The relationship between the early-life gastrointestinal microbiome and childhood nocturnal cough

Authors

Amy A. Eapen, Henry Ford HealthFollow
Tengfei Ma, Henry Ford HealthFollow
Alexandra R. Sitarik, Henry Ford HealthFollow
Ze Meng, Henry Ford HealthFollow
Dennis R. Ownby
Andrea E. Cassidy-Bushrow, Henry Ford HealthFollow
Ganesa Wegienka, Henry Ford HealthFollow
Edward M. Zoratti, Henry Ford HealthFollow
Susan V. Lynch, Henry Ford HealthFollow
Christine C. Johnson, Henry Ford HealthFollow
Albert M. Levin, Henry Ford HealthFollow

Recommended Citation

Eapen AA, Ma T, Sitarik AR, Meng Z, Ownby DR, Cassidy-Bushrow AE, Wegeinka G, Zoratti EM, Lynch SV, Johnson CC, and Levin AM. The relationship between the early-life gastrointestinal microbiome and childhood nocturnal cough. J Allergy Clin Immunol 2025.

Document Type

Article

Publication Date

1-13-2025

Publication Title

The Journal of allergy and clinical immunology

Abstract

BACKGROUND: Nocturnal cough affects approximately 1 in 3 children, can negatively affect child health, and is often attributable to asthma. The association of the gut microbiome with nocturnal cough has not been investigated.

OBJECTIVE: We investigated the association between early-life gut microbiome composition and nocturnal cough overall and in the context of asthma.

METHODS: Gut microbiota 1-month (neonate) and 6-month (infant) specimens from 512 children in the Wayne County, Health, Environment, Allergy, and Asthma Longitudinal Study were profiled using 16S ribosomal RNA V4 sequencing. Nocturnal cough (parental report) and asthma (parent-reported doctor's diagnosis) were assessed at age 4 years. Microbiome regression-based kernel association tests (MiRKAT) were used to assess the relationship between gut microbiota composition and nocturnal cough overall and in the context of asthma. Operational taxonomic unit (OTU) associations were conducted using negative binomial regression, adjusting for multiple comparisons using the false discovery rate.

RESULTS: Stool microbial composition differences during infancy were associated with nocturnal cough (weighted UniFrac P = .045); 78 OTUs were significantly associated with nocturnal cough overall (false discovery rate < 0.05); and 110 OTUs were significantly associated with nocturnal cough and differed by asthma status (interaction false discovery rate < 0.05), with a predominance of Lachnospiraceae genera Blautia and Dorea. Thirty-two OTU were identified as having both overall effects and differences by asthma status. Among OTUs with significant nocturnal cough-by-asthma interactions, 84 retained significance in children with asthma, with 45 exclusive to those with asthma (predominance of Bacteroidaceae genus Bacteroides and Lachnospiraceae genus Dorea).

CONCLUSION: Infantile gut microbiome development is associated with nocturnal cough and differed by asthma status by age 4 years. Further studies are needed to determine if the gut microbiome may provide additional information for the early identification of children at risk for nocturnal cough, with and without asthma.

PubMed ID

39814146

ePublication

ePub ahead of print