The intestinal epithelium forms an essential barrier between a host and its microbiota. Protozoa and helminths are members of the gut microbiota of mammals, including humans, yet the many ways that gut epithelial cells orchestrate responses to these eukaryotes remain unclear. Here we show that tuft cells, which are taste-chemosensory epithelial cells, accumulate during parasite colonization and infection. Disruption of chemosensory signaling through the loss of TRMP5 abrogates the expansion of tuft cells, goblet cells, eosinophils, and type 2 innate lymphoid cells during parasite colonization. Tuft cells are the primary source of the parasite-induced cytokine interleukin-25, which indirectly induces tuft cell expansion by promoting interleukin-13 production by innate lymphoid cells. Our results identify intestinal tuft cells as critical sentinels in the gut epithelium that promote type 2 immunity in response to intestinal parasites.
In a murine model of inflammatory bowel disease (IBD), treatment of colitis in IL-10 gene deficient mice with the parasitic helminth, Heligmosomoides polygyrus, ameliorates colonic inflammation. The cellular and molecular mechanisms driving this therapeutic host response are being studied vigorously. One proposed mechanism is that H. polygyrus infection favors the outgrowth or suppression of certain bacteria, which in turn help modulate host immunity. To begin to address this hypothesis, we quantified the effect of H. polygyrus treatment on the composition of the gastrointestinal (GI) tract microbiota in the absence of inflammation, using wild-type C57BL/6 mice. Here, we present evidence that a significant shift in the abundance and relative distribution of bacterial species in the ileum of mice is associated with H. polygyrus infection. Members of the bacterial family, Lactobacillaceae, significantly increased in abundance in the ileum of infected mice reproducibly in two independent experiments despite having different microbiotas present at the outset of each experiment. These data support the concept that helminth infection shifts the composition of intestinal bacteria. The clinical consequences of these shifts in intestinal flora are yet to be explored.
Inflammatory bowel disease (IBD) is prevalent in industrialized countries, but rare in less‐developed countries. Helminths, common in less‐developed countries, may induce immunoregulatory circuits protective against IBD. IL‐10–/– mice given piroxicam develop severe and persistent colitis. Lamina propria mononuclear cells from colitic IL‐10–/– mice released IFN‐γ and IL‐12. The ongoing piroxicam‐induced colitis could be partially blocked with anti‐IL‐12 monoclonal antibody suggesting that the inflammation was at least partly IL‐12 dependent. Colonization of piroxicam‐treated colitic IL‐10–/– mice with Heligmosomoides polygyrus (an intestinal helminth) suppressed established inflammation and inhibited mucosal IL‐12 and IFN‐γ production. H. polygyrus augmented mucosal IL‐13, but not IL‐4 or IL‐5 production. Transfer of mesenteric lymph node (MLN) T cells from IL‐10–/– animals harboring H. polygyrus into colitic IL‐10–/– recipients inhibited colitis. MLN T cells from worm‐free mice did not. Foxp3 (scurfin) drives regulatory T cell function. H. polygyrus enhanced Foxp3 mRNA expression in MLN T cells that had regulatory activity. This suggests that H. polygyrus inhibits ongoing IL‐10–/– colitis in part through blocking mucosal Th1 cytokine production. Resolution of inflammation is associated with increased IL‐13 production and can be adoptively transferred by MLN T cells.
Crohn's disease results from dysregulated T helper (Th)1-type mucosal inflammation. Crohn's disease is rare in tropical countries but prevalent in developed countries with temperate climates, in which its incidence rose after 1940. In contrast, exposure to helminthic parasites is common in tropical countries but is rare in developed countries. Helminthic parasites induce immunomodulatory T cell responses in the host. We hypothesize that immunomodulatory responses due to helminths may attenuate excessive Th1-type inflammation. To test that hypothesis, mice were exposed to eggs of the helminth Schistosoma mansoni and then challenged rectally with trinitrobenzesulfonic acid (TNBS) to induce colitis. Schistosome egg exposure attenuated TNBS colitis and protected mice from lethal inflammation. Schistosome egg exposure diminished IFN-gamma and enhanced IL-4 production from alphaCD3-stimulated spleen and mesenteric lymph node cells of TNBS-treated mice. Schistosome egg exposure decreased colonic IFN-gamma but increased IL-10 mRNA expression in TNBS-treated mice. Intact signal transducer and activator of transcription 6 was required for attenuation of colitis. Exposure to helminths can decrease murine colonic inflammation.
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