Interspecies Competition Impacts Targeted Manipulation of Human Gut Bacteria by Fiber-Derived Glycans

Overview

Journal Cell

Publisher Cell Press

Specialty Cell Biology

Date 2019 Sep 21

PMID 31539500

Citations 138

Authors

Michael L Patnode

Zachary W Beller

Nathan D Han

Jiye Cheng

Samantha L Peters

Nicolas Terrapon

Bernard Henrissat

Sophie Le Gall

Luc Saulnier

David K Hayashi

Alexandra Meynier

Sophie Vinoy

Richard J Giannone

Robert L Hettich

Jeffrey I Gordon

Affiliations

Soon will be listed here.

Abstract

Development of microbiota-directed foods (MDFs) that selectively increase the abundance of beneficial human gut microbes, and their expressed functions, requires knowledge of both the bioactive components of MDFs and the mechanisms underlying microbe-microbe interactions. Here, gnotobiotic mice were colonized with a defined consortium of human-gut-derived bacterial strains and fed different combinations of 34 food-grade fibers added to a representative low-fiber diet consumed in the United States. Bioactive carbohydrates in fiber preparations targeting particular Bacteroides species were identified using community-wide quantitative proteomic analyses of bacterial gene expression coupled with forward genetic screens. Deliberate manipulation of community membership combined with administration of retrievable artificial food particles, consisting of paramagnetic microscopic beads coated with dietary polysaccharides, disclosed the contributions of targeted species to fiber degradation. Our approach, including the use of bead-based biosensors, defines nutrient-harvesting strategies that underlie, as well as alleviate, competition between Bacteroides and control the selectivity of MDF components.

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