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Interactions between host and intestinal crypt-resided biofilms are controlled by epithelial fucosylation

Xue-Kun Guo, Jiali Wang, Vincent P. van Hensbergen, Jintao Liu, Huji Xu, Xiaoyu Hu

2023Cell Reports21 citationsDOIOpen Access PDF

Abstract

As highly organized consortia of bacteria, biofilms have long been implicated in aggravating inflammation. However, our understanding regarding in vivo host-biofilm interactions in the complex tissue environments remains limited. Here, we show a unique pattern of crypt occupation by mucus-associated biofilms during the early stage of colitis, which is genetically dependent on bacterial biofilm-forming capacity and restricted by host epithelial α1,2-fucosylation. α1,2-Fucosylation deficiency leads to markedly augmented crypt occupation by biofilms originated from pathogenic Salmonella Typhimurium or indigenous Escherichia coli, resulting in exacerbated intestinal inflammation. Mechanistically, α1,2-fucosylation-mediated restriction of biofilms relies on interactions between bacteria and liberated fucose from biofilm-occupied mucus. Fucose represses biofilm formation and biofilm-related genes in vitro and in vivo. Finally, fucose administration ameliorates experimental colitis, suggesting therapeutic potential of fucose for biofilm-related disorders. This work illustrates host-biofilm interactions during gut inflammation and identifies fucosylation as a physiological strategy for restraining biofilm formation.

Topics & Concepts

FucosylationCryptHost (biology)BiofilmMicrobiologyBiologyCell biologyBacteriaGeneticsGlycanEndocrinologyGlycoproteinProbiotics and Fermented FoodsBacteriophages and microbial interactionsMicrobial Community Ecology and Physiology
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