BACH2 represses effector programs to stabilize T reg-mediated immune homeostasis

Rahul Roychoudhuri; Kiyoshi Hirahara; Kambiz Mousavi; David Clever; Christopher A. Klebanoff; Michael Bonelli; Giuseppe Sciumè; Hossein Zare; Golnaz Vahedi; Barbara Dema; Zhiya Yu; Hui Liu; Hayato Takahashi; Mahadev Rao; Pawel Muranski; Joseph G. Crompton; George Punkosdy; Davide Bedognetti; Ena Wang; Victoria Hoffmann; Juan Rivera; Francesco M. Marincola; Atsushi Nakamura; Vittorio Sartorelli; Yuka Kanno; Luca Gattinoni; Akihiko Muto; Kazuhiko Igarashi; John J. O'Shea; Nicholas P. Restifo

doi:10.1038/nature12199

BACH2 represses effector programs to stabilize T reg-mediated immune homeostasis

Rahul Roychoudhuri, Kiyoshi Hirahara, Kambiz Mousavi, David Clever, Christopher A. Klebanoff, Michael Bonelli, Giuseppe Sciumè, Hossein Zare, Golnaz Vahedi, Barbara Dema, Zhiya Yu, Hui Liu, Hayato Takahashi, Mahadev Rao, Pawel Muranski, Joseph G. Crompton, George Punkosdy, Davide Bedognetti, Ena Wang, Victoria HoffmannJuan Rivera, Francesco M. Marincola, Atsushi Nakamura, Vittorio Sartorelli, Yuka Kanno, Luca Gattinoni, Akihiko Muto, Kazuhiko Igarashi, John J. O'Shea, Nicholas P. Restifo

MED - Medical Sciences

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

294 Citations (Scopus)

Abstract

Through their functional diversification, distinct lineages of CD4 + T cells can act to either drive or constrain immune-mediated pathology. Transcription factors are critical in the generation of cellular diversity, and negative regulators antagonistic to alternate fates often act in conjunction with positive regulators to stabilize lineage commitment. Genetic polymorphisms within a single locus encoding the transcription factor BACH2 are associated with numerous autoimmune and allergic diseases including asthma, Crohn's disease, coeliac disease, vitiligo, multiple sclerosis and type 1 diabetes. Although these associations point to a shared mechanism underlying susceptibility to diverse immune-mediated diseases, a function for BACH2 in the maintenance of immune homeostasis has not been established. Here, by studying mice in which the Bach2 gene is disrupted, we define BACH2 as a broad regulator of immune activation that stabilizes immunoregulatory capacity while repressing the differentiation programs of multiple effector lineages in CD4⁺ T cells. BACH2 was required for efficient formation of regulatory (T _reg) cells and consequently for suppression of lethal inflammation in a manner that was T_reg-cell-dependent. Assessment of the genome-wide function of BACH2, however, revealed that it represses genes associated with effector cell differentiation. Consequently, its absence during T_reg polarization resulted in inappropriate diversion to effector lineages. In addition, BACH2 constrained full effector differentiation within T_H 1, T_H 2 and T_H 17 cell lineages. These findings identify BACH2 as a key regulator of CD4⁺ T-cell differentiation that prevents inflammatory disease by controlling the balance between tolerance and immunity.

Original language	English
Pages (from-to)	506-510
Number of pages	5
Journal	Nature
Volume	498
Issue number	7455
DOIs	https://doi.org/10.1038/nature12199
Publication status	Published - 2013

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10.1038/nature12199

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Roychoudhuri, R., Hirahara, K., Mousavi, K., Clever, D., Klebanoff, C. A., Bonelli, M., Sciumè, G., Zare, H., Vahedi, G., Dema, B., Yu, Z., Liu, H., Takahashi, H., Rao, M., Muranski, P., Crompton, J. G., Punkosdy, G., Bedognetti, D., Wang, E., ... Restifo, N. P. (2013). BACH2 represses effector programs to stabilize T reg-mediated immune homeostasis. Nature, 498(7455), 506-510. https://doi.org/10.1038/nature12199

