A preliminary study of HMGB1 defense in Crohn's disease
A preliminary study of HMGB1 defense in Crohn's disease
Overstreet, A.-M. C.; Hunter, K. A.; Patel, S.; Dharan, H.; Overend, S.; Messer, J. S.
AbstractIntroduction: Intestinal barrier failure is a key characteristic of both kinds of inflammatory bowel disease (IBD), ulcerative colitis (UC) and Crohn's disease (CD). The intestinal barrier, or gut mucosal barrier, is composed of mucus and a tightly interconnected single layer of intestinal epithelial cells (IEC) that line the gut. Together, these components work to contain the gut microbiota within the gut lumen and when they fail, microbes, microbial products, or microbial components cause damage, inflammation, and immune activation in host tissue. We previously reported that High mobility group box 1 (HMGB1) in colonic mucus aggregates bacteria, limits bacterial invasion through mucus, and prevents bacteria from adhering to host tissue. Epithelial surface-associated HMGB1 is decreased in active UC lesions and low levels of HMGB1 are associated with high levels of tissue-adherent bacteria expressing adhesins carrying the molecular target of HMGB1 (ToH1). The study reported here was designed to determine whether HMGB1 defense is also compromised in active lesions from CD patients. Methods: Immunofluorescence microscopy was used to visualize mucus and HMGB1 in tissue from colonic resections performed in CD and non-IBD control patients. Results: Active CD lesions had areas where the IEC were absent or pulling away from underlying tissue along with areas of increased mucus thickness and goblet cells full of mucus highly positive for alpha-linked-fucose residues. The surface associated HMGB1 was also decreased in active CD lesions. Conclusion: Tissue from CD patients exhibited cellular and acellular intestinal barrier defects in comparison to control patients. We observed the previously reported loss of IEC barrier integrity and abnormalities in the amount and distribution of mucus in CD lesions. We also report for the first time that CD is associated with decreased HMGB1 defense at the colon surface.