Th17 cells transdifferentiate into regulatory T cells during resolution of inflammation

Gagliani, Nicola; Vesely, María Carolina Amezcua; Iseppon, Andrea; Brockmann, Leonie; Xu, Hao; Palm, Noah W.; Zoete, Marcel R. de; Licona-Limón, Paula; Paiva, Ricardo; Ching, Travers; Weaver, Casey T.; Zi, Xiaoyuan; Pan, Xinghua; Fan, Rong; Garmire, Lana X.; Cotton, Matthew J.; Drier, Yotam; Bernstein, B; Geginat, Jens; Stockinger, Brigitta; Esplugues, Enric; Huber, Samuel; Flavell, Richard A.

doi:10.1038/nature14452

Cited by 658 publications

(620 citation statements)

References 38 publications

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“…The blended phenotype of 'T H 2/T H 1' cells that co-express IL-4 and IFNγ (as well as GATA3 and T-bet) or the induction of IL-10 expression by T H 1 cells can reduce the collateral damage associated with excessive T H 1 cell responses 20,35,42,195 . Extinction of pathogenic immune responses, such as those driven by T H 17 cells, is aided by the conversion of T H 17 cells into IL-10-producing T R 1 cells 41,44,[196][197][198] . T helper cell transitions can also alter chemokine receptor expression and divert pathogenic cells to new tissues, redu cing inflammation at the primary site 196,197 .…”

Section: Beneficial T Cell Plasticitymentioning

confidence: 99%

“…TGFβ is crucial for the conversion of T H 17 cells towards a regulatory phenotype through the promotion of forkhead box P3 (FOXP3) or IL-10 expression [39][40][41] . In addition, the pleiotropic cytokine IL-27 can induce IL-10 expression by various inflammatory subsets to promote regulatory functions, as well as induce the generation of type 1 regulatory T (T R 1) cells de novo [42][43][44] .…”

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Harnessing the plasticity of CD4+ T cells to treat immune-mediated disease

2016

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| CD4 + T cells differentiate and acquire distinct functions to combat specific pathogens but can also adapt their functions in response to changing circumstances. Although this phenotypic plasticity can be potentially deleterious, driving immune pathology, it also provides important benefits that have led to its evolutionary preservation. Here, we review CD4 + T cell plasticity by examining the molecular mechanisms that regulate it -from the extracellular cues that initiate and drive cells towards varying phenotypes, to the cytosolic signalling cascades that decipher these cues and transmit them into the cell and to the nucleus, where these signals imprint specific gene expression programmes. By understanding how this functional flexibility is achieved, we may open doors to new therapeutic approaches that harness this property of T cells.

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Section: Beneficial T Cell Plasticitymentioning

confidence: 99%

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confidence: 99%

Harnessing the plasticity of CD4+ T cells to treat immune-mediated disease

2016

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“…Such opposing effects of TGF-b on Th17-associated cytokines may contribute to the regulatory or pathogenic functions of these cells. Intriguingly, Th17 cells transdifferentiate into regulatory T cells in a TGF-b-and aryl hydrocarbon receptor (AhR)-dependent manner at the resolution of inflammation (Gagliani et al 2015), thus further showing the role of TGF-b in the plasticity and switch between immunity and tolerance.…”

Section: Peripheral Homeostasismentioning

confidence: 99%

Regulation of the Immune Response by TGF-β: From Conception to Autoimmunity and Infection

Sanjabi

2017

Cold Spring Harb Perspect Biol

421

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Transforming growth factor b (TGF-b) is a pleiotropic cytokine involved in both suppressive and inflammatory immune responses. After 30 years of intense study, we have only begun to elucidate how TGF-b alters immunity under various conditions. Under steady-state conditions, TGF-b regulates thymic T-cell selection and maintains homeostasis of the naïve T-cell pool. TGF-b inhibits cytotoxic T lymphocyte (CTL), Th1-, and Th2-cell differentiation while promoting peripheral ( p)Treg-, Th17-, Th9-, and Tfh-cell generation, and T-cell tissue residence in response to immune challenges. Similarly, TGF-b controls the proliferation, survival, activation, and differentiation of B cells, as well as the development and functions of innate cells, including natural killer (NK) cells, macrophages, dendritic cells, and granulocytes. Collectively, TGF-b plays a pivotal role in maintaining peripheral tolerance against self-and innocuous antigens, such as food, commensal bacteria, and fetal alloantigens, and in controlling immune responses to pathogens.

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“…It should be noted that during the resolution of an in ammation, ROR(γt) + 17 can also trans-differentiate into Foxp3 − regulatory T cells expressing the anti-in ammatory cytokine IL-10 [71]. Only few ROR(γt) + Foxp3 + Tregs are directly generated from ex 17 cells [67,71].…”

Section: Novel Intestinal Treg Subpopulationsmentioning

confidence: 99%

Microbiota, regulatory T cell subsets, and allergic disorders

Ohnmacht¹

2016

Allergo J

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Epidemiologic studies revealed a crucial role of the environment for the increased prevalence of allergic disorders. e microbiota as part of our immediate environment promotes immune diversity that facilitates a well-equilibrated balance between immunity and tolerance. Alterations of our symbiotic microbiota especially in early life is thought to play a fundamental role in de ning susceptibility to the development of allergic diseases during adult life on the population level. Due to a high density of bacteria, viruses and fungi and a large contact surface area for host-microbiota interactions, the most relevant interaction between microbes and our immune system are thought to occur in the gut. e immune system co-evolved with the symbiotic microbiota and adopted a variety of mechanisms to allow a dynamic state of tolerance, including the induction of regulatory T cells (Tregs). Foxp3-expressing Tregs are welldescribed immune regulators in autoimmune and allergic disorders. However, recent years have shown that Tregs can come in di erent avours with di erent regulatory potential and outcome for our immune system. is review summarizes novel ndings from basic immunology research that may help to better understand the interaction between the microbiota, di erentiation of Tregs and its consequences for the onset and regulation of allergic disorders.Cite this as Ohnmacht C. Microbiota, regulatory T cell subsets, and allergic disorders. Allergo J Int 2016;25:114-23

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Th17 cells transdifferentiate into regulatory T cells during resolution of inflammation

Cited by 658 publications

References 38 publications

Harnessing the plasticity of CD4+ T cells to treat immune-mediated disease

Harnessing the plasticity of CD4+ T cells to treat immune-mediated disease

Regulation of the Immune Response by TGF-β: From Conception to Autoimmunity and Infection

Microbiota, regulatory T cell subsets, and allergic disorders

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