Further studies of veto activity in rhesus monkey bone marrow in relation to allograft tolerance and chimerism

Infusing the DR-/dim fraction of bone marrow cells (BMC) from an allogeneic kidney donor into rabbit antithymocyte globulin-treated transplant recipients delivers a tolerogenic signal, leading to functional allograft tolerance in rhesus monkeys without additional drug therapy. Our updated results in an expanded series show a median 131-day graft survival of recipients given DR-/dim donor BMC with a 23% 1-year survival (P < 0.00001 vs. rabbit antithymocyte globulin controls). Removing DRbright cells from donor BMC appeared to have a significant effect (P < 0.05). We have further investigated the tolerogenic mechanism within the experimental framework of the veto hypothesis in this preclinical model. In limiting dilution assays, we demonstrated the donor specificity of clonal inactivation of CTL precursors (CTLp) after in vitro or in vivo exposure to DR-/dim donor BMC, confirming specific tolerance. Additionally, in vitro studies confirmed the allogeneic specificity of CTLp inactivation in 3-cell MLR assays; minimal bystander effects were seen on normal CTLp responses to third party stimulator cells, while CTLp responses to the BMC donor's cells were abrogated in the same cultures. BMC mediating the veto effect were found to be resistant to L-leucyl-L-leucine methyl ester (Leu-leu-OMe), which excluded BMC-mediated cytotoxicity by NK or lymphokine-activated killer cells, CTL, or activated macrophages. In contrast, veto activity was abolished if the BMC were pretreated with either high dose UV-B light irradiation, mitomycin, or gamma-irradiation, indicating that BMC contained a UV-B-sensitive precursor of the veto effector, and that a proliferative step separated the two. Irradiation of DR-/dim donor BMC or administration of cyclophosphamide after infusion of nonirradiated BMC prevented the tolerogenic effect. Only recipients given nonirradiated DR-/dim donor BMC demonstrated PBL chimerism, which associated with functional deletion of antidonor CTLp and duration of graft survival. The Leu-leu-OMe resistance and the other properties of the allogeneic monkey CD3- CD2+ CD8+ BMC subpopulation that exhibits tolerance-promoting activity in vitro and in vivo lead us to postulate that a donor BMC-derived precursor population, possibly a dendritic cell population, may induce allogeneic unresponsiveness in this model.