Dendritic cells (DC) play an important roles in the maintenance of central immune tolerance and peripheral immune tolerance. DC can be involved in formation of autoimmune tolerance by many mechanisms and demonstrate strong plasticity, so that DC become hot issue in the research of transplantation tolerance recently. In this article the DC typing and its role, the indirect pathway of DC-inducing immune tolerance, the F1t3L and apoptotic cell role, the modified DC by genetic engineering and the immune inhibitors were summarized.
Dendritic Cells ; immunology ; Humans ; Immune Tolerance ; Transplantation Tolerance ; immunology

Hepatitis, Autoimmune ; Humans ; Immune Tolerance ; Liver Transplantation

The infusion and persistence in a transplant recipient of donor-derived bone marrow cells (DBMC) of multi-lineage can lead to a state of permanent chimerism. In solid vascular organ transplantation, the donor bone marrow lineage cells can even be derived from the transplant organ, and these cells can be detected in very small numbers in the recipient. This has been called microchimerism. Much controversy has developed with respect to the function of chimeric cells in organ transplantation. One idea is that the occurrence of these donor cells found in microchimerism in the recipient are coincidental and have no long-term beneficial effect on engraftment. A second and opposing view, is that these donor cells have immunoregulatory function that affect both the acute and chronic phases of the recipient anti-donor responses. It follows that detecting quantitative changes in chimerism might serve as an indication of the donor-specific alloimmune or regulatory response that could occur in concert with or independent of other adaptive immune responses. The latter, including autoimmune native disease, need to be controlled in the transplant organ. The safety and immune tolerance potential of DBMC infusion with deceased and living donor renal transplants was evaluated in a non-randomized trial at this center and compared with non-infused controls given identical immunosuppression. Overall DBMC infusions were well tolerated by the recipients. There were no complications from the infusion (s), no episodes of graft-vs-host disease (GVHD) and no increase infections or other complications. In the deceased DBMC- kidney trial, actuarial graft survival at 5 years was superior especially when graft survival was censored for recipient death. Acute rejections were significant reduced in patients given two DBMC infusions, and chronic rejection was dramatically reduced in all DBMC treated patients. The most interesting finding was that the degree of microchimerism slowly increased over the years the DBMC group that had exhibited no rejection episodes. In the DBMC-living related trial, the incidence of acute rejection did not differ between groups. However, DBMC chimerism in recipient iliac crest marrow had increased more rapidly than might be predicted from results previously seen in the cadaver group, despite four times fewer DBMC infused, with the generation of T- regulartory cells in-vitro assays.
*Bone Marrow Transplantation ; Humans ; *Kidney Transplantation ; *Living Donors ; *Tissue Donors ; *Transplantation Chimera ; *Transplantation Tolerance

The development of immunosuprressants has had a significant influence on inhibition of acute allograft rejection. However, long-term graft survival has not been achieved by immunosuppressants, probably because of their nonspecific suppression of T cell activity and nonimmune side effects. The ideal way to overcome the limitations of current immunosuppressants is to induce allograft-specific immune tolerance. Transplant immunologists are exerting their efforts in achieving transplantation tolerance using four different approaches; costimulatory blockade, mixed hematopoietic chimerism, T cell depletion, and regulation by regulatory T cells. It is expected that transplantation tolerance will soon be established as a standard immunosuppressive regimen with little side effects in preventing and reversing allograft rejection.
Allografts ; Chimerism ; Graft Survival ; Immune Tolerance ; Immunosuppressive Agents ; T-Lymphocytes, Regulatory ; Transplantation Tolerance*

The development of immunosuprressants has had a significant contribution to inhibition of acute allograft rejection. However, long-term graft survival has not been realized by immunosuppressants, probably because of their nonspecific suppression of T cell activity and nonimmune side effects. The ideal way to overcome the limitations of current immunosuppressants is to induce allograft-specific immune tolerance. Transplant immunologists are exerting their efforts in achieving transplantation tolerance using three different approaches; mixed hematopoietic chimerism, costimulatory blockade, and regulation by regulatory T cells. It is expected that transplantation tolerance will soon be established as a standard immunosuppressive regimen with little side effects in preventing and reversing allograft rejection.
Allografts* ; Chimerism ; Graft Survival ; Immune Tolerance* ; Immunosuppressive Agents ; T-Lymphocytes, Regulatory ; Transplantation Tolerance

