Bacteriophage Targeting of Gut Bacterium Attenuates Alcoholic Liver Disease

Overview

Journal Nature

Specialty Science

Date 2019 Nov 15

PMID 31723265

Citations 349

Authors

Yi Duan

Cristina Llorente

Sonja Lang

Katharina Brandl

Huikuan Chu

Lu Jiang

Richard C White

Thomas H Clarke

Kevin Nguyen

Manolito Torralba

Yan Shao

Jinyuan Liu

Adriana Hernandez-Morales

Lauren Lessor

Imran R Rahman

Yukiko Miyamoto

Melissa Ly

Bei Gao

Weizhong Sun

Roman Kiesel

Felix Hutmacher

Suhan Lee

Meritxell Ventura-Cots

Francisco Bosques-Padilla

Elizabeth C Verna

Juan G Abraldes

Robert S Brown Jr

Victor Vargas

Jose Altamirano

Juan Caballeria

Debbie L Shawcross

Samuel B Ho

Alexandre Louvet

Michael R Lucey

Philippe Mathurin

Guadalupe Garcia-Tsao

Ramon Bataller

Xin M Tu

Lars Eckmann

Wilfred A van der Donk

Ry Young

Trevor D Lawley

Peter Starkel

David Pride

Derrick E Fouts

Bernd Schnabl

Affiliations

Soon will be listed here.

Abstract

Chronic liver disease due to alcohol-use disorder contributes markedly to the global burden of disease and mortality. Alcoholic hepatitis is a severe and life-threatening form of alcohol-associated liver disease. The gut microbiota promotes ethanol-induced liver disease in mice, but little is known about the microbial factors that are responsible for this process. Here we identify cytolysin-a two-subunit exotoxin that is secreted by Enterococcus faecalis-as a cause of hepatocyte death and liver injury. Compared with non-alcoholic individuals or patients with alcohol-use disorder, patients with alcoholic hepatitis have increased faecal numbers of E. faecalis. The presence of cytolysin-positive (cytolytic) E. faecalis correlated with the severity of liver disease and with mortality in patients with alcoholic hepatitis. Using humanized mice that were colonized with bacteria from the faeces of patients with alcoholic hepatitis, we investigated the therapeutic effects of bacteriophages that target cytolytic E. faecalis. We found that these bacteriophages decrease cytolysin in the liver and abolish ethanol-induced liver disease in humanized mice. Our findings link cytolytic E. faecalis with more severe clinical outcomes and increased mortality in patients with alcoholic hepatitis. We show that bacteriophages can specifically target cytolytic E. faecalis, which provides a method for precisely editing the intestinal microbiota. A clinical trial with a larger cohort is required to validate the relevance of our findings in humans, and to test whether this therapeutic approach is effective for patients with alcoholic hepatitis.

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