Ana Ízcue scite author profile

The immune system is pivotal in mediating the interactions between host and microbiota that shape the intestinal environment. Intestinal homeostasis arises from a highly dynamic balance between host protective immunity and regulatory mechanisms. This regulation is achieved by a number of cell populations acting through a set of shared regulatory pathways. In this review, we summarize the main lymphocyte subsets controlling immune responsiveness in the gut and their mechanisms of control, which involve maintenance of intestinal barrier function and suppression of chronic inflammation. CD4(+)Foxp3(+) T cells play a nonredundant role in the maintenance of intestinal homeostasis through IL-10- and TGF-beta-dependent mechanisms. Their activity is complemented by other T and B lymphocytes. Because breakdown in immune regulatory networks in the intestine leads to chronic inflammatory diseases of the gut, such as inflammatory bowel disease and celiac disease, regulatory lymphocytes are an attractive target for therapies of intestinal inflammation.

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Interleukin-23 Restrains Regulatory T Cell Activity to Drive T Cell-Dependent Colitis

Ízcue

et al. 2008

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SummaryInterleukin-23 (IL-23) is an inflammatory cytokine that plays a key role in the pathogenesis of several autoimmune and inflammatory diseases. It orchestrates innate and T cell-mediated inflammatory pathways and can promote T helper 17 (Th17) cell responses. Utilizing a T cell transfer model, we showed that IL-23-dependent colitis did not require IL-17 secretion by T cells. Furthermore, IL-23-independent intestinal inflammation could develop if immunosuppressive pathways were reduced. The frequency of naive T cell-derived Foxp3+ cells in the colon increased in the absence of IL-23, indicating a role for IL-23 in controlling regulatory T cell induction. Foxp3-deficient T cells induced colitis when transferred into recipients lacking IL-23p19, showing that IL-23 was not essential for intestinal inflammation in the absence of Foxp3. Taken together, our data indicate that overriding immunosuppressive pathways is an important function of IL-23 in the intestine and could influence not only Th17 cell activity but also other types of immune responses.

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Characterization of Foxp3+CD4+CD25+ and IL-10-Secreting CD4+CD25+ T Cells during Cure of Colitis

et al. 2006

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CD4+CD25+ regulatory T cells can prevent and resolve intestinal inflammation in the murine T cell transfer model of colitis. Using Foxp3 as a marker of regulatory T cell activity, we now provide a comprehensive analysis of the in vivo distribution of Foxp3+CD4+CD25+ cells in wild-type mice, and during cure of experimental colitis. In both cases, Foxp3+CD4+CD25+ cells were found to accumulate in the colon and secondary lymphoid organs. Importantly, Foxp3+ cells were present at increased density in colon samples from patients with ulcerative colitis or Crohn’s disease, suggesting similarities in the behaviour of murine and human regulatory cells under inflammatory conditions. Cure of murine colitis was dependent on the presence of IL- 10, and IL-10-producing CD4+CD25+ T cells were enriched within the colon during cure of colitis and also under steady state conditions. Our data indicate that although CD4+CD25+ T cells expressing Foxp3 are present within both lymphoid organs and the colon, subsets of IL- 10-producing CD4+CD25+ T cells are present mainly within the intestinal lamina propria suggesting compartmentalization of the regulatory T cell response at effector sites.

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Regulatory T cells suppress systemic and mucosal immune activation to control intestinal inflammation

Ízcue

Coombes

Powrie

2006

Immunological Reviews

424

344

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The gastrointestinal (GI) tract is the main interface where the body encounters exogenous antigens. It is crucial that the local response here is tightly regulated to avoid an immune reaction against dietary antigens and commensal flora while still mounting an efficient defense against pathogens. Faults in establishing intestinal tolerance can lead to disease, inducing local and often also systemic inflammation. Studies in human as well as in animal models suggest a role for regulatory T cells (Tregs) in maintaining intestinal homeostasis. Transfer of Tregs can not only prevent the development of colitis in animal models but also cure established disease, acting both systemically and at the site of inflammation. In this review, we discuss the major regulatory pathways, including transforming growth factor-beta (TGF-beta), interleukin-10 (IL-10), and cytotoxic T-lymphocyte antigen-4 (CTLA-4), and their role in Treg-mediated control of systemic and mucosal responses. In addition, we give an overview of the known mechanisms of lymphocyte migration to the intestine and discuss how CD103 expression can influence the balance between regulatory and effector T cells. Further understanding of the factors that control the activity of Tregs in different immune compartments may facilitate the design of strategies to target regulation in a tissue-specific way.

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Blockade of CTLA-4 on CD4+CD25+ Regulatory T Cells Abrogates Their Function In Vivo

et al. 2006

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Naturally occurring CD4+ TR cells that express CD25 and the transcription factor FoxP3 play a key role in immune homeostasis preventing immune pathological responses to self and foreign antigens. CTLA-4 is expressed by a high percentage of these cells, and is often considered as a marker for TR in experimental and clinical analysis. However, it has not yet been proven that CTLA-4 has a direct role in TR function. Using a colitis transfer model, we previously showed that anti-CTLA-4 mAb treatment abrogates suppression of colitis mediated by CD4+ CD25+ TR. Here we demonstrate that anti-CTLA-4 mAb treatment inhibits TR function via direct effects on CTLA-4 expressing TR cells, and not via hyper-activation of colitogenic T cells. Although anti-CTLA-4 mAb treatment completely inhibits TR function, it does not affect TR cell expansion, persistence or homing to the gut-associated lymphoid tissue, indicative of the blockade of a signal required for TR cell activity. In contrast to the striking effect of the antibody, CTLA-4 deficient mice can produce functional TR cells, suggesting that compensatory mechanisms can develop. This study provides direct evidence that CTLA-4 has a specific, non-redundant role in the function of normal regulatory T cells. This role has to be taken into account when targeting CTLA-4 for therapeutic purposes, as such a strategy will not only boost effector T cell responses, but might also break TR-mediated self-tolerance.

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Ana Ízcue

Regulatory Lymphocytes and Intestinal Inflammation

Interleukin-23 Restrains Regulatory T Cell Activity to Drive T Cell-Dependent Colitis

Characterization of Foxp3+CD4+CD25+ and IL-10-Secreting CD4+CD25+ T Cells during Cure of Colitis

Regulatory T cells suppress systemic and mucosal immune activation to control intestinal inflammation

Blockade of CTLA-4 on CD4+CD25+ Regulatory T Cells Abrogates Their Function In Vivo

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