Veto activity was defined as the capacity of specifically downregulating cytotoxic T-precursor cell (CTL-p) directed against antigens of the veto cells themselves but not against third-party antigens. Many studies have shown that the most potent veto cells are CD8(+) cytotoxic T lymphocytes (CD8(+)CTLs). Effectively, CD8(+)CTLs of donor origin can facilitate engraftment of donor's stem cells by eliminating host-alloreactive T lymphocytes. In this article, effect mechanisms, depletion of GVH ex vivo, application in vivo, synergistic enhancement with rapamycin and regulatory T cells, and anti-tumor effect in the hematopoietic stem cell transplantation are summarized.
Hematopoietic Stem Cell Transplantation ; Humans ; Immune Tolerance ; T-Lymphocytes, Cytotoxic

Skin grafting has been one of the most important approaches for covering burn wounds, however long-term survival of allogeneic or xenogeneic skin graft is currently not successful. How to induce immune tolerance for life-time survival of allogeneic or xenogeneic skin graft is still remote objective to be solved. However, clinicians and scientists in China have worked very hard and made great contribution to this field during the past 50 years, no matter how difficult it is. They are the respected pioneers in the understanding of immunological change in "Chinese Method" skin grafting, its local immune tolerance, immunology of pre-treatment of skin graft, etc. Herein, the most outstanding and impressive progresses in immunological responses after skin grafting in the past 50 years in China have been reviewed and presented for memory, for future and for extending a salute.
Humans ; Immune Tolerance ; Skin Transplantation ; immunology ; Transplantation, Heterologous ; immunology ; Transplantation, Homologous ; immunology

With advancements of liver transplantation, the patient's survival improved remarkably. Thus the long-term survivors are increasing especially for the pediatric liver transplantation recipients. Consequently they are facing the challenge of maintaining graft function while minimizing long-term complications. In this review, I will discuss calcineurin inhibitor toxicity, problems with steroid, adherence to medical regimen, posttransplant growth, chronic graft dysfunction, tolerance.
Calcineurin ; Child ; Humans ; Liver ; Liver Transplantation ; Medication Adherence ; Postoperative Complications ; Survivors ; Transplantation Tolerance ; Transplants

Graft Rejection ; immunology ; Humans ; Immune Tolerance ; Liver ; immunology ; Liver Regeneration ; immunology ; Liver Transplantation ; immunology ; Transplantation, Homologous

The development of immunosuppressant treatments has enabled remarkable progress in the tissue and organ transplantation field by helping to prevent acute graft rejection. However, complications related to transplantation, such as infection by bacteria and viruses, and the occurrence of cancers resulting from prolonged immune suppression are major obstacles to overcome. Therefore, transplantation immunology research efforts should focus on the induction of donor-specific immune tolerance which preserves patient immune competence which promotes infection and cancer surveillance. Additionally, lifelong administration of immunosuppressants should be forgone in preference to short term therapies. In the 1990s, Dr. Shimon Sakaguchi identified the CD4+CD25+ regulatory T cells which develop in the thymus, and demonstrated that these cells play crucial roles in the maintenance of immune self tolerance. Studies which followed proved that these regulatory T cells are important to the control of autoimmune disease and prevention of graft rejection. Regulatory T cells have also been found to induce immune tolerance in rodent models. In this review, we discuss several considerations for the use of regulatory T cell therapy in the clinical transplantation field.
Autoimmune Diseases ; Bacteria ; Graft Rejection ; Humans ; Immune Tolerance ; Immunosuppressive Agents ; Mental Competency ; Organ Transplantation ; Rodentia ; Self Tolerance ; T-Lymphocytes, Regulatory ; Thymus Gland ; Tissue Therapy ; Transplantation Immunology ; Transplants