| Abstract: | Understanding the mechanisms of T cell homeostatic expansion is crucial for clinical applications of lymphoablative therapies. We previously established that T cell recovery in mouse heart allograft recipients treated with anti‐thymocyte globulin (mATG) critically depends on B cells and is mediated by B cell–derived soluble factors. B cell production of interleukin (IL)‐1β and IL‐6 is markedly upregulated after heart allotransplantation and lymphoablation. Neutralizing IL‐1β or IL‐6 with mAb or the use of recipients lacking mature IL‐1β, IL‐6, IL‐1R, MyD88, or IL‐6R impair CD4+ and CD8+ T cell recovery and significantly enhance the graft‐prolonging efficacy of lymphoablation. Adoptive co‐transfer experiments demonstrate a direct effect of IL‐6 but not IL‐1β on T lymphocytes. Furthermore, B cells incapable of IL‐1β or IL‐6 production have diminished capacity to mediate T cell reconstitution and initiate heart allograft rejection upon adoptive transfer into mATG treated B cell deficient recipients. These findings reveal the essential role of B cell–derived IL‐1β and IL‐6 during homeostatic T cell expansion in a clinically relevant model of lymphoablation. |
