Donor-specific tolerance induced by bone marrow transplantation (BMT) would allow organ allografting without chronic immunosuppressive therapy. However, the toxicity¹ of conditioning regimens used to achieve marrow engraftment has precluded the clinical use of BMT for tolerance induction. We have developed a BMT strategy that achieves alloengraftment without toxic or myelosuppressive host conditioning. B6 mice received depleting anti-CD4 and anti-CD8 monoclonal antibodies, local thymic irradiation, and a high-dose (174 × 106) of major histocompatibility (MHC)-mismatched B10.A bone marrow cells (BMCs) divided over days 0 through 4. High levels of donor cells were observed among white blood cells (WBCs) of all lineages. Permanent, multilineage mixed chimerism; donor-specific skin-graft tolerance; and in vitro tolerance were observed in most animals. Large numbers of donor class II^high cells were detected in thymuses of long-term chimeras, and their presence was associated with intrathymic deletion of donor-reactive host thymocytes. The treatment was not associated with significant myelosuppression, toxicity, or graft-versus-host disease (GVHD). Thus, high levels of allogeneic stem-cell engraftment can be achieved without myelosuppressive host conditioning. As stem-cell mobilization² and in vitro culture techniques³ have increased the feasibility of administering high doses of hematopoietic cells to humans, this approach brings hematopoietic cell transplantation closer to clinical use for the induction of central deletional T-cell tolerance.