1. IL-27 regulates homeostasis of the intestinal CD4+ effector T cell pool and limits intestinal inflammation in a murine model of colitis
- Author
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Betsy C. Taylor, Amy E. Troy, Christiaan J. M. Saris, Christopher A. Hunter, Colby Zaph, Yurong Du, Katherine J. Guild, and David Artis
- Subjects
CD4-Positive T-Lymphocytes ,T cell ,Immunology ,Inflammation ,Biology ,Article ,Proinflammatory cytokine ,Mice ,medicine ,Immunology and Allergy ,Animals ,Homeostasis ,Lymphocyte Count ,Receptor ,Innate immune system ,Cell growth ,Interleukins ,Innate lymphoid cell ,Interleukin-17 ,Immunity ,Receptors, Interleukin ,T-Lymphocytes, Helper-Inducer ,Colitis ,Cell biology ,Intestines ,Disease Models, Animal ,medicine.anatomical_structure ,Interleukin 17 ,medicine.symptom - Abstract
IL-27 limits CD4+ TH17 cell development in vitro and during inflammatory responses in the CNS. However, whether IL-27-IL-27R interactions regulate the homeostasis or function of CD4+ T cell populations in the intestine is unknown. To test this, we examined CD4+ T cell populations in the intestine of wild-type and IL-27R−/− mice. Naive IL-27R−/− mice exhibited a selective decrease in the frequency of IFN-γ producing CD4+ TH1 cells and an increase in the frequency of TH17 cells in gut-associated lymphoid tissues. Associated with elevated expression of IL-17A, IL-27R−/− mice exhibited earlier onset and significantly increased severity of clinical disease compared with wild-type controls in a murine model of intestinal inflammation. Rag−/−/IL-27R−/− mice were also more susceptible than Rag−/− mice to development of dextran sodium sulfate-induced intestinal inflammation, indicating an additional role for IL-27-IL-27R in the regulation of innate immune cell function. Consistent with this, IL-27 inhibited proinflammatory cytokine production by activated neutrophils. Collectively, these data identify a role for IL-27-IL-27R interaction in controlling the homeostasis of the intestinal T cell pool and in limiting intestinal inflammation through regulation of innate and adaptive immune cell function.
- Published
- 2009