Sohn G. Kim scite author profile

Summary The human gastrointestinal tract hosts a diverse network of microorganisms, collectively known as the microbiota that plays an important role in health and disease. For instance, the intestinal microbiota can prevent invading microbes from colonizing the gastrointestinal tract, a phenomenon known as colonization resistance. Perturbations to the microbiota, such as antibiotic administration, can alter microbial composition and result in the loss of colonization resistance. Consequently, the host may be rendered susceptible to colonization by a pathogen. This is a particularly relevant concern in the hospital setting, where antibiotic use and antibiotic-resistant pathogen exposure are more frequent. Many nosocomial infections arise from gastrointestinal colonization. Due to their resistance to antibiotics, treatment is often very challenging. However, recent studies have demonstrated that manipulating the commensal microbiota can prevent and treat various infections in the intestine. In this review, we discuss the members of the microbiota, as well as the mechanisms, that govern colonization resistance against specific pathogens. We also review the effects of antibiotics on the microbiota, as well as the unique epidemiology of immunocompromised patients that renders them a particularly high-risk population to intestinal nosocomial infections.

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Cooperating Commensals Restore Colonization Resistance to Vancomycin-Resistant Enterococcus faecium

Caballero

Kim

Carter

et al. 2017

Cell Host & Microbe

253

200

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SUMMARY Antibiotic-mediated microbiota destruction and the consequent loss of colonization resistance can result in intestinal domination with vancomycin-resistant Enterococcus (VRE), leading to bloodstream infection in hospitalized patients. Clearance of VRE remains a challenging goal that, if achieved, would reduce systemic VRE infections and patient-to-patient transmission. Although obligate anaerobic commensal bacteria have been associated with colonization resistance to VRE, the specific bacterial species involved remain undefined. Herein we demonstrate that a precisely defined consortium of commensal bacteria containing the Clostridium cluster XIVa species Blautia producta and Clostridium bolteae restores colonization resistance against VRE and clears VRE from the intestines of mice. While C. bolteae did not directly mediate VRE clearance it enabled intestinal colonization with B. producta, which directly inhibited VRE growth. These findings suggest that therapeutic or prophylactic administration of defined bacterial consortia to individuals with compromised microbiota composition may reduce inter-patient transmission and intra-patient dissemination of highly antibiotic-resistant pathogens.

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Microbiota-derived lantibiotic restores resistance against vancomycin-resistant Enterococcus

Kim

Becattini

Moody

et al. 2019

Nature

221

193

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Commensal microbes provide first line defense against Listeria monocytogenes infection

et al. 2017

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Sohn G. Kim

The intestinal microbiota: Antibiotics, colonization resistance, and enteric pathogens

Cooperating Commensals Restore Colonization Resistance to Vancomycin-Resistant Enterococcus faecium

Microbiota-derived lantibiotic restores resistance against vancomycin-resistant Enterococcus

Commensal microbes provide first line defense against Listeria monocytogenes infection

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