c-Rel employs multiple mechanisms to promote the thymic development and peripheral function of regulatory T cells in mice

Thomas S. Fulford; Raelene Grumont; Rushika C. Wirasinha; Darcy Ellis; Adele Barugahare; Stephen J. Turner; Haroon Naeem; David Powell; Paul A. Lyons; Kenneth G.C. Smith; Sebastian Scheer; Colby Zaph; Ulf Klein; Stephen R. Daley; Steve Gerondakis

doi:10.1002/eji.202048900

c-Rel employs multiple mechanisms to promote the thymic development and peripheral function of regulatory T cells in mice

Thomas S. Fulford^*, Raelene Grumont, Rushika C. Wirasinha, Darcy Ellis, Adele Barugahare, Stephen J. Turner, Haroon Naeem, David Powell, Paul A. Lyons, Kenneth G.C. Smith, Sebastian Scheer, Colby Zaph, Ulf Klein, Stephen R. Daley, Steve Gerondakis^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › Research › peer-review

8 Citations (Scopus)

Abstract

The NF-κB transcription factor c-Rel is a critical regulator of Treg ontogeny, controlling multiple points of the stepwise developmental pathway. Here, we found that the thymic Treg defect in c-Rel-deficient (cRel^–/–) mice is quantitative, not qualitative, based on analyses of TCR repertoire and TCR signaling strength. However, these parameters are altered in the thymic Treg-precursor population, which is also markedly diminished in cRel^–/– mice. Moreover, c-Rel governs the transcriptional programme of both thymic and peripheral Tregs, controlling a core of genes involved with immune signaling, and separately in the periphery, cell cycle progression. Last, the immune suppressive function of peripheral cRel^–/– tTregs is diminished in a lymphopenic model of T cell proliferation and is associated with decreased stability of Foxp3 expression. Collectively, we show that c-Rel is a transcriptional regulator that controls multiple aspects of Treg development, differentiation, and function via distinct mechanisms.

Original language	English
Pages (from-to)	2006-2026
Number of pages	21
Journal	European Journal of Immunology
Volume	51
Issue number	8
DOIs	https://doi.org/10.1002/eji.202048900
Publication status	Published - Aug 2021
Externally published	Yes

Keywords

Cell cycle progression
Regulatory T cells
Thymic development
c-Rel

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Fulford, T. S., Grumont, R., Wirasinha, R. C., Ellis, D., Barugahare, A., Turner, S. J., Naeem, H., Powell, D., Lyons, P. A., Smith, K. G. C., Scheer, S., Zaph, C., Klein, U., Daley, S. R., & Gerondakis, S. (2021). c-Rel employs multiple mechanisms to promote the thymic development and peripheral function of regulatory T cells in mice. European Journal of Immunology, 51(8), 2006-2026. https://doi.org/10.1002/eji.202048900

@article{f8de533b200f4ce6b6277c39eff94786,

title = "c-Rel employs multiple mechanisms to promote the thymic development and peripheral function of regulatory T cells in mice",

abstract = "The NF-κB transcription factor c-Rel is a critical regulator of Treg ontogeny, controlling multiple points of the stepwise developmental pathway. Here, we found that the thymic Treg defect in c-Rel-deficient (cRel–/–) mice is quantitative, not qualitative, based on analyses of TCR repertoire and TCR signaling strength. However, these parameters are altered in the thymic Treg-precursor population, which is also markedly diminished in cRel–/– mice. Moreover, c-Rel governs the transcriptional programme of both thymic and peripheral Tregs, controlling a core of genes involved with immune signaling, and separately in the periphery, cell cycle progression. Last, the immune suppressive function of peripheral cRel–/– tTregs is diminished in a lymphopenic model of T cell proliferation and is associated with decreased stability of Foxp3 expression. Collectively, we show that c-Rel is a transcriptional regulator that controls multiple aspects of Treg development, differentiation, and function via distinct mechanisms.",

keywords = "Cell cycle progression, Regulatory T cells, Thymic development, c-Rel",

