FoxA1 directs the lineage and immunosuppressive properties of a novel regulatory T cell population in EAE and MS

Research output: Contribution to journalJournal articleResearchpeer-review

Standard

FoxA1 directs the lineage and immunosuppressive properties of a novel regulatory T cell population in EAE and MS. / Liu, Yawei; Carlsson, Robert; Comabella, Manuel; Wang, Junyang; Kosicki, Michal Konrad; Carrion, Belinda; Hasan, Maruf; Wu, Xudong; Montalban, Xavier; Dziegiel, Morten Hanefeld; Sellebjerg, Finn; Sørensen, Per Soelberg; Helin, Kristian; Navikas, Shohreh.

In: Nature Medicine, 16.02.2014.

Research output: Contribution to journalJournal articleResearchpeer-review

Harvard

Liu, Y, Carlsson, R, Comabella, M, Wang, J, Kosicki, MK, Carrion, B, Hasan, M, Wu, X, Montalban, X, Dziegiel, MH, Sellebjerg, F, Sørensen, PS, Helin, K & Navikas, S 2014, 'FoxA1 directs the lineage and immunosuppressive properties of a novel regulatory T cell population in EAE and MS', Nature Medicine. https://doi.org/10.1038/nm.3485

APA

Liu, Y., Carlsson, R., Comabella, M., Wang, J., Kosicki, M. K., Carrion, B., Hasan, M., Wu, X., Montalban, X., Dziegiel, M. H., Sellebjerg, F., Sørensen, P. S., Helin, K., & Navikas, S. (2014). FoxA1 directs the lineage and immunosuppressive properties of a novel regulatory T cell population in EAE and MS. Nature Medicine. https://doi.org/10.1038/nm.3485

Vancouver

Liu Y, Carlsson R, Comabella M, Wang J, Kosicki MK, Carrion B et al. FoxA1 directs the lineage and immunosuppressive properties of a novel regulatory T cell population in EAE and MS. Nature Medicine. 2014 Feb 16. https://doi.org/10.1038/nm.3485

Author

Liu, Yawei ; Carlsson, Robert ; Comabella, Manuel ; Wang, Junyang ; Kosicki, Michal Konrad ; Carrion, Belinda ; Hasan, Maruf ; Wu, Xudong ; Montalban, Xavier ; Dziegiel, Morten Hanefeld ; Sellebjerg, Finn ; Sørensen, Per Soelberg ; Helin, Kristian ; Navikas, Shohreh. / FoxA1 directs the lineage and immunosuppressive properties of a novel regulatory T cell population in EAE and MS. In: Nature Medicine. 2014.

Bibtex

@article{46195d35a8904163a526e080a9d06c09,
title = "FoxA1 directs the lineage and immunosuppressive properties of a novel regulatory T cell population in EAE and MS",
abstract = "The defective generation or function of regulatory T (Treg) cells in autoimmune disease contributes to chronic inflammation and tissue injury. We report the identification of FoxA1 as a transcription factor in T cells that, after ectopic expression, confers suppressive properties in a newly identified Treg cell population, herein called FoxA1(+) Treg cells. FoxA1 bound to the Pdl1 promoter, inducing programmed cell death ligand 1 (Pd-l1) expression, which was essential for the FoxA1(+) Treg cells to kill activated T cells. FoxA1(+) Treg cells develop primarily in the central nervous system in response to autoimmune inflammation, have a distinct transcriptional profile and are CD4(+)FoxA1(+)CD47(+)CD69(+)PD-L1(hi)FoxP3(-). Adoptive transfer of stable FoxA1(+) Treg cells inhibited experimental autoimmune encephalomyelitis in a FoxA1-and Pd-l1-dependent manner. The development of FoxA1(+) Treg cells is induced by interferon-β (IFN-β) and requires T cell-intrinsic IFN-α/β receptor (Ifnar) signaling, as the frequency of FoxA1(+) Treg cells was reduced in Ifnb(-/-) and Ifnar(-/-) mice. In individuals with relapsing-remitting multiple sclerosis, clinical response to treatment with IFN-β was associated with an increased frequency of suppressive FoxA1(+) Treg cells in the blood. These findings suggest that FoxA1 is a lineage-specification factor that is induced by IFN-β and supports the differentiation and suppressive function of FoxA1(+) Treg cells.",
author = "Yawei Liu and Robert Carlsson and Manuel Comabella and Junyang Wang and Kosicki, {Michal Konrad} and Belinda Carrion and Maruf Hasan and Xudong Wu and Xavier Montalban and Dziegiel, {Morten Hanefeld} and Finn Sellebjerg and S{\o}rensen, {Per Soelberg} and Kristian Helin and Shohreh Navikas",
year = "2014",
month = feb,
day = "16",
doi = "10.1038/nm.3485",
language = "English",
journal = "Nature Medicine",
issn = "1078-8956",
publisher = "nature publishing group",

