It is an urgent need to induce and keep the donor-specific immune tolerance without affecting the function of normal immune defense and immune surveillance in clinical organ transplantation. Large number of studies showed that both the establishment of donor-recipient chimerism and the application of antibodies or drugs could obtain the donor-specific immune tolerance in animal transplantation model. However, the former as treatment of clinical practice has a poor feasibility, the latter has a very low success rate in clinical organ transplantation. There is a group of naturally occurring CD4(+)CD25(+) regulatory T cells (Tregs) that mediate immune tolerance by suppressing alloreactive T cells in vivo. These cells are unable to curb the occurrence of allograft rejection owing their low content. And donor-specific Tregs amplified in vitro alone can not induce donor-specific immune tolerance for recipient. Rapamycin (RPM) as a proliferation signal inhibitor, studies have shown it can effectively inhibit allograft rejection and maybe contribute to induction of immune tolerance. But there exist still many dose-dependent adverse reactions which could prevent the establishment of immune tolerance and reduce the life quality of recipients in the clinical application of RPM. Therefore, we speculate a small amount of RPM combined with donor-specific Tregs amplified in vitro may be not only induce the achievement of donor-specific tolerance, but also reduce or eliminate the side effects of RPM in clinical organ transplantation.
Copyright 2010 Elsevier Inc. All rights reserved.