Foxp3(+)CD4(+) regulatory T cells (Treg) have a crucial role in controlling CD4(+) T-cell activation, proliferation, and effector function. However, the molecular mechanisms regulating Treg function remain poorly understood. Here we assessed the role of IL-7, a key cytokine regulating T-cell homeostasis, in suppressor capacity of Treg. Using a skin allograft model in which transplant acceptance is controlled by the number of transferred Treg, we find that Treg impair the proliferation of allogeneic CD4(+) T cells, decrease production of IFNγ by effector T cells, and prevent early and increase late IL-7 induction by lymph node stromal cells. Increased IL-7 availability enhanced Treg survival, stabilized Treg molecular signature, enhanced surface IL-2Rα expression, and improved IL-2 binding of Treg, which diminished proliferation of alloreactive CD4(+) T cells. Sequestration of IL-7 or impairment of IL-7R signaling after allograft transplantation abolished Treg-mediated tolerance by limiting their suppressive capacity. Aged Il7rα-ΔTreg mice displayed mild symptoms of autoimmunity correlating with impaired expansion of effector Treg in response to IL-2. Thus, IL-7R signaling on Treg supports the functional activity of effector Treg by increasing their IL-2 sensitivity in the lymph node during peripheral and allograft tolerance.
Keywords: IL-2; IL-7; IL-7R; regulatory T cell; skin transplantation.