The search for strategies for induction of specific tolerance in adult animals that will avoid long-term host immunosuppression with its complications has led to the deliberate introduction of alloantigens (Ag) into the adult thymus. However, pretransplant intrathymic (IT) inoculation of alloantigens (Ag), which has consistently induced tolerance to vascularized and neovascularized allografts in adult rodents, has limited future clinical application. To overcome the practical limitations of pretreatment, we have examined in the Lewis-to-WF combination the effect on graft survival of either simultaneous or posttransplant IT inoculation of soluble Ag obtained from 3M KCl extracts of donor T cells in transiently rabbit antirat lymphocyte serum (ALS) immunosuppressed recipients. While IT injection of 2.0 mg soluble Ag alone on day of cardiac transplantation caused acute graft rejection, IT inoculation of 2.0 mg Ag combined with 1 ml ALS transient immunosuppression of the recipient on day 0 led to long-term graft survival (> 250 days) in 5/6 recipients. Similarly, IT injection of soluble Ag on posttransplant day 3 or day 7 combined with 1 ml ALS on day 0 relative to allografting resulted in permanent graft survival in all recipients. In contrast, intravenous injection of soluble Ag combined with ALS immunosuppression on day 0 led to acute graft rejection that paralleled the rejection seen in ALS treated controls. Third-party Brown Norway (BN) hearts were acutely rejected in similarly prepared recipients of IT-Ag, thus confirming donor specificity. The long-term unresponsive Wistar-Furth (WF) recipients challenged 100 days after cardiac transplantation with a second-set graft specifically and permanently (> 100 days) accepted the second-set donor cardiac allografts, thus demonstrating donor-specific tolerance. In similar experiments, IT inoculation of 2 mg soluble Ag combined with transient ALS immunosuppression resulted in donor-specific unresponsiveness to islets in the same rat combination of Lewis-to-WF. Our findings suggest that this new strategy of immunologic manipulation of the adult thymus offers a safe, effective, and reproducible method of inducing tolerance that may have therapeutic application in cadaveric organ transplantation.