Wiskott-Aldrich syndrome protein is required for regulatory T cell homeostasis
Stephanie Humblet-Baron, Blythe Sather, Stephanie Anover, Shirly Becker-Herman, Debora J. Kasprowicz, Socheath Khim, Thuc Nguyen, Kelly Hudkins-Loya, Charles E. Alpers, Steve F. Ziegler, Hans Ochs, Troy Torgerson, Daniel J. Campbell, David J. Rawlings
Stephanie Humblet-Baron, Blythe Sather, Stephanie Anover, Shirly Becker-Herman, Debora J. Kasprowicz, Socheath Khim, Thuc Nguyen, Kelly Hudkins-Loya, Charles E. Alpers, Steve F. Ziegler, Hans Ochs, Troy Torgerson, Daniel J. Campbell, David J. Rawlings
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Research Article Immunology

Wiskott-Aldrich syndrome protein is required for regulatory T cell homeostasis

Abstract

Wiskott-Aldrich syndrome protein (WASp) is essential for optimal T cell activation. Patients with WAS exhibit both immunodeficiency and a marked susceptibility to systemic autoimmunity. We investigated whether alterations in Treg function might explain these paradoxical observations. While WASp-deficient (WASp–/–) mice exhibited normal thymic Treg generation, the competitive fitness of peripheral Tregs was severely compromised. The total percentage of forkhead box P3–positive (Foxp3+) Tregs among CD4+ T cells was reduced, and WASp–/– Tregs were rapidly outcompeted by WASp+ Tregs in vivo. These findings correlated with reduced expression of markers associated with self-antigen–driven peripheral Treg activation and homing to inflamed tissue. Consistent with these findings, WASp–/– Tregs showed a reduced ability to control aberrant T cell activation and autoimmune pathology in Foxp3–/–Scurfy (sf) mice. Finally, WASp+ Tregs exhibited a marked selective advantage in vivo in a WAS patient with a spontaneous revertant mutation, indicating that altered Treg fitness likely explains the autoimmune features in human WAS.

Authors

Stephanie Humblet-Baron, Blythe Sather, Stephanie Anover, Shirly Becker-Herman, Debora J. Kasprowicz, Socheath Khim, Thuc Nguyen, Kelly Hudkins-Loya, Charles E. Alpers, Steve F. Ziegler, Hans Ochs, Troy Torgerson, Daniel J. Campbell, David J. Rawlings

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Figure 4

WASp is not required for generation of Tregs within the thymus.

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WASp is not required for generation of Tregs within the thymus. (A) WASp...
(A) WASp is not required for the production of peripheral Tregs. Peripheral LN cells from WT or WASp–/– animals were stained simultaneously for CD4, CD25, and Foxp3 and evaluated by flow cytometry. Note that Foxp3+ Tregs are present in WASp–/– mice albeit at a slightly decreased percentage. (B) WASp–/– and WT mice have a similar percentage of Tregs (CD4+ CD25+Foxp3+) within the CD4+ SP thymic population. Both 6- and 16-week-old WT and WASp–/– C57BL/6 mice (n = 5 for each age and strain) were evaluated. (C) The selective advantage of WASp+ T cells is not manifest in the thymus. The percentage of WASp+ cells was evaluated within various thymic cell subsets in 6- to 8-week-old WASp+/– heterozygous female carriers (C57BL/6 strain) (n = 5). Error bars show SD. Relative WASp expression was not significantly different among any subset evaluated. DN, CD4CD8 thymocytes. Representative data from 1 of at least 3 experiments are shown.