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Antibiotic-driven intestinal dysbiosis in pediatric short bowel syndrome is associated with persistently altered microbiome functions and gut-derived bloodstream infections

Authors :
Thänert, Robert
Thänert, Anna
Ou, Jocelyn
Bajinting, Adam
Burnham, Carey-Ann D.
Engelstad, Holly J.
Tecos, Maria E.
Ndao, I. Malick
Hall-Moore, Carla
Rouggly-Nickless, Colleen
Carl, Mike A.
Rubin, Deborah C.
Davidson, Nicholas O.
Tarr, Phillip I.
Warner, Barbara B.
Dantas, Gautam
Warner, Brad W.
Source :
Gut Microbes; January 2021, Vol. 13 Issue: 1
Publication Year :
2021

Abstract

ABSTRACTSurgical removal of the intestine, lifesaving in catastrophic gastrointestinal disorders of infancy, can result in a form of intestinal failure known as short bowel syndrome (SBS). Bloodstream infections (BSIs) are a major challenge in pediatric SBS management. BSIs require frequent antibiotic therapy, with ill-defined consequences for the gut microbiome and childhood health. Here, we combine serial stool collection, shotgun metagenomic sequencing, multivariate statistics and genome-resolved strain-tracking in a cohort of 19 patients with surgically-induced SBS to show that antibiotic-driven intestinal dysbiosis in SBS enriches for persistent intestinal colonization with BSI causative pathogens in SBS. Comparing the gut microbiome composition of SBS patients over the first 4 years of life to 19 age-matched term and 18 preterm controls, we find that SBS gut microbiota diversity and composition was persistently altered compared to controls. Commensals including Ruminococcus, Bifidobacterium, Eubacterium, and Clostridiumspecies were depleted in SBS, while pathobionts (Enterococcus) were enriched. Integrating clinical covariates with gut microbiome composition in pediatric SBS, we identified dietary and antibiotic exposures as the main drivers of these alterations. Moreover, antibiotic resistance genes, specifically broad-spectrum efflux pumps, were at a higher abundance in SBS, while putatively beneficial microbiota functions, including amino acid and vitamin biosynthesis, were depleted. Moreover, using strain-tracking we found that the SBS gut microbiome harbors BSI causing pathogens, which can persist intestinally throughout the first years of life. The association between antibiotic-driven gut dysbiosis and enrichment of intestinal pathobionts isolated from BSI suggests that antibiotic treatment may predispose SBS patients to infection. Persistence of pathobionts and depletion of beneficial microbiota and functionalities in SBS highlights the need for microbiota-targeted interventions to prevent infection and facilitate intestinal adaptation.

Details

Language :
English
ISSN :
19490976 and 19490984
Volume :
13
Issue :
1
Database :
Supplemental Index
Journal :
Gut Microbes
Publication Type :
Periodical
Accession number :
ejs58593453
Full Text :
https://doi.org/10.1080/19490976.2021.1940792