammatory potential, with an enrichment of genes involved in the production of bacterial lipo-polysaccharides and urease. We demonstrate that specific gut microbiome signatures at baseline can be predictable of immune tolerance acquisition. Finally, a strain-level selection occurring in the gut microbiome of allergic subjects is identified. R. gnavus strains enriched in FA and RA showed lower ability to degrade fiber, and genes involved in the production of a pro-inflammatory polysaccharide. We demonstrate that a gut microbiome dysbiosis occurs in allergic children, with R. gnavus emerging as a main player in pediatric allergy. These findings may open new strategies in the development of innovative preventive and therapeutic approaches. Trial: NCT04750980.

Suggested Citation

  • Francesca De Filippis & Lorella Paparo & Rita Nocerino & Giusy Della Gatta & Laura Carucci & Roberto Russo & Edoardo Pasolli & Danilo Ercolini & Roberto Berni Canani, 2021. "Specific gut microbiome signatures and the associated pro-inflamatory functions are linked to pediatric allergy and acquisition of immune tolerance," Nature Communications, Nature, vol. 12(1), pages 1-11, December.
    • Handle: RePEc:nat:natcom:v:12:y:2021:i:1:d:10.1038_s41467-021-26266-z
    DOI: 10.1038/s41467-021-26266-z
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    References listed on IDEAS

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    1. Edoardo Pasolli & Duy Tin Truong & Faizan Malik & Levi Waldron & Nicola Segata, 2016. "Machine Learning Meta-analysis of Large Metagenomic Datasets: Tools and Biological Insights," PLOS Computational Biology, Public Library of Science, vol. 12(7), pages 1-26, July.
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    1. Courtney Hoskinson & Darlene L. Y. Dai & Kate L. Bel & Allan B. Becker & Theo J. Moraes & Piushkumar J. Mandhane & B. Brett Finlay & Elinor Simons & Anita L. Kozyrskyj & Meghan B. Azad & Padmaja Subba, 2023. "Delayed gut microbiota maturation in the first year of life is a hallmark of pediatric allergic disease," Nature Communications, Nature, vol. 14(1), pages 1-14, December.

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