Fine‐tuning of antigen‐specific immune responses by regulatory T cells activated via antigen recognition–independent and humoral factor–dependent mechanisms

CD4 + CD25 + Foxp3 + regulatory T cells (Tregs) are highly sensitive to IL‐2, one of the many cytokines produced during immune responses, for their development, survival and functions. Although the effects of IL‐2 administration on Tregs in vivo are well characterized, the effects on Tregs elicited by IL‐2 produced during an immune response have not been elucidated. Hence, in this study, Treg behaviour during IL‐2–producing immune responses was explored using in vivo and in vitro murine systems. The use of murine mixed lymphocyte culture (MLC) revealed that a large proportion of Tregs increased in size, accompanied by both cell death and proliferation status. Further, these large Tregs, which were found to not recognize specific antigens, were observed in MLCs as being functionally activated by various cytokines, including IL‐2, produced by antigen‐specific T cells. This ‘bystander Treg activation’ was also observed in mice with graft‐versus‐host reactions (GvHRs). Alternatively, effector cells from Treg‐depleted MLCs exhibited lower antigen‐specific responses or higher cross‐reactivity as compared to control MLCs with Tregs. Taken together, these results suggest that Tregs are activated by cytokines, mainly IL‐2, released from T cells that are activated by a specific antigen. Subsequently, these activated bystander Tregs contribute to the fine‐tuning of highly antigen‐specific immune responses.