Antigen exposure shapes the ratio between antigen-specific Tregs and conventional T cells in human peripheral blood

Su, Laura F.; Alcazar, Daniel Del; Stelekati, Erietta; Wherry, E. John; Davis, Mark M.

doi:10.1073/pnas.1611723113

Cited by 46 publications

(40 citation statements)

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“…Previous reports demonstrate that a minor fraction of Foxp3 + Treg cells can be identified within antigen-specific T cell populations reactive to both self and foreign pMHC-II (Malhotra et al, 2016; Moon et al, 2011; Su et al, 2016). However, these populations do not reflect naturally occurring antigen specificities that drive the robust selection of Treg cells in the thymus.…”

Section: Discussionmentioning

confidence: 99%

Identification of Natural Regulatory T Cell Epitopes Reveals Convergence on a Dominant Autoantigen

et al. 2017

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SUMMARY Regulatory T (Treg) cells expressing the transcription factor Foxp3 are critical for the prevention of autoimmunity and the suppression of anti-tumor immunity. The major self antigens recognized by Treg cells remain undefined, representing a substantial barrier to the understanding of immune regulation. Here, we have identified natural Treg cell ligands in mice. We found that two recurrent Treg cell clones, one prevalent in prostate tumors and the second associated with prostatic autoimmune lesions, recognized distinct non-overlapping MHC class-II-restricted peptides derived from the same prostate-specific protein. Notably, this protein is frequently targeted by autoantibodies in experimental models of prostatic autoimmunity. Based on these findings, we propose a model in which Treg cell responses at peripheral sites converge on those self proteins that are most susceptible to autoimmune attack, and we suggest that this link may be exploited as a generalizable strategy to identify the Treg cell antigens relevant to human autoimmunity.

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Section: Discussionmentioning

confidence: 99%

Identification of Natural Regulatory T Cell Epitopes Reveals Convergence on a Dominant Autoantigen

et al. 2017

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“…Interestingly, T reg cells generated in the perinatal period persist and effectively inhibit autoimmunity throughout life 51 . The overall frequency of the polyclonal T reg cell population is approximately 5–15% of CD4 + T cells, but the ratio between antigen-specific T reg and effector T cells decreases during an ongoing immune response, presumably to improve anti-pathogen immunity 52 . T reg cells may also promote tissue repair in response to inflammatory factors released from damaged cells 53 and exert a regenerative effect in the CNS 54 and skeletal muscle 55 .…”

Section: The Conundrum Of Strongly Self-reactive Treg Cellsmentioning

confidence: 99%

The multiple pathways to autoimmunity

2017

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Efforts to understand autoimmunity have been pursued relentlessly for several decades. It has become apparent that the immune system evolved multiple mechanisms for controlling self-reactivity, and defects in one or more of these mechanisms can lead to breakdown of tolerance. Among the multitude of lesions associated with disease, the most common appear to affect peripheral rather than central tolerance. The initial trigger for both systemic and organ-specific autoimmune disorders likely involves recognition of self or foreign molecules, especially nucleic acids, by innate sensors. This recognition, in turn, triggers inflammatory responses and engagement of previously quiescent autoreactive T and B cells. Here, we summarize the most prominent autoimmune pathways and identify key issues that require resolution to fully understand pathogenic autoimmunity.

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“…Using tetramers to directly identify and characterize endogenous self antigen-specific T cells, we and others have revealed that the impact of deletion on peripheral frequencies of self antigen-specific T cells is much less complete than previously anticipated [8][9][10][11]. Moreover, Foxp3 + Tregs comprise only a minor fraction of these cells, leaving open the question of how Foxp3 − conventional cells remain tolerant in the steady state [8][9][10]12].…”

Section: Introductionmentioning

confidence: 95%

Opposing peripheral fates of tissue‐restricted self antigen‐specific conventional and regulatory CD4⁺ T cells

2019

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The development of self antigen‐specific T cells is influenced by how the self antigen is expressed. Here, we created a mouse in which a model self antigen is conditionally expressed in different tissue environments. Using peptide:MHCII tetramer‐based cell enrichment methods, we examined the development of corresponding endogenous self antigen‐specific CD4+ T cell populations. While ubiquitous self antigen expression resulted in efficient deletion of self antigen‐specific T cells in the thymus, some tissue‐restricted expression patterns resulted in partial deletion of the population in peripheral lymphoid organs. Deletion specifically affected Foxp3− conventional T cells (Tconv) with a bias towards high avidity TCR expressing cells in the case of thymic, but not peripheral deletion. In contrast, Foxp3+ Treg exhibited elevated frequencies with increased TCR avidity. T cells surviving deletion were functionally impaired, with Tconv cells exhibiting more impairment than Tregs. Collectively, our results illustrate how postthymic recognition of tissue‐restricted self antigens results in opposing developmental fates for Tconv and Treg cell subsets.

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Antigen exposure shapes the ratio between antigen-specific Tregs and conventional T cells in human peripheral blood

Cited by 46 publications

References 46 publications

Identification of Natural Regulatory T Cell Epitopes Reveals Convergence on a Dominant Autoantigen

Identification of Natural Regulatory T Cell Epitopes Reveals Convergence on a Dominant Autoantigen

The multiple pathways to autoimmunity

Opposing peripheral fates of tissue‐restricted self antigen‐specific conventional and regulatory CD4⁺ T cells

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Antigen exposure shapes the ratio between antigen-specific Tregs and conventional T cells in human peripheral blood

Cited by 46 publications

References 46 publications

Identification of Natural Regulatory T Cell Epitopes Reveals Convergence on a Dominant Autoantigen

Identification of Natural Regulatory T Cell Epitopes Reveals Convergence on a Dominant Autoantigen

The multiple pathways to autoimmunity

Opposing peripheral fates of tissue‐restricted self antigen‐specific conventional and regulatory CD4+ T cells

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Product

Resources

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Opposing peripheral fates of tissue‐restricted self antigen‐specific conventional and regulatory CD4⁺ T cells