Xenotransplantation of human decay accelerating factor transgenic porcine kidney to non-human primates: 4 years experience at a Canadian center

Progress in pig-to-non-human primate transplantation models (1998-2013): a comprehensive review of the literature

BACKGROUND

The pig-to-non-human primate model is the standard choice for in vivo studies of organ and cell xenotransplantation. In 1998, Lambrigts and his colleagues surveyed the entire world literature and reported all experimental studies in this model. With the increasing number of genetically engineered pigs that have become available during the past few years, this model is being utilized ever more frequently.

METHODS

We have now reviewed the literature again and have compiled the data we have been able to find for the period January 1, 1998 to December 31, 2013, a period of 16 yr.

RESULTS

The data are presented for transplants of the heart (heterotopic and orthotopic), kidney, liver, lung, islets, neuronal cells, hepatocytes, corneas, artery patches, and skin. Heart, kidney, and, particularly, islet xenograft survival have increased significantly since 1998.

DISCUSSION

The reasons for this are briefly discussed. A comment on the limitations of the model has been made, particularly with regard to those that will affect progression of xenotransplantation toward the clinic.

Results of gal-knockout porcine thymokidney xenografts

Clinical transplantation for the treatment of end-stage organ disease is limited by a shortage of donor organs. Successful xenotransplantation could immediately overcome this limitation. The development of homozygous alpha1,3-galactosyltransferase knockout (GalT-KO) pigs removed hyperacute rejection as the major immunologic hurdle to xenotransplantation. Nevertheless, GalT-KO organs stimulate robust immunologic responses that are not prevented by immunosuppressive drugs. Murine studies show that recipient thymopoiesis in thymic xenografts induces xenotolerance. We transplanted life-supporting composite thymokidneys (composite thymus and kidneys) prepared in GalT-KO miniature swine to baboons in an attempt to induce tolerance in a preclinical xenotransplant model. Here, we report the results of seven xenogenic thymokidney transplants using a steroid-free immunosuppressive regimen that eliminated whole-body irradiation in all but one recipient. The regimen resulted in average recipient survival of over 50 days. This was associated with donor-specific unresponsiveness in vitro and early baboon thymopoiesis in the porcine thymus tissue of these grafts, suggesting the development of T-cell tolerance. The kidney grafts had no signs of cellular infiltration or deposition of IgG, and no grafts were lost due to rejection. These results show that xenogeneic thymus transplantation can support early primate thymopoiesis, which in turn may induce T-cell tolerance to solid organ xenografts.

Expression of the decay-accelerating factor (CD55) in renal transplants--a possible prediction marker of allograft survival

BACKGROUND

Decay-accelerating factor (CD55) accelerates the decay of C3 and C5 convertases, participating in classical and alternative complement activation pathways. Complement activation plays a major role in antibody-mediated rejection of allografts (AMR); C4d is used as a marker of AMR. Emerging evidence suggests an important role of CD55 in the pathogenesis of AMR. The aim of this study was to investigate the expression of CD55 in renal allografts and to correlate it with the expression of C4d, allograft survival, changes in serum creatinine (SC).

METHODS

More than 200 renal allograft biopsies, performed for allograft dysfunction, were assessed for peritubular capillary (PTC) C4d and CD55 expression.

RESULTS

We found significant correlation between changes in SC and PTC CD55 staining pattern in patients with no PTC C4d staining. In these patients, SC increased from baseline by 2.2+0.34, 1.7+0.36, and 0.93+0.24 mg/dL in negative, focal, and diffuse PTC CD55 staining subgroups, respectively. Survival of renal allografts was better in diffuse PTC CD55 staining subgroup than in negative PTC CD55 staining subgroup.

CONCLUSIONS

These data suggest that CD55 expression has a protective effect on PTC C4d negative renal allografts, and the pattern of PTC CD55 expression may be used as a potential marker of renal allograft survival in patients with no evidence of AMR.

Achieving tolerance in pig-to-primate xenotransplantation: reality or fantasy

Because the immunologic differences between species are far greater than those within species, it is likely that the amount of immunosuppression that would be required for successful xenografting would be so much greater than that now used for allografting, that the side-effects and complications would be unacceptable. Tolerance approaches to xenotransplantation would overcome this concern. Studies in humanized mouse models have demonstrated that human T cells can be tolerized to porcine xenografts, providing important proofs of principle of the potential feasibility of pig-to-primate xenograft tolerance. The results available from studies of pig-to-primate xenotransplantation to date have demonstrated that while chronic immunosuppressive drugs have not completely avoided either T cell responses or humoral rejection, approaches directed toward tolerance induction have been encouraging with regard to avoiding immunization at both of these levels.