@article{32f0a37e899446289f7da76524fa3c8c,

title = "BACH2 represses effector programs to stabilize T reg-mediated immune homeostasis",

abstract = "Through their functional diversification, distinct lineages of CD4 + T cells can act to either drive or constrain immune-mediated pathology. Transcription factors are critical in the generation of cellular diversity, and negative regulators antagonistic to alternate fates often act in conjunction with positive regulators to stabilize lineage commitment. Genetic polymorphisms within a single locus encoding the transcription factor BACH2 are associated with numerous autoimmune and allergic diseases including asthma, Crohn's disease, coeliac disease, vitiligo, multiple sclerosis and type 1 diabetes. Although these associations point to a shared mechanism underlying susceptibility to diverse immune-mediated diseases, a function for BACH2 in the maintenance of immune homeostasis has not been established. Here, by studying mice in which the Bach2 gene is disrupted, we define BACH2 as a broad regulator of immune activation that stabilizes immunoregulatory capacity while repressing the differentiation programs of multiple effector lineages in CD4+ T cells. BACH2 was required for efficient formation of regulatory (T reg) cells and consequently for suppression of lethal inflammation in a manner that was Treg-cell-dependent. Assessment of the genome-wide function of BACH2, however, revealed that it represses genes associated with effector cell differentiation. Consequently, its absence during Treg polarization resulted in inappropriate diversion to effector lineages. In addition, BACH2 constrained full effector differentiation within TH 1, TH 2 and TH 17 cell lineages. These findings identify BACH2 as a key regulator of CD4+ T-cell differentiation that prevents inflammatory disease by controlling the balance between tolerance and immunity.",

author = "Rahul Roychoudhuri and Kiyoshi Hirahara and Kambiz Mousavi and David Clever and Klebanoff, {Christopher A.} and Michael Bonelli and Giuseppe Scium{\`e} and Hossein Zare and Golnaz Vahedi and Barbara Dema and Zhiya Yu and Hui Liu and Hayato Takahashi and Mahadev Rao and Pawel Muranski and Crompton, {Joseph G.} and George Punkosdy and Davide Bedognetti and Ena Wang and Victoria Hoffmann and Juan Rivera and Marincola, {Francesco M.} and Atsushi Nakamura and Vittorio Sartorelli and Yuka Kanno and Luca Gattinoni and Akihiko Muto and Kazuhiko Igarashi and O'Shea, {John J.} and Restifo, {Nicholas P.}",

note = "Funding Information: Acknowledgements This research was supported by the Intramural Research Programs of the National Cancer Institute (NIH) and the National Institute of Arthritis and Musculoskeletal and Skin Diseases, the NIH Center for Regenerative Medicine and the JSPS Research Fellowship for Japanese Biomedical and Behavioural Researchers at NIH. We thank D. N. Roychoudhuri, D. C. Macallan, G. E. Griffin, S.A. Rosenberg, M.S. Rao, Y. Ji, D. Palmer, M. Sukumar, G. Fabozzi, K. Hanada, E. Lugli, J. H. Pan and N.Van Panhuys for discussions, A. Mixon and S. Farid for cell sorting, G. McMullen for mouse handling and Y. Luo, Y. Wakabayashi, J. Zhu, G. Gutierrez-Cruz and H. W. Sun for help with sequencing and analysis.",

year = "2013",

doi = "10.1038/nature12199",

language = "English",

volume = "498",

pages = "506--510",

journal = "Nature",

issn = "0028-0836",

publisher = "Nature Publishing Group",

number = "7455",

}

Roychoudhuri, R, Hirahara, K, Mousavi, K, Clever, D, Klebanoff, CA, Bonelli, M, Sciumè, G, Zare, H, Vahedi, G, Dema, B, Yu, Z, Liu, H, Takahashi, H, Rao, M, Muranski, P, Crompton, JG, Punkosdy, G, Bedognetti, D, Wang, E, Hoffmann, V, Rivera, J, Marincola, FM, Nakamura, A, Sartorelli, V, Kanno, Y, Gattinoni, L, Muto, A , Igarashi, K, O'Shea, JJ & Restifo, NP 2013, 'BACH2 represses effector programs to stabilize T reg-mediated immune homeostasis', Nature, vol. 498, no. 7455, pp. 506-510. https://doi.org/10.1038/nature12199

TY - JOUR

T1 - BACH2 represses effector programs to stabilize T reg-mediated immune homeostasis

AU - Roychoudhuri, Rahul

AU - Hirahara, Kiyoshi

AU - Mousavi, Kambiz

AU - Clever, David

AU - Klebanoff, Christopher A.

AU - Bonelli, Michael

AU - Sciumè, Giuseppe

AU - Zare, Hossein

AU - Vahedi, Golnaz

AU - Dema, Barbara

AU - Yu, Zhiya

AU - Liu, Hui

AU - Takahashi, Hayato

AU - Rao, Mahadev

AU - Muranski, Pawel

AU - Crompton, Joseph G.

AU - Punkosdy, George

AU - Bedognetti, Davide

AU - Wang, Ena

AU - Hoffmann, Victoria

AU - Rivera, Juan

AU - Marincola, Francesco M.