author = "Fulford, {Thomas S.} and Raelene Grumont and Wirasinha, {Rushika C.} and Darcy Ellis and Adele Barugahare and Turner, {Stephen J.} and Haroon Naeem and David Powell and Lyons, {Paul A.} and Smith, {Kenneth G.C.} and Sebastian Scheer and Colby Zaph and Ulf Klein and Daley, {Stephen R.} and Steve Gerondakis",

note = "Publisher Copyright: {\textcopyright} 2021 Wiley-VCH GmbH.",

year = "2021",

month = aug,

doi = "10.1002/eji.202048900",

language = "English",

volume = "51",

pages = "2006--2026",

journal = "European Journal of Immunology",

issn = "0014-2980",

publisher = "Wiley-VCH Verlag",

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Fulford, TS, Grumont, R, Wirasinha, RC, Ellis, D, Barugahare, A, Turner, SJ, Naeem, H, Powell, D, Lyons, PA, Smith, KGC, Scheer, S, Zaph, C, Klein, U, Daley, SR & Gerondakis, S 2021, 'c-Rel employs multiple mechanisms to promote the thymic development and peripheral function of regulatory T cells in mice', European Journal of Immunology, vol. 51, no. 8, pp. 2006-2026. https://doi.org/10.1002/eji.202048900

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T1 - c-Rel employs multiple mechanisms to promote the thymic development and peripheral function of regulatory T cells in mice

AU - Fulford, Thomas S.

AU - Grumont, Raelene

AU - Wirasinha, Rushika C.

AU - Ellis, Darcy

AU - Barugahare, Adele

AU - Turner, Stephen J.

AU - Naeem, Haroon

AU - Powell, David

AU - Lyons, Paul A.

AU - Smith, Kenneth G.C.

AU - Scheer, Sebastian

AU - Zaph, Colby

AU - Klein, Ulf

AU - Daley, Stephen R.

AU - Gerondakis, Steve

PY - 2021/8

Y1 - 2021/8

N2 - The NF-κB transcription factor c-Rel is a critical regulator of Treg ontogeny, controlling multiple points of the stepwise developmental pathway. Here, we found that the thymic Treg defect in c-Rel-deficient (cRel–/–) mice is quantitative, not qualitative, based on analyses of TCR repertoire and TCR signaling strength. However, these parameters are altered in the thymic Treg-precursor population, which is also markedly diminished in cRel–/– mice. Moreover, c-Rel governs the transcriptional programme of both thymic and peripheral Tregs, controlling a core of genes involved with immune signaling, and separately in the periphery, cell cycle progression. Last, the immune suppressive function of peripheral cRel–/– tTregs is diminished in a lymphopenic model of T cell proliferation and is associated with decreased stability of Foxp3 expression. Collectively, we show that c-Rel is a transcriptional regulator that controls multiple aspects of Treg development, differentiation, and function via distinct mechanisms.

AB - The NF-κB transcription factor c-Rel is a critical regulator of Treg ontogeny, controlling multiple points of the stepwise developmental pathway. Here, we found that the thymic Treg defect in c-Rel-deficient (cRel–/–) mice is quantitative, not qualitative, based on analyses of TCR repertoire and TCR signaling strength. However, these parameters are altered in the thymic Treg-precursor population, which is also markedly diminished in cRel–/– mice. Moreover, c-Rel governs the transcriptional programme of both thymic and peripheral Tregs, controlling a core of genes involved with immune signaling, and separately in the periphery, cell cycle progression. Last, the immune suppressive function of peripheral cRel–/– tTregs is diminished in a lymphopenic model of T cell proliferation and is associated with decreased stability of Foxp3 expression. Collectively, we show that c-Rel is a transcriptional regulator that controls multiple aspects of Treg development, differentiation, and function via distinct mechanisms.

KW - Cell cycle progression

KW - Regulatory T cells

KW - Thymic development

KW - c-Rel

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DO - 10.1002/eji.202048900

M3 - Article

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AN - SCOPUS:85106733891

SN - 0014-2980

VL - 51

SP - 2006

EP - 2026

JO - European Journal of Immunology

JF - European Journal of Immunology

IS - 8

ER -

c-Rel employs multiple mechanisms to promote the thymic development and peripheral function of regulatory T cells in mice

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Keywords

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