Colonic goblet cell intrinsic, Myd88 dependent, microbial sensing rapidly regulates antigen delivery to the lamina propria immune system (MUC4P.853)

Abstract

Abstract The delivery of antigens across the intestinal epithelium is an early and critical event in homeostatic responses to innocuous antigens and inflammatory responses to potential pathogens. The factors and mechanisms regulating antigen delivery to the lamina propria (LP) immune system are largely unknown. We recently demonstrated when small intestinal goblet cells (GCs) secrete, they form goblet cell-associated antigen passages (GAPs) and deliver luminal antigens to LP dendritic cells (DCs). Here we report in the basal state, GAP formation is driven by acetylcholine (Ach) signaling via the muscarinic ACh receptor 4 (mAChR4) expressed by GCs. In contrast to conventionally housed mice, GAPs were present in the colon of mice with a reduced microbiota or altered microbial sensing. Formation of colonic GAPs in these mice was dependent upon mAChR4 signaling. Moreover, in mice with a reduced microbial load, luminal microbial stimuli inhibited GAP formation within minutes. In vitro studies revealed GC intrinsic sensing of the microbiota rapidly inhibited ACh induced GC secretion, and conditional deletion of Myd88 in GCs in conventionally housed mice resulted in the spontaneous formation of colonic GAPs, and the delivery of luminal antigen to colonic LP DCs. These findings identify a role for microbial sensing by colonic GCs to rapidly regulate antigen delivery to the LP immune system, and preventing delivery of luminal antigens when the luminal microbial load is abundant and complex.