Simultaneous transplantation of hematopoietic stem cells and a vascularized composite allograft leads to tolerance.

Abstract

We have previously demonstrated that tolerance to a vascularized composite allograft (VCA) can be achieved after the establishment of mixed chimerism. We test the hypothesis that tolerance to a VCA in our dog leukocyte antigen-matched canine model is not dependent on the previous establishment of mixed chimerism and can be induced coincident with hematopoietic cell transplantation (HCT). Eight dog leukocyte antigen-matched, minor antigen mismatched dogs received 200 cGy of radiation and a VCA transplant. Four dogs received donor bone marrow at the time of VCA transplantation (group 1), whereas a second group of four dogs did not (group 2). All recipients received a limited course of postgrafting immunosuppression. All dogs that received HCT and VCA were given donor, third-party, and autologous skin grafts. All group 1 recipients were tolerant to their VCA (>62 weeks). Three of the four dogs in group 2 rejected their VCA transplants after the cessation of immunosuppression. Biopsies obtained from the muscle and skin of VCA from group 1 showed few infiltrating cells compared with extensive infiltrates in biopsies of VCA from group 2. Compared with autologous skin and muscle, elevated levels of CD3+ FoxP3+ T-regulatory cells were found in the skin and muscle obtained from the VCA of HCT recipients. All group 1 animals were tolerant to their donor skin graft and promptly rejected the third-party skin grafts. These data demonstrated that donor-specific tolerance to all components of the VCA can be established through simultaneous nonmyeloablative allogeneic HCT and VCA transplantation protocol.