BACKGROUND: The mechanisms and treatment of cardiac allograft vasculopathy (CAV) remain elusive. We have used partially inbred miniature swine to determine the role of class I MHC antigens in the pathogenesis of CAV and to determine whether acquired tolerance to donor antigen can prevent the development of CAV in large animals. METHODS: Previous studies demonstrated that miniature swine treated with 12 days of cyclosporine (CsA) after the transplantation of MHC class I-disparate kidney allografts all became tolerant to the donor kidneys and survived indefinitely. In the present study, heart allografts were transplanted across the same MHC class I disparity in CsA-treated swine. RESULTS: Unlike kidney allografts, heart allografts were rejected in 33-55 days. By postoperative day 28, all cardiac allografts had developed the intimal proliferation characteristic of CAV. When hearts and kidneys from the same donors were transplanted simultaneously into class I-disparate, CsA-treated recipients, the hosts became tolerant to their cardiac allografts and survived long-term. Furthermore, none of the hearts from the combined heart/kidney recipients developed evidence of CAV. Thus, this report demonstrates that: (1) MHC class I antigens play an important role in the pathogenesis of CAV, (2) the specific unresponsiveness to donor class I antigen induced by a class I-disparate kidney protects a heart transplanted from the same organ donor, and (3) the induction of acquired tolerance prevents the development of CAV. CONCLUSION: These findings in a preclinical system establish the significance of antigen-dependent mechanisms in the pathogenesis of CAV and underscore the importance of achieving tolerance in clinical transplantation.
BACKGROUND: The mechanisms and treatment of cardiac allograft vasculopathy (CAV) remain elusive. We have used partially inbred miniature swine to determine the role of class I MHC antigens in the pathogenesis of CAV and to determine whether acquired tolerance to donor antigen can prevent the development of CAV in large animals. METHODS: Previous studies demonstrated that miniature swine treated with 12 days of cyclosporine (CsA) after the transplantation of MHC class I-disparate kidney allografts all became tolerant to the donor kidneys and survived indefinitely. In the present study, heart allografts were transplanted across the same MHC class I disparity in CsA-treated swine. RESULTS: Unlike kidney allografts, heart allografts were rejected in 33-55 days. By postoperative day 28, all cardiac allografts had developed the intimal proliferation characteristic of CAV. When hearts and kidneys from the same donors were transplanted simultaneously into class I-disparate, CsA-treated recipients, the hosts became tolerant to their cardiac allografts and survived long-term. Furthermore, none of the hearts from the combined heart/kidney recipients developed evidence of CAV. Thus, this report demonstrates that: (1) MHC class I antigens play an important role in the pathogenesis of CAV, (2) the specific unresponsiveness to donor class I antigen induced by a class I-disparate kidney protects a heart transplanted from the same organ donor, and (3) the induction of acquired tolerance prevents the development of CAV. CONCLUSION: These findings in a preclinical system establish the significance of antigen-dependent mechanisms in the pathogenesis of CAV and underscore the importance of achieving tolerance in clinical transplantation.
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Authors: S G Michel; M L L Madariaga; G M LaMuraglia; V Villani; M Sekijima; E A Farkash; R B Colvin; D H Sachs; K Yamada; B R Rosengard; J S Allan; J C Madsen Journal: Am J Transplant Date: 2018-03-05 Impact factor: 8.086