DOSE-RELATED MECHANISMS OF IMMUNOSUPPRESSION MEDIATED BY MURINE ANTI-CD3 MONOCLONAL ANTIBODY IN PANCREATIC ISLET CELL TRANSPLANTATION AND DELAYED-TYPE HYPERSENSITIVITY

Abstract

Although anti-CD3 mAb therapy is used extensively in clinical transplantation, the dose-related effects and mechanisms of action are not clearly defined. We have examined the dose-related effects of an antimurine CD3 mAb, 145–2C11, in pancreatic islet cell allograft and the delayed type hypersensitivity reaction models of T-cell-dependent immunity. Low-dose anti-CD3 therapy (0.5 μg/day) administered over several days mediated superficially equal, effective clinical immunosuppression as a single high-dose intravenous injection (400 μg). T cells harvested from animals treated with high-dose anti-CD3 were unresponsive to in vitro restimulation. In contrast, T cells isolated from low-dose treated animals retained in vitro proliferative capacity when re-stimulated with polyvalent anti-CD3 mAb. The terminal complement components were not required to support in vivo immunosuppression mediated by anti-CD3 mAb as C5 deficient mice were immunosuppressed by the administration of this mAb. In some pancreatic islet cell allograft recipients, permanent engraftment, but not tolerance, was achieved. Replacement of donor leukocytes produced acute rejection in hosts bearing long-term, well-accepted grafts. Prolonged anti-CD3 mAb treatment may provide sufficient time for replacement or inactivation of donor leukocytes.