}

RIS

TY - JOUR

T1 - FoxA1 directs the lineage and immunosuppressive properties of a novel regulatory T cell population in EAE and MS

AU - Liu, Yawei

AU - Carlsson, Robert

AU - Comabella, Manuel

AU - Wang, Junyang

AU - Kosicki, Michal Konrad

AU - Carrion, Belinda

AU - Hasan, Maruf

AU - Wu, Xudong

AU - Montalban, Xavier

AU - Dziegiel, Morten Hanefeld

AU - Sellebjerg, Finn

AU - Sørensen, Per Soelberg

AU - Helin, Kristian

AU - Navikas, Shohreh

PY - 2014/2/16

Y1 - 2014/2/16

N2 - The defective generation or function of regulatory T (Treg) cells in autoimmune disease contributes to chronic inflammation and tissue injury. We report the identification of FoxA1 as a transcription factor in T cells that, after ectopic expression, confers suppressive properties in a newly identified Treg cell population, herein called FoxA1(+) Treg cells. FoxA1 bound to the Pdl1 promoter, inducing programmed cell death ligand 1 (Pd-l1) expression, which was essential for the FoxA1(+) Treg cells to kill activated T cells. FoxA1(+) Treg cells develop primarily in the central nervous system in response to autoimmune inflammation, have a distinct transcriptional profile and are CD4(+)FoxA1(+)CD47(+)CD69(+)PD-L1(hi)FoxP3(-). Adoptive transfer of stable FoxA1(+) Treg cells inhibited experimental autoimmune encephalomyelitis in a FoxA1-and Pd-l1-dependent manner. The development of FoxA1(+) Treg cells is induced by interferon-β (IFN-β) and requires T cell-intrinsic IFN-α/β receptor (Ifnar) signaling, as the frequency of FoxA1(+) Treg cells was reduced in Ifnb(-/-) and Ifnar(-/-) mice. In individuals with relapsing-remitting multiple sclerosis, clinical response to treatment with IFN-β was associated with an increased frequency of suppressive FoxA1(+) Treg cells in the blood. These findings suggest that FoxA1 is a lineage-specification factor that is induced by IFN-β and supports the differentiation and suppressive function of FoxA1(+) Treg cells.

AB - The defective generation or function of regulatory T (Treg) cells in autoimmune disease contributes to chronic inflammation and tissue injury. We report the identification of FoxA1 as a transcription factor in T cells that, after ectopic expression, confers suppressive properties in a newly identified Treg cell population, herein called FoxA1(+) Treg cells. FoxA1 bound to the Pdl1 promoter, inducing programmed cell death ligand 1 (Pd-l1) expression, which was essential for the FoxA1(+) Treg cells to kill activated T cells. FoxA1(+) Treg cells develop primarily in the central nervous system in response to autoimmune inflammation, have a distinct transcriptional profile and are CD4(+)FoxA1(+)CD47(+)CD69(+)PD-L1(hi)FoxP3(-). Adoptive transfer of stable FoxA1(+) Treg cells inhibited experimental autoimmune encephalomyelitis in a FoxA1-and Pd-l1-dependent manner. The development of FoxA1(+) Treg cells is induced by interferon-β (IFN-β) and requires T cell-intrinsic IFN-α/β receptor (Ifnar) signaling, as the frequency of FoxA1(+) Treg cells was reduced in Ifnb(-/-) and Ifnar(-/-) mice. In individuals with relapsing-remitting multiple sclerosis, clinical response to treatment with IFN-β was associated with an increased frequency of suppressive FoxA1(+) Treg cells in the blood. These findings suggest that FoxA1 is a lineage-specification factor that is induced by IFN-β and supports the differentiation and suppressive function of FoxA1(+) Treg cells.

UR - http://www.scopus.com/inward/record.url?eid=2-s2.0-84893690850&partnerID=8YFLogxK

U2 - 10.1038/nm.3485

DO - 10.1038/nm.3485

M3 - Journal article

C2 - 24531377

JO - Nature Medicine

JF - Nature Medicine

SN - 1078-8956

ER -

ID: 100826508