Clinicopathological findings in non-human primate recipients of porcine renal xenografts: quantitative and qualitative evaluation of proteinuria.

BACKGROUND: Immunological and histopathological features in pig-to-primate renal xenotransplantation are widely studied. Only limited data have been reported about clinicopathological findings in primate recipients of life-supporting renal xenografts. In human medicine, proteinuria represents a common complication in kidney transplantation and is associated with impaired graft survival. The detection of low molecular weight proteins of tubular origin is considered an early method for predicting potential graft rejection. In this study, the presence and the significance of quantitative and qualitative proteinuria were evaluated in xenotransplanted non-human primates in which kidney function was supported only by the transplanted organ. METHODS: Eight bilaterally nephrectomized cynomolgus monkeys (Macaca fascicularis) were transplanted with a single kidney from α1,3-galactosyltransferase gene-knockout (GTKO) pigs transgenic for human CD39, CD55, CD59, and α1,2-fucosyltransferase. In addition to hematological and biochemical analyses, quantitative and qualitative analysis of proteinuria was evaluated by urinary protein-to-creatinine ratio (UPC ratio) and sodium dodecyl sulfate-agarose gel electrophoresis (SDS-AGE), respectively. RESULTS: The main hematological and biochemical changes recorded after transplantation were a progressive anemia and a severe and progressive decrease in total proteins. In urine samples, the UPC ratio was low before transplantation and increased after transplantation. Similarly, SDS-AGE was negative before transplantation, but bands consistent with mixed (i.e., tubular and glomerular) proteinuria were observed in all samples collected post-transplantation. CONCLUSIONS: The study of clinicopathological changes in cynomolgus monkey renal xenograft recipients provides a valid help in monitoring the health conditions in the post-transplant period. Moreover, the evaluation of UPC ratio and the use of SDS-AGE technique in urine samples of cynomolgus monkey renal xenograft recipients may be considered a valid, inexpensive, and less time-consuming method than more sophisticated techniques in monitoring proteinuria. Proteinuria and presence of low molecular weight (LMW) proteins were consistently found in urine after transplantation, independent of fluctuations in renal function.

Effects of long-term administration of recombinant human protein C in xenografted primates.

BACKGROUND: The role potential of recombinant human activated protein C (rhaPC), a recently developed molecule with anticoagulant and antiinflammatory properties, in prolonging survival in immunosuppressed primate recipients of porcine renal xenografts has been evaluated. METHODS: rhaPC was administered daily for 5 days (24 µg/kg/hr; group A; n = 3) or throughout the postoperative period (8-24 µg/kg/hr; group B; n = 2; or 24-48 µg/kg/hr; group C; n = 4). Animals in group D (n = 2) received rhaPC daily (24 µg/kg/hr) combined with recombinant human antithrombin (84 U/kg every 8 hr). Two animals served as control (group E). RESULTS: The results indicate that rhaPC is protective against fibrin deposition early after transplantation but does not prevent fibrin deposition and the occurrence of acute humoral xenograft rejection (AHXR) later on. Animals in the study survived between 8 and 55 days. At the dose used, rhaPC is able to prevent fibrin deposition in the graft in the first 2 weeks after xenotransplantation, except when it is administered in conjunction with antithrombin. However, rhaPC did not prevent the eventual occurrence of AHXR in primate recipients of porcine xenografts. CONCLUSIONS: In this pig to primate model, rhaPC confers a short advantage in the prevention of early perioperative xenograft damage but does not represent an effective strategy for preventing AHXR.

In vitro and in vivo immunomodulatory effects of cobalt protoporphyrin administered in combination with immunosuppressive drugs.

BACKGROUND: Immunosuppressive strategies are designed to take advantage of potential synergies between drugs to possibly decrease the risk of side-effects. In the present study, the ability of Cobalt protoporphyrin (CoPP) to potentiate the effect of the immunosuppressive drugs mycophenolate sodium (MPS) or cyclosporin A (CsA) was explored in vitro and in vivo. METHODS: In vitro analyses of proliferation and apoptosis were performed on primate T cell cultures, following incubation with the immunosuppressive drugs MPS or CsA, alone or in combination with CoPP. In vivo the effect of CoPP and CsA combination therapy was assessed in a rat heterotopic cardiac allotransplantation model. RESULTS: In vitro results suggest that co-administration of CoPP with CsA or MPS increases immunosuppressive effects of these drugs when combined with CoPP. In particular, the co-administration of CoPP with CsA resulted in the synergistic induction of lymphocyte apoptosis. In vivo, animals immunosuppressed with CsA (1.5 mg/kg) or CoPP (20 mg/kg) alone, had a median survival of 7 or 8 days, respectively. In contrast, animals immunosuppressed with CsA (1.5 mg/kg) combined with CoPP (20 mg/kg) had significantly prolonged median survival (12 days), compared to recipients treated with CsA or CoPP alone (p<0.05). CONCLUSION: Our in vitro and in vivo studies demonstrate that CoPP can potentiate the immunomodulatory effects of CsA, ultimately extending allograft survival.

