The Immunobiology of Inductive Anti‐CD40L Therapy in Transplantation: Allograft Acceptance is Not Dependent Upon the Deletion of Graft‐Reactive T Cells

CD40–CD40L costimulatory interactions are crucial for allograft rejection, in that treatment with anti‐CD40L mAb markedly prolongs allograft survival in several systems. Recent reports indicate that costimulatory blockade results in deletion of graft‐reactive cells, which leads to allograft tolerance. To assess immunologic parameters that were influenced by inductive CD40–CD40L blockade, cardiac allograft recipients were treated with multiple doses of the anti‐CD40L mAb MR1, which was remarkably effective at prolonging allograft survival. Acute allograft rejection responses such as IL‐2 producing helper cell priming, Th1 priming, and alloantibody production were abrogated by anti‐CD40L treatment. Interestingly, the spleens of mice bearing long‐term cardiac allografts following inductive anti‐CD40L treatment retained precursor donor alloantigen‐reactive CTL, IL‐2 producing helper cells, and Th1 in numbers comparable to those observed in naïve mice. These mice retained the ability to reject donor‐strain skin allografts, but were incapable of rejecting the original cardiac allograft, or a second donor‐strain cardiac allograft. Further, differentiated effector cells were incapable of mediating rejection following adoptive transfer into mice bearing long‐term allografts, suggesting that regulatory cell function, rather than effector cell deletion was responsible for long‐term graft acceptance. Collectively, these data demonstrate that inductive CD40–CD40L blockade does not result in the deletion of graft‐reactive T cells, but induces the maintenance of these cells in a quiescent precursor state. They further point to a tissue specificity of this hyporesponsiveness, suggesting that not all donor alloantigen‐reactive cells are subject to this regulation.