Study of the microcirculation in hDAF transgenic rat livers xenoperfused with human blood

BACKGROUND

The microcirculation was assessed in the livers of human decay accelerating factors (hDAF) and wild-type transgenic rats by fluorescent intravital microscopy, histology and histomorphology to determine the benefits of hDAF expression for the microcirculation of a rat liver xenograft perfused with human blood.

METHODS

Male hDAF transgenic rats (group A; n = 20) and wild-type Sprague-Dawley rats (group B; n = 20) were xenoperfused with human blood, while other male wild-type Sprague-Dawley rats (group C; n = 10) were perfused with allogeneic blood. Following plasma and leukocyte staining with fluorescein sodium, and platelet staining with rhodamine, the right lobe of the liver was assessed by intravital microscopy, counting the numbers of perfused sinusoids and leukocytes adhering to the endothelium per mm(2), and calculating the acinar perfusion index (Pi). The liver underwent histological assessment at the end of each experiment. Mean +/- SEM values were calculated and the Mann-Whitney U-test was used for statistical analysis.

RESULTS

The number of perfused sinusoids was higher in the group of hDAF rat livers (group A) and controls (group C) than in the group of non-transgenic rat livers perfused with human blood (group B) (P < 0.05), although only group C still had a significantly more perfused sinusoids than the other groups after 90 min of perfusion (P < 0.05). The acinar perfusion index was higher in groups A and C than in group B (P < 0.05); here again, only group C still had a significantly higher Pi than group B after 90 min of perfusion (P < 0.05). There was a massive accumulation of leukocytes that peaked after 5 min and persisted throughout the perfusion in all three groups. Histology showed portal and subendothelial hepatic vein hemorrhage, necrosis and inflammatory reaction, which were particularly evident in group B.

CONCLUSION

In our study, rat livers transgenic for hDAF were better protected against early tissue damage by perfusion with human blood, but this did not result in a longer xenograft survival.

Somatic cell nuclear transfer in pigs: recent achievements and future possibilities

During the past 6 years, considerable advancement has been achieved in experimental embryology of pigs. This process was mainly generated by the rapidly increasing need for transgenic pigs for biomedical research purposes, both for future xenotransplantation to replace damaged human organs or tissues, and for creating authentic animal models for human diseases to study aetiology, pathogenesis and possible therapy. Theoretically, among various possibilities, an established somatic cell nuclear transfer system with genetically engineered donor cells seems to be an efficient and reliable approach to achieve this goal. However, as the result of unfortunate coincidence of known and unknown factors, porcine embryology had been a handicapped branch of reproductive research in domestic animals and a very intensive and focused research was required to eliminate or minimise this handicap. This review summarises recent achievements both in the background technologies (maturation, activation, embryo culture) and the actual performance of the nuclear replacement. Recent simplified methods for in vivo development after embryo transfer are also discussed. Finally, several fields of potential application for human medical purposes are discussed. The authors conclude that although in this early phase of research no direct evidence can be provided about the practical use of transgenic pigs produced by somatic cell nuclear transfer as organ donors or disease models, the future chances even in medium term are good, and at least proportional with the efforts and sums that are invested into this research area worldwide.

The Influence of Baseline Expression of Human Decay Accelerating Factor Transgene on Graft Survival and Acute Humoral Xenograft Rejection

BACKGROUND

Transgenic pigs expressing human decay accelerating factor (hDAF) have been widely used as donors in various non-human primate transplant models. Despite the use of similar immunosuppressive protocols, there is marked variation in graft survival among centres. The present study was undertaken to determine whether the level of hDAF expression in the pig kidney correlates with the degree of rejection and duration of graft survival.

METHODS

hDAF transgenic pigs were provided from two suppliers: Guelph Imutran Centre (G) and Harlan Sprague Dawley (H). Following a bilateral nephrectomy, a single hDAF pig kidney was implanted in the baboon, which was subsequently treated with conventional immunosuppressive protocols. The pig's contralateral kidney was collected to provide baseline data. The severity of acute humoral xenograft rejection (AHXR) was graded as stage I-III. hDAF expression was measured using morphologic analysis comparing the contralateral and grafted kidneys at the endpoint.

RESULTS

Baseline hDAF expression in kidneys from pigs provided by supplier G was significantly higher than that from supplier H (P<0.01). Furthermore, the survival of baboons receiving grafts from G pigs was significantly longer than those receiving grafts from H pigs (P<0.05). In addition, reduction of hDAF expression at the endpoint was associated with a higher degree of AHXR. Severe apoptosis or necrosis was found in grafts with AHXR II-III.

CONCLUSIONS

Pig kidneys from different suppliers have variable baseline hDAF expression, which may have an influence on graft survival. Reduced expression of hDAF in the terminal graft was associated with the severity of rejection.