DOCK8 regulates fitness and function of regulatory T cells through modulation of IL-2 signaling
Akhilesh K. Singh, Ahmet Eken, David Hagin, Khushbu Komal, Gauri Bhise, Azima Shaji, Tanvi Arkatkar, Shaun W. Jackson, Estelle Bettelli, Troy R. Torgerson, Mohamed Oukka
Akhilesh K. Singh, Ahmet Eken, David Hagin, Khushbu Komal, Gauri Bhise, Azima Shaji, Tanvi Arkatkar, Shaun W. Jackson, Estelle Bettelli, Troy R. Torgerson, Mohamed Oukka
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Research Article Immunology

DOCK8 regulates fitness and function of regulatory T cells through modulation of IL-2 signaling

Abstract

Foxp3+ Tregs possess potent immunosuppressive activity, which is critical for maintaining immune homeostasis and self-tolerance. Defects in Treg development or function result in inadvertent immune activation and autoimmunity. Despite recent advances in Treg biology, we still do not completely understand the molecular and cellular mechanisms governing the development and suppressive function of these cells. Here, we have demonstrated an essential role of the dedicator of cytokinesis 8 (DOCK8), guanine nucleotide exchange factors required for cytoskeleton rearrangement, cell migration, and immune cell survival in controlling Treg fitness and their function. Treg-specific DOCK8 deletion led to spontaneous multiorgan inflammation in mice due to uncontrolled T cell activation and production of proinflammatory cytokines. In addition, we show that DOCK8-deficient Tregs are defective in competitive fitness and in vivo suppressive function. Furthermore, DOCK8 controls IL-2 signaling, crucial for maintenance and competitive fitness of Tregs, via a STAT5-dependent manner. Our study provides potentially novel insights into the essential function of DOCK8 in Tregs and immune regulation, and it explains the autoimmune manifestations associated with DOCK8 deficiency.

Authors

Akhilesh K. Singh, Ahmet Eken, David Hagin, Khushbu Komal, Gauri Bhise, Azima Shaji, Tanvi Arkatkar, Shaun W. Jackson, Estelle Bettelli, Troy R. Torgerson, Mohamed Oukka

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Figure 2

DOCK8-deficient Tregs failed to control T cell activation.

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DOCK8-deficient Tregs failed to control T cell activation. (A and B) T c...
(A and B) T cells are activated in Foxp3CreDOCK8fl/fl mice. Spleen and lung samples from control and Foxp3CreDOCK8fl/fl mice were analyzed for the expression of CD44 and CD62L on CD25CD4+ or CD8+ T cells. (A) FACS plot and (B) quantification of the frequency of naive (CD44lowCD62Lhigh) versus effector/memory (CD44highCD62Llow) cells in the spleen and lung of control and Foxp3CreDOCK8fl/fl mice. Data represents at least 3 independent experiments with 4 mice per group. (CE) Spleen, LN, and lung cells were stimulated with 50 ng/ml PMA and 1 μg/ml Ionomycine in the presence of Golgi stop for 4 hours at 37°C in CO2 incubator; then, IL-17 and IFN-γ expressions in CD4+ T cells were analyzed by flow cytometry. (C) FACS plot, (D) frequency, and (E) absolute number of IL-17+ and/or IFN-γ+CD4+ T cells in the spleen, LN, and lung of control and Foxp3CreDOCK8fl/fl mice. Data represent at least 4 independent experiments with minimum of 3 mice per group. The data shown are the mean ± SD. Statistics were performed with Prism software by using t test. *P < 0.05, **P < 0.01, ***P < 0.001.