Commensal bacteria weaken the intestinal barrier by suppressing epithelial neuropilin-1 and Hedgehog signaling.
Giulia PontarolloBettina KollarAmrit MannMy Phung KhuuKlytaimnistra KiouptsiFranziska BayerInês BrandãoValeriya V ZininaJennifer HahlbrockFrano MalinarichMaximilian MimmlerSudhanshu BhushanFederico MariniWolfram RufMeriem BelheouaneJohn F BainesKristina EndresScott M RebaVerena K RakerCarsten DeppermannChristoph WelschMarkus BosmannNatalia SoshnikovaBenoit ChassaingMattias BergentallFelix SommerFredrik BäckhedChristian ReinhardtPublished in: Nature metabolism (2023)
The gut microbiota influences intestinal barrier integrity through mechanisms that are incompletely understood. Here we show that the commensal microbiota weakens the intestinal barrier by suppressing epithelial neuropilin-1 (NRP1) and Hedgehog (Hh) signaling. Microbial colonization of germ-free mice dampens signaling of the intestinal Hh pathway through epithelial Toll-like receptor (TLR)-2, resulting in decreased epithelial NRP1 protein levels. Following activation via TLR2/TLR6, epithelial NRP1, a positive-feedback regulator of Hh signaling, is lysosomally degraded. Conversely, elevated epithelial NRP1 levels in germ-free mice are associated with a strengthened gut barrier. Functionally, intestinal epithelial cell-specific Nrp1 deficiency (Nrp1 ΔIEC ) results in decreased Hh pathway activity and a weakened gut barrier. In addition, Nrp1 ΔIEC mice have a reduced density of capillary networks in their small intestinal villus structures. Collectively, our results reveal a role for the commensal microbiota and epithelial NRP1 signaling in the regulation of intestinal barrier function through postnatal control of Hh signaling.