DOCK8 enforces immunological tolerance by promoting IL-2 signaling and immune synapse formation in Tregs
Erin Janssen, Sudha Kumari, Mira Tohme, Sumana Ullas, Victor Barrera, Jeroen M.J. Tas, Marcela Castillo-Rama, Roderick T. Bronson, Shariq M. Usmani, Darrell J. Irvine, Thorsten R. Mempel, Raif S. Geha
Erin Janssen, Sudha Kumari, Mira Tohme, Sumana Ullas, Victor Barrera, Jeroen M.J. Tas, Marcela Castillo-Rama, Roderick T. Bronson, Shariq M. Usmani, Darrell J. Irvine, Thorsten R. Mempel, Raif S. Geha
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Research Article Immunology

DOCK8 enforces immunological tolerance by promoting IL-2 signaling and immune synapse formation in Tregs

Abstract

Patients deficient in the guanine nucleotide exchange factor DOCK8 have decreased numbers and impaired in vitro function of Tregs and make autoantibodies, but they seldom develop autoimmunity. We show that, similarly, Dock8–/– mice have decreased numbers and impaired in vitro function of Tregs but do not develop autoimmunity. In contrast, mice with selective DOCK8 deficiency in Tregs develop lymphoproliferation, autoantibodies, and gastrointestinal inflammation, despite a normal percentage and in vitro function of Tregs, suggesting that deficient T effector cell function might protect DOCK8-deficient patients from autoimmunity. We demonstrate that DOCK8 associates with STAT5 and is important for IL-2–driven STAT5 phosphorylation in Tregs. DOCK8 localizes within the lamellar actin ring of the Treg immune synapse (IS). Dock8–/– Tregs have abnormal TCR-driven actin dynamics, decreased adhesiveness, an altered gene expression profile, an unstable IS with decreased recruitment of signaling molecules, and impaired transendocytosis of the costimulatory molecule CD86. These data suggest that DOCK8 enforces immunological tolerance by promoting IL-2 signaling, TCR-driven actin dynamics, and the IS in Tregs.

Authors

Erin Janssen, Sudha Kumari, Mira Tohme, Sumana Ullas, Victor Barrera, Jeroen M.J. Tas, Marcela Castillo-Rama, Roderick T. Bronson, Shariq M. Usmani, Darrell J. Irvine, Thorsten R. Mempel, Raif S. Geha

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Figure 5

DOCK8-deficient Tregs have decreased IL-2-driven STAT5 phosphorylation, and DOCK8 associated with STAT5.

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DOCK8-deficient Tregs have decreased IL-2-driven STAT5 phosphorylation, ...
(A) Representative FACS analysis of pSTAT5 staining (left) and percentage of pSTAT5+ cells (right) in splenic CD4+YFP+ Tregs from Foxp3YFP–Cre/Dock8flox/flox mice and Foxp3YFP–Cre controls stimulated for 15 minutes with 10 ng/ml mouse IL-2. (B) Relative pSTAT5 content in CD4+FOXP3+YFP and CD4+FOXP3+YFP+ Tregs from Foxp3YFP–Cre/+/Dock8flox/flox female mice and Foxp3YFP–Cre/+ controls at baseline and following stimulation with increasing concentrations of IL-2 for 15 minutes. The graph plots the relative pSTAT5/STAT5 MFI ratio normalized to the Foxp3YFP–Cre/+ YFP Treg baseline ratio. (C) Representative immunoblot of STAT5, pSTAT5, and DOCK8 in DOCK8 immunoprecipitates and cell lysates from WT T cells, and quantification of 4 individual experiments, showing the ratio of immunoprecipitated STAT5/DOCK8. Results were normalized to media alone samples. (D) Representative immunoblot of STAT5, pSTAT5, and DOCK8 in STAT5 immunoprecipitates and cell lysates from WT T cells, and quantification of 3 individual experiments, showing the ratio of immunoprecipitated DOCK8/STAT5. Results were normalized to media-alone samples. Results in A and B are representative of 3 independent experiments using 2–3 mice per group in each. Error bars represent the mean and SEM. Significance was determined by unpaired t test in A, C, and D, while ANOVA was used to compare the curves in B. ns P > 0.05, ***P < 0.001.