Aaron G. Wexler scite author profile

Over the last decade, our appreciation for the contribution of resident gut microorganisms—the gut microbiota—to human health has surged. However, progress is limited by the sheer diversity and complexity of these microbial communities. Compounding the challenge, the majority of our commensal microorganisms are not close relatives of Escherichia coli or other model organisms and have eluded culturing and manipulation in the laboratory. In this Review, we discuss how over a century of study of the readily cultured, genetically tractable human gut Bacteroides has revealed important insights into the biochemistry, genomics and ecology that make a gut bacterium a gut bacterium. While genome and metagenome sequences are being produced at breakneck speed, the Bacteroides provide a significant ‘jump-start’ on uncovering the guiding principles that govern microbiota–host and inter-bacterial associations in the gut that will probably extend to many other members of this ecosystem.

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A Type VI Secretion-Related Pathway in Bacteroidetes Mediates Interbacterial Antagonism

Russell

Wexler

Harding

et al. 2014

Cell Host & Microbe

295

292

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Summary Bacteroidetes are a phylum of Gram-negative bacteria abundant in mammalian-associated polymicrobial communities, where they impact digestion, immunity and resistance to infection. Despite extensive competition at high cell density that occurs in these settings, cell contact-dependent mechanisms of interbacterial antagonism, such as the type VI secretion system (T6SS), have not been defined in this group of organisms. Herein we report the bioinformatic and functional characterization of a T6SS-like pathway in diverse Bacteroidetes. Using prominent human gut commensal and soil-associated species, we demonstrate that these systems localize dynamically within the cell, export antibacterial proteins, and target competitor bacteria. The Bacteroidetes system is a distinct pathway with marked differences in gene content and high evolutionary divergence from the canonical T6S pathway. Our findings offer a potential molecular explanation for the abundance of Bacteroidetes in polymicrobial environments, the observed stability of Bacteroidetes in healthy humans, and the barrier presented by the microbiota against pathogens.

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Human symbionts inject and neutralize antibacterial toxins to persist in the gut

Wexler

Bao

Whitney

et al. 2016

Proc. Natl. Acad. Sci. U.S.A.

180

203

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The human gut microbiome is a dynamic and densely populated microbial community that can provide important benefits to its host. Cooperation and competition for nutrients among its constituents only partially explain community composition and interpersonal variation. Notably, certain human-associated Bacteroidetes—one of two major phyla in the gut—also encode machinery for contact-dependent interbacterial antagonism, but its impact within gut microbial communities remains unknown. Here we report that prominent human gut symbionts persist in the gut through continuous attack on their immediate neighbors. Our analysis of just one of the hundreds of species in these communities reveals 12 candidate antibacterial effector loci that can exist in 32 combinations. Through the use of secretome studies, in vitro bacterial interaction assays and multiple mouse models, we uncover strain-specific effector/immunity repertoires that can predict interbacterial interactions in vitro and in vivo, and find that some of these strains avoid contact-dependent killing by accumulating immunity genes to effectors that they do not encode. Effector transmission rates in live animals can exceed 1 billion events per minute per gram of colonic contents, and multiphylum communities of human gut commensals can partially protect sensitive strains from these attacks. Together, these results suggest that gut microbes can determine their interactions through direct contact. An understanding of the strategies human gut symbionts have evolved to target other members of this community may provide new approaches for microbiome manipulation.

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Human gut Bacteroides capture vitamin B12 via cell surface-exposed lipoproteins

Wexler

Schofield

Degnan

et al. 2018

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Human gut Bacteroides use surface-exposed lipoproteins to bind and metabolize complex polysaccharides. Although vitamins and other nutrients are also essential for commensal fitness, much less is known about how commensal bacteria compete with each other or the host for these critical resources. Unlike in Escherichia coli, transport loci for vitamin B12 (cobalamin) and other corrinoids in human gut Bacteroides are replete with conserved genes encoding proteins whose functions are unknown. Here we report that one of these proteins, BtuG, is a surface-exposed lipoprotein that is essential for efficient B12 transport in B. thetaiotaomicron. BtuG binds B12 with femtomolar affinity and can remove B12 from intrinsic factor, a critical B12 transport protein in humans. Our studies suggest that Bacteroides use surface-exposed lipoproteins not only for capturing polysaccharides, but also to acquire key vitamins in the gut.

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Clostridioides difficile Senses and Hijacks Host Heme for Incorporation into an Oxidative Stress Defense System

Knippel

Wexler

Miller

et al. 2020

Cell Host & Microbe

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Aaron G. Wexler

An insider's perspective: Bacteroides as a window into the microbiome

A Type VI Secretion-Related Pathway in Bacteroidetes Mediates Interbacterial Antagonism

Human symbionts inject and neutralize antibacterial toxins to persist in the gut

Human gut Bacteroides capture vitamin B12 via cell surface-exposed lipoproteins

Clostridioides difficile Senses and Hijacks Host Heme for Incorporation into an Oxidative Stress Defense System

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