In vitro and in vivo effects of the carbon monoxide-releasing molecule, CORM-3, in the xenogeneic pig-to-primate context.

BACKGROUND: Carbon monoxide (CO) interferes with inflammatory and apoptotic processes associated with ischemia-reperfusion injury and graft rejection. Here, the in vitro effects of carbon monoxide releasing molecule-3 (CORM-3), a novel water-soluble carbonyl CO carrier, have been investigated on porcine aortic endothelial cells (PAEC) and primate peripheral blood mononuclear cells (PBMC). Furthermore, the pharmacodynamics and pharmacotolerance of CORM-3 after administration of single and multiple doses in the primate have been assessed in view of its potential application in pig-to-primate xenotransplantation models. METHODS: For in vitro studies, PAEC and primate PBMC were exposed for 24, 48 and 72 h to CORM-3 (20 to 1000 microm) and viability was measured using an MTS assay. PAEC and primate PBMC proliferation after exposure to CORM-3 was assessed by CFSE labelling. Proliferation of primate PBMC against irradiated pig lymphocytes was also assessed. Tumor necrosis factor alpha (TNF-alpha) production and Caspase-3 and -7 activity in Concanavalin A (conA)-stimulated primate PBMC were measured following treatment with CORM-3. In vivo, CORM-3 was administered i.v. to cynomolgus monkeys at 4 mg/kg, as single or multiple doses for up to 30 days. The effect of CORM-3 was evaluated by the assessment of production of TNF-alpha and interleukin 1beta following PBMC stimulation with LPS by species-specific ELISA. Complete hematologic and biochemical analyses were routinely performed in treated primates. RESULTS: At concentrations <500 microm, CORM-3 did not alter the viability of PAEC or primate PBMC cultures in vitro, nor did it induce significant levels of apoptosis or necrosis. Interestingly, at concentrations of 300 and 500 microm, significant PAEC proliferation was observed, whilst concentrations > or =50 microm inhibited conA-activated primate lymphocyte proliferation (IC(50) of 345.8 +/- 51.9 microm) and the primate xenogeneic response against pig PBMC. Such responses were demonstrated to be CO-dependent. In addition, CORM-3 significantly inhibited caspase-3 and -7 activity at concentrations between 200 and 500 microm and caused a significant reduction in TNF-alpha production (IC(50) 332.8 +/- 33.9 microm). In vivo, following the administration of multiple doses, TNF-alpha production was significantly reduced in comparison to pre-treatment responses, with decreased levels maintained throughout the study. Moreover, a slight and transient increase in transaminases and bilirubin was observed in animals exposed to multiple doses of CORM-3. CONCLUSIONS: These studies suggest that CORM-3 has anti-inflammatory and immunomodulatory properties in primates that may result in clinical benefit to allo- and xenografted organs.

Antibody mediated rejection in pig-to-nonhuman primate xenotransplantation models.

Antibody-mediated mechanisms are central to the rejection that occurs when pig organs are transplanted into primates. In this article, the histopathological features of the humoral rejection process in these species combinations, namely hyperacute rejection and acute humoral xenograft rejection, will be illustrated. The profile of the natural and elicited antibodies involved will also be discussed. It has now been demonstrated that the natural immune response to a porcine xenograft is primarily directed to Galalpha1-3Gal (alphaGal) specificities, whilst the elicited immune response is directed to both alphaGal and non-alphaGal antigens. The principal characteristics of anti-alphaGal, anti-non-alphaGal and polyreactive antibodies will be described, together with the identification of the molecules recognised by natural and elicited xenoreactive antibodies. The role of the humoral immune response in the rejection of porcine islets in the primate is still uncertain and the current views on the subject will be discussed. Finally, a concise but comprehensive review of the different strategies that have been attempted to prevent the onset of antibody-mediated rejection is presented. These strategies encompass approaches aimed at interfering with the binding of xenoreactive antibodies with their targets, the use of conventional or novel immunosuppressants and splenectomy. It is undeniable that significant progress has been recently achieved in understanding the humoral rejection process of pig organs transplanted into primates. It is expected that a more comprehensive elucidation of the mechanisms underlying accommodation and tolerance may, in the not too distant future, further extend survival of pig organs transplanted into primates.