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EatA mediated degradation of intestinal mucus is species-specific and driven by MUC2 structural features

Sergio Trillo-Muyo, Brendan Dolan, Frida Svensson, Tim J. Vickers, Liisa Arike, Maria-Jose García-Bonete, Jenny K. Gustafsson, Mathias I. Nielsen, Hans H. Wandall, James M. Fleckenstein, Gunnar C. Hansson, Sjoerd van der Post

2025Nature Communications7 citationsDOIOpen Access PDF

Abstract

Enterotoxigenic Escherichia coli (ETEC) infections are a leading cause of diarrheal illness, responsible for an estimated 100,000 deaths annually. ETEC pathogenesis is driven by various virulence factors, including toxins, adhesins, and noncanonical factors such as the protease EatA. The first line of host defense against intestinal pathogenic bacterial infections is the protective intestinal mucus layer. Here, we demonstrate the mechanism by which EatA degrades the core mucus component MUC2, thereby facilitating access to the epithelial cell surface and promoting infection. We identify the specific cleavage site region localized at the C-terminal of MUC2. EatA's protease activity depends on the interaction between two distinct, uniquely spaced domains in human MUC2, which defines species specificity. We confirm this using a novel transgenic mouse model exclusively expressing human MUC2, which allows us to study the role of the mucus layer in the infection by human intestinal pathogens. These findings highlight how ETEC is adapted to specifically degrade the mucus layer of its human host.

Topics & Concepts

MucusVirulenceMicrobiologyProteaseBiologyPathogenesisEnterotoxigenic Escherichia coliEscherichia coliCleavage (geology)Virulence factorIntestinal mucosaCell biologyCell culturePathogenic bacteriaPathogenic Escherichia coliSecretionChemistryMucinCaco-2Protease inhibitor (pharmacology)BacteriaHuman pathogenEscherichia coli research studiesGlycosylation and Glycoproteins ResearchCarbohydrate Chemistry and Synthesis
EatA mediated degradation of intestinal mucus is species-specific and driven by MUC2 structural features | Litcius