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Microbial intestinal dysbiosis drives long-term allergic susceptibility by sculpting an ILC2–B1 cell–innate IgE axis

Ahmed Kabil, Natalia Nayyar, Julyanne Brassard, Yicong Li, Sameeksha Chopra, Michael R. Hughes, Kelly M. McNagny

2024Journal of Allergy and Clinical Immunology23 citationsDOIOpen Access PDF

Abstract

BACKGROUND: The abundance and diversity of intestinal commensal bacteria influence systemic immunity with impact on disease susceptibility and severity. For example, loss of short chain fatty acid (SCFA)-fermenting bacteria in early life (humans and mice) is associated with enhanced type 2 immune responses in peripheral tissues including the lung. OBJECTIVE: Our goal was to reveal the microbiome-dependent cellular and molecular mechanisms driving enhanced susceptibility to type 2 allergic lung disease. METHODS: We used low-dose vancomycin to selectively deplete SCFA-fermenting bacteria in wild-type mice. We then examined the frequency and activation status of innate and adaptive immune cell lineages with and without SCFA supplementation. Finally, we used ILC2-deficient and signal transducer and activator of transcription 6 (STAT6)-deficient transgenic mouse strains to delineate the cellular and cytokine pathways leading to enhanced allergic disease susceptibility. RESULTS: Mice with vancomycin-induced dysbiosis exhibited a 2-fold increase in lung ILC2 primed to produce elevated levels of IL-2, -5, and -13. In addition, upon IL-33 inhalation, mouse lung ILC2 displayed a novel ability to produce high levels of IL-4. These expanded and primed ILC2s drove B1 cell expansion and IL-4-dependent production of IgE that in turn led to exacerbated allergic inflammation. Importantly, these enhanced lung inflammatory phenotypes in mice with vancomycin-induced dysbiosis were reversed by administration of dietary SCFA (specifically butyrate). CONCLUSION: SCFAs regulate an ILC2-B1 cell-IgE axis. Early-life administration of vancomycin, an antibiotic known to deplete SCFA-fermenting gut bacteria, primes and amplifies this axis and leads to lifelong enhanced susceptibility to type 2 allergic lung disease.

Topics & Concepts

DysbiosisInnate immune systemImmune systemImmunologyImmunityBiologyBacteriaMicrobiologyImmunoglobulin EInnate lymphoid cellShort-chain fatty acidLungGut floraMedicineFermentationButyrateAntibodyFood scienceInternal medicineGeneticsIL-33, ST2, and ILC PathwaysPediatric health and respiratory diseasesGut microbiota and health
Microbial intestinal dysbiosis drives long-term allergic susceptibility by sculpting an ILC2–B1 cell–innate IgE axis | Litcius