Σφακιανάκης Αλέξανδρος
ΩτοΡινοΛαρυγγολόγος
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Δευτέρα 11 Δεκεμβρίου 2017

Associations between infant fungal and bacterial dysbiosis and childhood atopic wheeze in a nonindustrialized setting

Publication date: Available online 11 December 2017
Source:Journal of Allergy and Clinical Immunology
Author(s): Marie-Claire Arrieta, Andrea Arévalo, Leah Stiemsma, Pedro Dimitriu, Martha E. Chico, Sofia Loor, Maritza Vaca, Rozlyn C.T. Boutin, Evan Morien, Mingliang Jin, Stuart E. Turvey, Jens Walter, Laura Wegener Parfrey, Philip J. Cooper, Brett Finlay
BackgroundAsthma is the most prevalent chronic disease of childhood. Recently, we identified a critical window early in the life of both mice and Canadian infants during which gut microbial changes (dysbiosis) affect asthma development. Given geographic differences in human gut microbiota worldwide, we studied the effects of gut microbial dysbiosis on atopic wheeze in a population living in a distinct developing world environment.ObjectiveWe sought to determine whether microbial alterations in early infancy are associated with the development of atopic wheeze in a nonindustrialized setting.MethodsWe conducted a case-control study nested within a birth cohort from rural Ecuador in which we identified 27 children with atopic wheeze and 70 healthy control subjects at 5 years of age. We analyzed bacterial and eukaryotic gut microbiota in stool samples collected at 3 months of age using 16S and 18S sequencing. Bacterial metagenomes were predicted from 16S rRNA data by using Phylogenetic Investigation of Communities by Reconstruction of Unobserved States and categorized by function with Kyoto Encyclopedia of Genes and Genomes ontology. Concentrations of fecal short-chain fatty acids were determined by using gas chromatography.ResultsAs previously observed in Canadian infants, microbial dysbiosis at 3 months of age was associated with later development of atopic wheeze. However, the dysbiosis in Ecuadorian babies involved different bacterial taxa, was more pronounced, and also involved several fungal taxa. Predicted metagenomic analysis emphasized significant dysbiosis-associated differences in genes involved in carbohydrate and taurine metabolism. Levels of the fecal short-chain fatty acids acetate and caproate were reduced and increased, respectively, in the 3-month stool samples of children who went on to have atopic wheeze.ConclusionsOur findings support the importance of fungal and bacterial microbiota during the first 100 days of life on the development of atopic wheeze and provide additional support for considering modulation of the gut microbiome as a primary asthma prevention strategy.

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