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Fight them or feed them: how the intestinal mucus layer manages the gut microbiota

Journal article
Authors Björn O. Schröder
Published in Gastroenterology Report
Volume 7
Issue 1
Pages 3-12
ISSN 2052-0034
Publication year 2019
Published at Wallenberg Laboratory
Institute of Medicine, Department of Molecular and Clinical Medicine
Pages 3-12
Language en
Keywords Dietary fiber, gut microbiota, host-microbe interaction, inflammatory bowel disease, mucus, mucin, aryl-hydrocarbon receptor, bacteroides-thetaiotaomicron, akkermansia-muciniphila, plant polysaccharides, spatial segregation, muc2-deficient mice, innate immunity, colonic-mucosa, mouse stomach, dietary fiber
Subject categories Gastroenterology and Hepatology


The intestinal tract is inhabited by a tremendous number of microorganisms, termed the gut microbiota. These microorganisms live in a mutualistic relationship with their host and assist in the degradation of complex carbohydrates. Although the gut microbiota is generally considered beneficial, the vast number of microbial cells also form a permanent threat to the host. Thus, the intestinal epithelium is covered with a dense layer of mucus to prevent translocation of the gut microbiota into underlying tissues. Intestinal mucus is an organized glycoprotein network with a host-specific glycan structure. While the mucus layer has long been considered a passive, host-designed barrier, recent studies showed that maturation and function of the mucus layer are strongly influenced by the gut microbiota. In return, the glycan repertoire of mucins can select for distinct mucosa-associated bacteria that are able to bind or degrade specific mucin glycans as a nutrient source. Because the intestinal mucus layer is at the crucial interface between host and microbes, its breakdown leads to gut bacterial encroachment that can eventually cause inflammation and infection. Accordingly, a dysfunctional mucus layer has been observed in colitis in mice and humans. Moreover, the increased consumption of a low-fiber Western-style diet in our modern society has recently been demonstrated to cause bacteria-mediated defects of the intestinal mucus layer. Here, I will review current knowledge on the interaction between gut bacteria and the intestinal mucus layer in health and disease. Understanding the molecular details of this host-microbe interaction may contribute to the development of novel treatment options for diseases involving a dysfunctional mucus layer, such as ulcerative colitis.

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