IFNγ Signaling Endows DCs with the Capacity to Control Type I Inflammation during Parasitic Infection through Promoting T-bet+ Regulatory T Cells.

Hyang-Mi Lee; Anne Fleige; Ruth Forman; Sunglim Cho; Aly Azeem Khan; Ling-Li Lin; Duc T Nguyen; Aisling O'Hara-Hall; Zhinan Yin; Christopher A Hunter; Werner Muller; Li-Fan Lu

doi:10.1371/journal.ppat.1004635

IFNγ Signaling Endows DCs with the Capacity to Control Type I Inflammation during Parasitic Infection through Promoting T-bet+ Regulatory T Cells.

Hyang-Mi Lee, Anne Fleige, Ruth Forman, Sunglim Cho, Aly Azeem Khan, Ling-Li Lin, Duc T Nguyen, Aisling O'Hara-Hall, Zhinan Yin, Christopher A Hunter, Werner Muller, Li-Fan Lu

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

Abstract

IFNγ signaling drives dendritic cells (DCs) to promote type I T cell (Th1) immunity. Here, we show that activation of DCs by IFNγ is equally crucial for the differentiation of a population of T-bet+ regulatory T (Treg) cells specialized to inhibit Th1 immune responses. Conditional deletion of IFNγ receptor in DCs but not in Treg cells resulted in a severe defect in this specific Treg cell subset, leading to exacerbated immune pathology during parasitic infections. Mechanistically, IFNγ-unresponsive DCs failed to produce sufficient amount of IL-27, a cytokine required for optimal T-bet induction in Treg cells. Thus, IFNγ signalling endows DCs with the ability to efficiently control a specific type of T cell immunity through promoting a corresponding Treg cell population.

Original language	English
Journal	PL o S Pathogens
Volume	11
Issue number	2
DOIs	https://doi.org/10.1371/journal.ppat.1004635
Publication status	Published - Feb 2015

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Lee, H.-M., Fleige, A., Forman, R., Cho, S., Khan, A. A., Lin, L.-L., Nguyen, D. T., O'Hara-Hall, A., Yin, Z., Hunter, C. A., Muller, W., & Lu, L.-F. (2015). IFNγ Signaling Endows DCs with the Capacity to Control Type I Inflammation during Parasitic Infection through Promoting T-bet+ Regulatory T Cells. PL o S Pathogens, 11(2). https://doi.org/10.1371/journal.ppat.1004635

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abstract = "IFNγ signaling drives dendritic cells (DCs) to promote type I T cell (Th1) immunity. Here, we show that activation of DCs by IFNγ is equally crucial for the differentiation of a population of T-bet+ regulatory T (Treg) cells specialized to inhibit Th1 immune responses. Conditional deletion of IFNγ receptor in DCs but not in Treg cells resulted in a severe defect in this specific Treg cell subset, leading to exacerbated immune pathology during parasitic infections. Mechanistically, IFNγ-unresponsive DCs failed to produce sufficient amount of IL-27, a cytokine required for optimal T-bet induction in Treg cells. Thus, IFNγ signalling endows DCs with the ability to efficiently control a specific type of T cell immunity through promoting a corresponding Treg cell population.",

author = "Hyang-Mi Lee and Anne Fleige and Ruth Forman and Sunglim Cho and Khan, {Aly Azeem} and Ling-Li Lin and Nguyen, {Duc T} and Aisling O'Hara-Hall and Zhinan Yin and Hunter, {Christopher A} and Werner Muller and Li-Fan Lu",

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AU - Fleige, Anne

AU - Forman, Ruth

AU - Cho, Sunglim

AU - Khan, Aly Azeem

AU - Lin, Ling-Li

AU - Nguyen, Duc T

AU - O'Hara-Hall, Aisling

AU - Yin, Zhinan

AU - Hunter, Christopher A

AU - Muller, Werner

AU - Lu, Li-Fan

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AB - IFNγ signaling drives dendritic cells (DCs) to promote type I T cell (Th1) immunity. Here, we show that activation of DCs by IFNγ is equally crucial for the differentiation of a population of T-bet+ regulatory T (Treg) cells specialized to inhibit Th1 immune responses. Conditional deletion of IFNγ receptor in DCs but not in Treg cells resulted in a severe defect in this specific Treg cell subset, leading to exacerbated immune pathology during parasitic infections. Mechanistically, IFNγ-unresponsive DCs failed to produce sufficient amount of IL-27, a cytokine required for optimal T-bet induction in Treg cells. Thus, IFNγ signalling endows DCs with the ability to efficiently control a specific type of T cell immunity through promoting a corresponding Treg cell population.

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IFNγ Signaling Endows DCs with the Capacity to Control Type I Inflammation during Parasitic Infection through Promoting T-bet+ Regulatory T Cells.

Abstract

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