AU - Nakamura, Atsushi

AU - Sartorelli, Vittorio

AU - Kanno, Yuka

AU - Gattinoni, Luca

AU - Muto, Akihiko

AU - Igarashi, Kazuhiko

AU - O'Shea, John J.

AU - Restifo, Nicholas P.

N1 - Funding Information: Acknowledgements This research was supported by the Intramural Research Programs of the National Cancer Institute (NIH) and the National Institute of Arthritis and Musculoskeletal and Skin Diseases, the NIH Center for Regenerative Medicine and the JSPS Research Fellowship for Japanese Biomedical and Behavioural Researchers at NIH. We thank D. N. Roychoudhuri, D. C. Macallan, G. E. Griffin, S.A. Rosenberg, M.S. Rao, Y. Ji, D. Palmer, M. Sukumar, G. Fabozzi, K. Hanada, E. Lugli, J. H. Pan and N.Van Panhuys for discussions, A. Mixon and S. Farid for cell sorting, G. McMullen for mouse handling and Y. Luo, Y. Wakabayashi, J. Zhu, G. Gutierrez-Cruz and H. W. Sun for help with sequencing and analysis.

PY - 2013

Y1 - 2013

N2 - Through their functional diversification, distinct lineages of CD4 + T cells can act to either drive or constrain immune-mediated pathology. Transcription factors are critical in the generation of cellular diversity, and negative regulators antagonistic to alternate fates often act in conjunction with positive regulators to stabilize lineage commitment. Genetic polymorphisms within a single locus encoding the transcription factor BACH2 are associated with numerous autoimmune and allergic diseases including asthma, Crohn's disease, coeliac disease, vitiligo, multiple sclerosis and type 1 diabetes. Although these associations point to a shared mechanism underlying susceptibility to diverse immune-mediated diseases, a function for BACH2 in the maintenance of immune homeostasis has not been established. Here, by studying mice in which the Bach2 gene is disrupted, we define BACH2 as a broad regulator of immune activation that stabilizes immunoregulatory capacity while repressing the differentiation programs of multiple effector lineages in CD4+ T cells. BACH2 was required for efficient formation of regulatory (T reg) cells and consequently for suppression of lethal inflammation in a manner that was Treg-cell-dependent. Assessment of the genome-wide function of BACH2, however, revealed that it represses genes associated with effector cell differentiation. Consequently, its absence during Treg polarization resulted in inappropriate diversion to effector lineages. In addition, BACH2 constrained full effector differentiation within TH 1, TH 2 and TH 17 cell lineages. These findings identify BACH2 as a key regulator of CD4+ T-cell differentiation that prevents inflammatory disease by controlling the balance between tolerance and immunity.

AB - Through their functional diversification, distinct lineages of CD4 + T cells can act to either drive or constrain immune-mediated pathology. Transcription factors are critical in the generation of cellular diversity, and negative regulators antagonistic to alternate fates often act in conjunction with positive regulators to stabilize lineage commitment. Genetic polymorphisms within a single locus encoding the transcription factor BACH2 are associated with numerous autoimmune and allergic diseases including asthma, Crohn's disease, coeliac disease, vitiligo, multiple sclerosis and type 1 diabetes. Although these associations point to a shared mechanism underlying susceptibility to diverse immune-mediated diseases, a function for BACH2 in the maintenance of immune homeostasis has not been established. Here, by studying mice in which the Bach2 gene is disrupted, we define BACH2 as a broad regulator of immune activation that stabilizes immunoregulatory capacity while repressing the differentiation programs of multiple effector lineages in CD4+ T cells. BACH2 was required for efficient formation of regulatory (T reg) cells and consequently for suppression of lethal inflammation in a manner that was Treg-cell-dependent. Assessment of the genome-wide function of BACH2, however, revealed that it represses genes associated with effector cell differentiation. Consequently, its absence during Treg polarization resulted in inappropriate diversion to effector lineages. In addition, BACH2 constrained full effector differentiation within TH 1, TH 2 and TH 17 cell lineages. These findings identify BACH2 as a key regulator of CD4+ T-cell differentiation that prevents inflammatory disease by controlling the balance between tolerance and immunity.

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U2 - 10.1038/nature12199

DO - 10.1038/nature12199

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AN - SCOPUS:84879685794

SN - 0028-0836

VL - 498

SP - 506

EP - 510

JO - Nature

JF - Nature

IS - 7455

ER -

BACH2 represses effector programs to stabilize T reg-mediated immune homeostasis

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