Goblet cells deliver luminal antigen to CD103+ dendritic cells in the small intestine

Abstract

The intestinal immune system is exposed to a mixture of foreign antigens from diet, commensal flora, and potential pathogens. Understanding how pathogen-specific immunity is elicited while avoiding inappropriate responses to the background of innocuous antigens is essential for understanding and treating intestinal infections and inflammatory diseases. The ingestion of protein antigen can induce oral tolerance, which is mediated in part by a subset of intestinal dendritic cells (DCs) that promote the development of regulatory T cells1. The lamina propria (LP) underlies the expansive single cell absorptive villous epithelium and contains a large population of DCs (CD11c+ CD11b+ MHCII+ cells) comprised of two predominant subsets; CD103+ CX3CR1− DCs, which promote IgA production, imprint gut homing on lymphocytes, and induce the development of regulatory T cells2–9, and CD103− CX3CR1+ DCs (with features of macrophages), which promote TNFα production, colitis, and the development of Th17 T cells5–7,10. However the mechanisms by which different intestinal LP-DC subsets capture luminal antigens in vivo remains largely unexplored. Using a minimally disruptive in vivo imaging approach we show that in the steady-state, small intestine goblet cells (GCs) function as passages delivering low molecular weight soluble antigens from the intestinal lumen to underlying CD103+ LP-DCs. The preferential delivery of antigens to DCs with tolerogenic properties implies a key role for this GC function in intestinal immune homeostasis.