Induction of immunologic tolerance for allogeneic hematopoietic cell transplantation

Abstract

The ability to achieve complete hematopoietic engraftment in the allogeneic setting without intensive myeloablative chemotherapy will have a profound effect on the practice of allogeneic hematopoietic cell transplantation (HCT). Novel methods to induce antigen-specific T-cell tolerance provide promise to ensure engraftment and reduce GVHD without producing generalized and other toxicities caused by myeloablative conditioning regimens. Compelling experimental evidence indicates that the antigen receptors on T-lymphocytes have dual potential to transmit crucial activation signals for initiating immune responses and to discharge equally potent inactivating signals to abort or inhibit immune responses. Many events impact on this fundamental decision-making process and one of the great challenges for modern immunology is to decipher the molecular wiring that integrates and converts the extrinsic and intrinsic variables into positive or negative cellular responses termed immunity and anergy, respectively. Our currently expanding understanding of the biochemical and molecular basis of T-cell anergy provides great promise to improve our ability to design novel clinical therapeutic approaches in order to induce antigen-specific tolerance in vivo. Importantly, strategies now exist to segregate graft versus tumor (GVT) effects from GVHD. Therefore, achievement of limited and specific tolerance to host alloantigens by selectively inactivating the indicated subsets of alloantigen-specific T-lymphocytes will prevent GVHD but retain the GVT effect of the graft. Such treatment approaches will expand the donor pool, because they will allow transplantation between individuals with increasing human leukocyte antigen (HLA) disparity, enable reduction of the need for non-specific immunosuppression, and reduce the risk of opportunistic infections and relapse of leukemia.