The longest survival of a nonhuman primate with a life-supporting kidney graft to date has been 90 days, though graft survival >30 days has been unusual. A baboon received a kidney graft from an α1,3-galactosyltransferase gene-knockout pig transgenic for two human complement- and three human coagulation- regulatory proteins (though only one was expressed in the kidney). Immunosuppressive therapy was with ATG+anti-CD20mAb (induction) and anti-CD40mAb+rapamycin+corticosteroids (maintenance). Anti-TNF-α and anti-IL-6R were administered. The baboon survived 136 days with a generally stable serum creatinine (0.6–1.6mg/dL) until terminally. No features of a consumptive coagulopathy (e.g., thrombocytopenia, decreased fibrinogen) or of a protein-losing nephropathy were observed. There was no evidence of an elicited anti-pig antibody response. Death was from septic shock (Myroides spp). Histology of a biopsy on day 103 was normal, but by day 136 the kidney showed features of glomerular enlargement, thrombi, and mesangial expansion. The combination of (i) a graft from a specific genetically-engineered pig, (ii) an effective immunosuppressive regimen, and (iii) anti-inflammatory agents prevented immune injury and a protein-losing nephropathy, and delayed coagulation dysfunction. This outcome encourages us that clinical renal xenotransplantation may become a reality.
Background Three costimulation-blockade-based regimens have been explored after transplantation of hearts from pigs of varying genetic backgrounds to determine whether CTLA4-Ig (abatacept) or anti-CD40mAb+CTLA4-Ig (belatacept) can successfully replace anti-CD154mAb. Methods All pigs were on an α1,3-galactosyltransferase gene-knockout/CD46 transgenic (GTKO.CD46) background. Hearts transplanted into Group A baboons (n=4) expressed additional CD55, and those into Group B (n=3) expressed human thrombomodulin (TBM). Immunosuppression included anti-thymocyte globulin with anti-CD154mAb (Regimen 1: n=2) or abatacept (Regimen 2: n=2) or anti-CD40mAb+belatacept (Regimen 3: n=2). Regimens1/2 included induction anti-CD20mAb and continuous heparin. One further baboon in Group B (B16311) received a modified Regimen 1. Baboons were followed by clinical/laboratory monitoring of immune/coagulation parameters. At biopsy, graft failure, or euthanasia, the graft was examined by microscopy. Results Group A baboons survived 15–33 days, whereas Group B survived 52, 99 and 130 days, respectively. Thrombocytopenia and reduction in fibrinogen occurred within 21 days in Group A, suggesting thrombotic microangiopathy (TM), confirmed by histopathology. In Group B, with follow-up for >4m, areas of myofiber degeneration and scarring were seen in 2 hearts at necropsy. A T cell response was documented only in baboons receiving Regimen 2. Conclusions The combination of anti-CD40mAb+belatacept proved effective in preventing a T cell response. Expression of TBM prevented thrombocytopenia, and may possibly delay the development of TM and/or consumptive coagulopathy.
Introduction In pig-to-baboon heart/artery patch transplantation models, adequate costimulation blockade prevents a T cell response. After heart transplantation, coagulation dysfunction (thrombocytopenia, reduced fibrinogen, increased D-dimer) and inflammation (increased C-reactive protein [CRP]) develop. We evaluated whether coagulation dysfunction and/or inflammation can be detected following pig artery patch transplantation. Methods Baboons received heart (n=8) or artery patch (n=16) transplants from genetically-engineered pigs, and a costimulation blockade-based regimen. Heart grafts functioned for 15–130d. Artery recipients were euthanized after 28–84d. Platelet counts, fibrinogen, D-dimer, and CRP were measured. Results Thrombocytopenia and reduced fibrinogen developed only in recipients of hearts not expressing a coagulation-regulatory protein (n=4), but not in other heart or patch recipients. However, in heart recipients (n=8), there were sustained increases in D-dimer (<0.5–1.9ug/mL [p<0.01]), and CRP (0.26–2.2mg/dL [p<0.01]). In recipients of artery patches, there were also sustained increases in D-dimer (<0.5–1.4ug/mL [p<0.01]), and CRP (0.26–1.5mg/dL [p<0.001]). An IL-6R antagonist suppressed the increase in CRP, but not D-dimer. Conclusion The pig artery patch model has proved valuable for determining immunosuppressive regimens that prevent sensitization to pig antigens. This model also provides information on the sustained systemic inflammation seen in xenograft recipients (SIXR). An IL-6R antagonist may help suppress this response.
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