We investigated the capacity of CD25+ T regulatory cells (Treg) to modulate T cell responses to nickel, a common cause of allergic contact dermatitis. CD4+ T cells isolated from the peripheral blood of six healthy, nonallergic individuals showed a limited capacity to proliferate in response to nickel in vitro, but responsiveness was strongly augmented (mean increment±SD, 240±60%) when cells were depleted of CD25+ Treg. Although CD25+ Treg were anergic to nickel, a small percentage up-regulated membrane CTLA-4 upon nickel exposure. CD25+ Treg strongly and dose-dependently inhibited nickel-specific activation of CD25− T lymphocytes in coculture experiments in a cytokine-independent, but cell-to-cell contact-dependent, manner. Approximately 30% of circulating CD25+ Treg expressed the cutaneous lymphocyte-associated Ag (CLA), and CLA+ CD25+ Treg were more efficient than CLA− CD25+ cells in suppressing nickel responsiveness of CD25− T cells. The site of a negative patch test in response to nickel showed an infiltrate of CD4+ CLA+ cells and CD25+ cells, which accounted for∼ 20% of the total T cells isolated from the tissue. Skin-derived T cells suppressed nickel-specific responses of peripheral blood CD25− T cells. In addition, 60±14% of peripheral blood CD25+ Treg expressed the chemokine receptor CCR7 and strongly inhibited naive T cell activation in response to nickel. Finally, CD25+ T cells isolated from peripheral blood of nickel-allergic patients showed a limited or absent capacity to suppress metal-specific CD4+ and CD8+ T cell responses. The results indicates that in healthy individuals CD25+ Treg can control the activation of both naive and effector nickel-specific T cells.