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Transplant Models (transplant + models)
Selected AbstractsThemes of liver transplantation,HEPATOLOGY, Issue 6 2010Thomas E. Starzl Liver transplantation was the product of five interlocking themes. These began in 1958-1959 with canine studies of then theoretical hepatotrophic molecules in portal venous blood (Theme I) and with the contemporaneous parallel development of liver and multivisceral transplant models (Theme II). Further Theme I investigations showed that insulin was the principal, although not the only, portal hepatotrophic factor. In addition to resolving long-standing controversies about the pathophysiology of portacaval shunt, the hepatotrophic studies blazed new trails in the regulation of liver size, function, and regeneration. They also targeted inborn metabolic errors (e.g., familial hyperlipoproteinemia) whose palliation by portal diversion presaged definitive correction with liver replacement. Clinical use of the Theme II transplant models depended on multiple drug immunosuppression (Theme III, Immunology), guided by an empirical algorithm of pattern recognition and therapeutic response. Successful liver replacement was first accomplished in 1967 with azathioprine, prednisone, and antilymphoid globulin. With this regimen, the world's longest surviving liver recipient is now 40 years postoperative. Incremental improvements in survival outcome occurred (Theme IV) when azathioprine was replaced by cyclosporine (1979), which was replaced in turn by tacrolimus (1989). However, the biologic meaning of alloengraftment remained enigmatic until multilineage donor leukocyte microchimerism was discovered in 1992 in long-surviving organ recipients. Seminal mechanisms were then identified (clonal exhaustion-deletion and immune ignorance) that linked organ engraftment and the acquired tolerance of bone marrow transplantation and eventually clarified the relationship of transplantation immunology to the immunology of infections, neoplasms, and autoimmune disorders. With this insight, better strategies of immunosuppression have evolved. As liver and other kinds of organ transplantation became accepted as healthcare standards, the ethical, legal, equity, and the other humanism issues of Theme V have been resolved less conclusively than the medical-scientific problems of Themes I-IV. HEPATOLOGY 2010 [source] R2: Identification of renal potential progenitor/stem cells that participate in the renal regeneration processes of kidney allograft fibrosisNEPHROLOGY, Issue 6 2008JI BAO SUMMARY: Aim: Many strategies are explored to ameliorate kidney allograft tubular atrophy and interstitial fibrosis (TA/IF), but little progress has been achieved. The latest evidence suggested that CD133+ cell in kidney represent a potential multipotent adult resident stem cell population that may contribute to the renal injury repair. Here we investigate whether the CD133+ cells exist in transplanted renal and exert a growth and self-repair procedure in TA/IF. Methods: Allografts from rat kidney transplant models were harvested at 4 weeks, 8 weeks and 12 weeks post transplantation. We performed immunohistochemistry to detect the CD133+ cells and immunofluorescence to detect the co-expression of CD133 or Pax-2 with Ki-67. We furthermore analysed the E-cadherin using serial sections. Results: CD133+ cells were seldom seen in control kidney, but distributed sporadically in the cortex parenchyma along with the deterioration of TA/IF. The number of CD133+ cell increased after 4 weeks and reached the peak at 8 weeks, then decreased at 12 weeks. From 8 weeks, some new tubules expressing E-cadherin were constructed with CD133+ cells. Almost all the CD133+ cells were Ki-67-positive, but not all the Ki-67+ cells expressed CD133. The rest Ki-67+ cells almost expressed Pax-2. Conclusion: Our study reveals that when majority of the tubules are damaged, a self-repair mechanism is evoked by potential adult stem cells to compensate the renal function. Thus, potential adult resident stem cells offer a new avenue for autologous cell therapies in TA/IF. [source] Characterisation of a P140K mutant O6 -methylguanine-DNA-methyltransferase (MGMT)-expressing transgenic mouse line with drug-selectable bone marrowTHE JOURNAL OF GENE MEDICINE, Issue 9 2006Belinda A. Kramer Abstract Background Gene transfer of the P140K mutant of O6 -methylguanine-DNA-methyltransferase (MGMT(P140K)) into hematopoietic stem cells (HSC) provides a mechanism for drug resistance and the selective expansion of gene-modified cells in vivo. Possible clinical applications for this strategy include chemoprotection to allow dose escalation of alkylating chemotherapy, or combining MGMT(P140K) expression with a therapeutic gene in the treatment of genetic diseases. Our aim is to use MGMT(P140K)-driven in vivo selection to develop allogeneic micro-transplantation protocols that rely on post-engraftment selection to overcome the requirement for highly toxic pre-transplant conditioning, and to establish and maintain predictable levels of donor/recipient chimerism. Methods Using stably transfected murine embryonic stem (ES) cells, we have generated a C57BL/6 transgenic mouse line with expression of MGMT(P140K) within the hematopoietic compartment for use as a standard source of donor HSC in such models. Functional characterisation of transgene expression was carried out in chemotherapy-treated transgenic mice and in allogeneic recipients of transgenic HSC. Results Expression of the transgene provided chemoprotection and allowed in vivo selection of MGMT(P140K)-expressing cells in transgenic mice after exposure to O6 -benzylguanine (BG) and N,N,-bis(2-chloroethyl)- N -nitrosourea (BCNU). In an allogeneic transplant experiment in which transgenic HSC were engrafted into 129 strain recipients following low intensity conditioning (Busulfan, anti-CD8, anti-CD40Ligand), MGMT(P140K)-expressing cells could be selected using chemotherapy. Conclusions This MGMT(P140K) transgenic mouse line provides a useful source of drug-selectable donor cells for the development of non-myeloablative allogeneic transplant models in which variation in transplant conditioning elements can be investigated independently of gene transfer efficiency. Copyright © 2006 John Wiley & Sons, Ltd. [source] Translational Research: Animal Models of Obliterative Bronchiolitis after Lung TransplantationAMERICAN JOURNAL OF TRANSPLANTATION, Issue 9 2009M. Sato Obliterative bronchiolitis (OB) or chronic graft dysfunction remains the major limitation to long-term success of lung transplantation. Investigation using animal models is a critical component of research to understand the underlying pathological mechanisms and to develop novel preventive and therapeutic strategies for OB. Multiple animal models of OB exist, including orthotopic lung transplantation in rodents and large animals, orthotopic tracheal transplantation and heterotopic transplantation of a trachea in variable sites such as subcutaneous, intraomental and intrapulmonary sites. The most important issue for researchers is not specifically which model is the best but which is the most appropriate model to test their scientific hypothesis. For example, while orthotopic lung transplantation best mimics the overall surgical procedure, a question regarding fibrotic processes of OB may be better answered using heterotopic tracheal transplant models because of their reliable reproducibility of allograft obliterative airway fibrosis. Animal models should be continuously refined, modified and sometimes combined to fit the particular research purpose. We review the available animal models, their modifications and possible applications to assist researchers in choosing the appropriate model for their intended research. [source] | ||||||||||