UC-associated autoantibodies to αvβ6 inhibit mucosal TGFβ activation and predispose to intestinal inflammation

Ulcerative colitis (UC) is characterized by epithelial barrier dysfunction and dysregulated mucosal immune responses; however, the mechanisms driving disease onset remain poorly defined. Autoantibodies against the epithelial-restricted integrin v{beta}6 are a highly specific biomarker of UC that can precede clinical diagnosis by up to 10 years. Because v{beta}6 activates TGF{beta} at epithelial surfaces, we hypothesized that UC-associated v{beta}6 autoantibodies inhibit mucosal TGF{beta} activation and disrupt epithelial homeostasis. We showed that v{beta}6 autoantibodies were enriched in UC and that IgG from autoantibody-positive individuals inhibited v{beta}6-dependent activation of TGF{beta}. v{beta}6 blockade dampened TGF{beta} signaling and altered differentiation-associated gene programs in human intestinal epithelial cells. In mice, deletion of v caused expansion of inflammation-associated goblet cells in the colon and changes in intestinal immune cells. Using a novel mouse model, we showed that v{beta}6-specific autoantibody disrupted epithelial-immune crosstalk and increased susceptibility to DSS colitis. Together, these findings establish anti-v{beta}6 autoantibodies as active inhibitors of epithelial TGF{beta} signaling, constituting a de facto anti-cytokine response, rather than passive biomarkers. By linking preclinical seropositivity to impaired epithelial signaling and heightened susceptibility to colitis, this work identifies epithelial v{beta}6-dependent TGF{beta} activation as a pathway that may be leveraged to modify disease risk or limit disease severity. One Sentence SummaryUC-associated autoantibodies impair epithelial TGF{beta} activation, alter mucosal homeostasis, and predispose to colitis.