Noriko Murase

Bone marrow stem cells develop into hematopoietic and mesenchymal lineages but have not been known to participate in production of hepatocytes, biliary cells, or oval cells during liver regeneration. Cross-sex or cross-strain bone marrow and whole liver transplantation were used to trace the origin of the repopulating liver cells. Transplanted rats were treated with 2-acetylaminofluorene, to block hepatocyte proliferation, and then hepatic injury, to induce oval cell proliferation. Markers for Y chromosome, dipeptidyl peptidase IV enzyme, and L21-6 antigen were used to identify liver cells of bone marrow origin. From these cells, a proportion of the regenerated hepatic cells were shown to be donor-derived. Thus, a stem cell associated with the bone marrow has epithelial cell lineage capability.

Improvements in the prevention or control of rejection of the kidney and liver have been largely interchangeable (1, 2) and then applicable, with very little modification, to thoracic and other organs. However, the mechanism by which anti rejection treatment permits any of these grafts to be "accepted" has been an immunological enigma (3, 4). We have proposed recently that the exchange of migratory leukocytes between the transplant and the recipient with consequent long-term cellular chimerism in both is the basis for acceptance of all whole-organ allografts and xenografts (5). Although such chimerism was demonstrated only a few months ago, the observations have increased our insight into transplantation immunology and have encouraged the development of alternative therapeutic strategies (6).

OBJECTIVE: To assess the evolution of visceral transplantation in the milieu of surgical technical modifications, new immunosuppressive protocols, and other management strategies. SUMMARY BACKGROUND DATA: With the clinical feasibility of intestinal and multivisceral transplantation in 1990, multifaceted innovative tactics were required to improve outcome and increase procedural practicality. METHODS: Divided into 3 eras, 453 patients received 500 visceral transplants. The primary used immunosuppression was tacrolimus-steroid-only during Era I (5/90–5/94), adjunct induction with multiple drug therapy during Era II (1/95–6/01), and recipient pretreatment with tacrolimus monotherapy during Era III (7/01–11/08). During Era II/III, donor bone marrow was given (n = 79), intestine was ex vivo irradiated (n = 44), and Epstein-Barr-Virus (EBV)/cytomegalovirus (CMV) loads were monitored. RESULTS: Actuarial patient survival was 85% at 1-year, 61% at 5-years, 42% at 10-years, and 35% at 15-years with respective graft survival of 80%, 50%, 33%, and 29%. With a 10% retransplantation rate, second/third graft survival was 69% at 1-year and 47% at 5-years. The best outcome was with intestine-liver allografts. Era III rabbit antithymocyte globulin or alemtuzumab pretreatment-based strategy was associated with significant (P < 0.0001) improvement in outcome with 1- and 5-year patient survival of 92% and 70%. CONCLUSION: Survival has greatly improved over time as management strategies evolved. The current results clearly justify elevating the procedure level to that of other abdominal organs with the privilege to permanently reside in a respected place in the surgical armamentarium. Meanwhile, innovative tactics are still required to conquer long-term hazards of chronic rejection of liver-free allografts and infection of multivisceral recipients.