Immunity
Volume 34, Issue 5, 27 May 2011, Pages 794-806
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Article
Intestinal Bacterial Colonization Induces Mutualistic Regulatory T Cell Responses

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Summary

Mammals harbor a dense commensal microbiota in the colon. Regulatory T (Treg) cells are known to limit microbe-triggered intestinal inflammation and the CD4+ T cell compartment is shaped by the presence of particular microbes or bacterial compounds. It is, however, difficult to distinguish whether these effects reflect true mutualistic immune adaptation to intestinal colonization or rather idiosyncratic immune responses. To investigate truly mutualistic CD4+ T cell adaptation, we used the altered Schaedler flora (ASF). Intestinal colonization resulted in activation and de novo generation of colonic Treg cells. Failure to activate Treg cells resulted in the induction of T helper 17 (Th17) and Th1 cell responses, which was reversed by wild-type Treg cells. Efficient Treg cell induction was also required to maintain intestinal homeostasis upon dextran sulfate sodium-mediated damage in the colon. Thus, microbiota colonization-induced Treg cell responses are a fundamental intrinsic mechanism to induce and maintain host-intestinal microbial T cell mutualism.

Highlights

► Intestinal Treg cells are induced and activated by benign commensal colonization ► Activation of intestinal Treg cells is required for successful CD4+ T cell homeostasis ► Treg cell activation is intrinsic and not due to differences in the flora composition ► Maintenance of homeostasis also requires Treg cell activation

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These authors contributed equally to this work