Abstract

Abstract Alopecia areata (AA) is an autoimmune disease with a 2% lifetime incidence. AA presents as hair loss and is characterized histologically by the presence of CD4 and CD8 T cells surrounding the hair bulb. Although CD4 T cells comprise a majority of the cellular infiltrate, little is known about the contribution of this population to disease pathogenesis. An emerging animal model of AA involves adoptive transfer of in vitro activated and expanded bulk skin draining lymph node (SDLN) cells from AA mice, resulting in the induction of disease in recipient mice. The objective of this study was to investigate the mechanisms by which those cells transfer disease. Expanded bulk SDLN cells overwhelmingly consisted of CD3+ T cells, including both CD8 and CD4 T cells. To address whether these T cell populations could separately induce AA, we first sorted CD8 T cells from the SDLNs of AA mice and found these cells potently induced disease in recipient mice. Surprisingly, isolated CD4 T cells from AA mice also had a robust capacity to induce disease, and they did so more efficiently than CD4 T cells from unaffected (UA) mice. High dimensional flow cytometric analysis of the SDLNs indicated that an enhanced number of CD4 T cells in AA mice exhibited an effector-like phenotype. Development of AA following transfer of expanded CD4 T cells relied on the presence of endogenous CD8 T cells and host responsiveness to IFN-γ, but, in contrast, loss of IL-17 signaling appeared to have no effect. Together, these data suggest that activated CD4 T-helper type 1 effector cells contribute to the activation of CD8 T cells and the subsequent attack of the hair follicle. Further studies are needed to further define the specific mechanisms by which CD4 T cells contribute to the development of AA. Dept of VA (I01BX004907), NIH/NIAMS (R01AR077194, K08AR069111, T32AI007485)

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