MUC17 is an essential small intestinal glycocalyx component that is disrupted in Crohn’s disease
Elena Layunta, Sofia Jäverfelt, Fleur C. van de Koolwijk, Molly Sivertsson, Brendan Dolan, Liisa Arike, Sara I.M. Thulin, Bruce A. Vallance, Thaher Pelaseyed
Elena Layunta, Sofia Jäverfelt, Fleur C. van de Koolwijk, Molly Sivertsson, Brendan Dolan, Liisa Arike, Sara I.M. Thulin, Bruce A. Vallance, Thaher Pelaseyed
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Research Article Cell biology Gastroenterology

MUC17 is an essential small intestinal glycocalyx component that is disrupted in Crohn’s disease

Abstract

Crohn’s disease (CD) is the chronic inflammation of the terminal ileum and colon triggered by a dysregulated immune response to bacteria, but insights into specific molecular perturbations at the critical bacteria-epithelium interface are limited. Here, we report that the membrane mucin MUC17 protected small intestinal enterocytes against commensal and pathogenic bacteria. In noninflamed CD ileum, reduced MUC17 levels and a compromised glycocalyx barrier allowed recurrent bacterial contact with enterocytes. Muc17 deletion in mice rendered the small intestine particularly prone to atypical bacterial infection while maintaining resistance to colitis. The loss of Muc17 resulted in spontaneous deterioration of epithelial homeostasis and in the extraintestinal translocation of bacteria. Finally, Muc17-deficient mice harbored specific small intestinal bacterial taxa observed in patients with CD. Our findings highlight MUC17 as an essential region-specific line of defense in the small intestine with relevance for early epithelial defects in CD.

Authors

Elena Layunta, Sofia Jäverfelt, Fleur C. van de Koolwijk, Molly Sivertsson, Brendan Dolan, Liisa Arike, Sara I.M. Thulin, Bruce A. Vallance, Thaher Pelaseyed

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Figure 2

Epithelial cell–specific deletion of Muc17 results in the loss of Muc17 expression in the mouse small intestine.

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Epithelial cell–specific deletion of Muc17 results in the loss of Muc17 ...
(A) Expression of membrane mucin transcripts in epithelial cell types of the mouse small intestine. The color scheme shows row maximum and minimum representing the relative expression of each gene among all cell types. EC, enterocyte; EEC, enteroendocrine cell; ISC, intestinal stem cell; TA, transit amplifying; Im, immature; M, mature; Prox, proximal; Dist, distal; Prog, progenitor; G1, G1 phase; G2, G2 phase. (B) Immunohistochemistry of Muc17 (green), Ezrin (magenta), and DNA (cyan) in histological sections of the jejunum (Si5) from Muc17fl/fl and Muc17ΔIEC mice. Scale bar 50 μm. Scale bar in insets 10 μm. (C) Airyscan high-resolution microscopy of Muc17 (green) and Ezrin (magenta) in the small intestinal brush border of Muc17fl/fl and Muc17ΔIEC mice. Scale bar 1 μm. (D) Bar graph representing the abundance of detected mucins in the proteome of small intestinal epithelial cells from Muc17fl/fl and Muc17ΔIEC mice. n = 5 for each group. (E) Representative confocal micrographs of small intestine (Si) and distal colon (DC) from Muc17fl/fl and Muc17ΔIEC mice, stained for bio-orthogonally labeled O-glycans (azide derivative of N-acetylgalactosamine, GalNAz; magenta) and DNA (white). Scale bar 50 μm. Bar graphs represent the quantification of GalNAz intensity in the apical brush border of the Si and DC in each group. Si5: n = 6–9 per group. DC: n = 3 per group. Significance was determined by 2-way ANOVA followed by Holm-Šidák correction (D) and Mann-Whitney test (E).