BACKGROUND: We have recently reported that perioperative low-dose carbon monoxide (CO) inhalation decreases lung ischemia-reperfusion injury in miniature swine. The aims of this study were to establish a large animal model of pulmonary allograft rejection using polymerase chain reaction-typed major histocompatibility complex (MHC)-inbred CLAWN miniature swine and to examine the effects of CO on allograft survival. METHODS: Eleven CLAWN miniature swines received fully MHC-mismatched lungs followed by 12 days of tacrolimus (days 0-11; blood level 35-45 ng/mL). Six recipients received tacrolimus alone (control group). Five recipients were additionally treated with inhaled CO (180 min for donors until graft harvest; 390 min for recipients until 2 hr after reperfusion). RESULTS: All recipients treated with tacrolimus alone uniformly rejected their grafts by postoperative day 63 with development of cytotoxic antidonor antibodies. CO treatment was effective in prolonging allograft survival from a mean of 47±7 to 82±13 days (P=0.017), with one CO-treated animal maintaining function until postoperative day 120. Development of antidonor antibodies and donor-specific responsiveness by cell-mediated lympholysis and mixed lymphocyte reaction assays was delayed in animals that received CO therapy. Furthermore, serum concentrations of proinflammatory cytokines (interleukin-1β and -6) 1 day after transplant were significantly decreased in the CO-treated group. CONCLUSIONS: Fully MHC-mismatched lungs in CLAWN miniature swine were consistently rejected within 63 days, suggesting that this is a robust large animal model ideal for investigating mechanisms and treatment of lung rejection. Perioperative low-dose CO inhalation prolonged graft survival and inhibited antidonor antibody production and was associated with decreased proinflammatory mediators in this model.
BACKGROUND: We have recently reported that perioperative low-dose carbon monoxide (CO) inhalation decreases lung ischemia-reperfusion injury in miniature swine. The aims of this study were to establish a large animal model of pulmonary allograft rejection using polymerase chain reaction-typed major histocompatibility complex (MHC)-inbred CLAWN miniature swine and to examine the effects of CO on allograft survival. METHODS: Eleven CLAWN miniature swines received fully MHC-mismatched lungs followed by 12 days of tacrolimus (days 0-11; blood level 35-45 ng/mL). Six recipients received tacrolimus alone (control group). Five recipients were additionally treated with inhaled CO (180 min for donors until graft harvest; 390 min for recipients until 2 hr after reperfusion). RESULTS: All recipients treated with tacrolimus alone uniformly rejected their grafts by postoperative day 63 with development of cytotoxic antidonor antibodies. CO treatment was effective in prolonging allograft survival from a mean of 47±7 to 82±13 days (P=0.017), with one CO-treated animal maintaining function until postoperative day 120. Development of antidonor antibodies and donor-specific responsiveness by cell-mediated lympholysis and mixed lymphocyte reaction assays was delayed in animals that received CO therapy. Furthermore, serum concentrations of proinflammatory cytokines (interleukin-1β and -6) 1 day after transplant were significantly decreased in the CO-treated group. CONCLUSIONS: Fully MHC-mismatched lungs in CLAWN miniature swine were consistently rejected within 63 days, suggesting that this is a robust large animal model ideal for investigating mechanisms and treatment of lung rejection. Perioperative low-dose CO inhalation prolonged graft survival and inhibited antidonor antibody production and was associated with decreased proinflammatory mediators in this model.
Authors: T Tanabe; H Watanabe; J A Shah; H Sahara; A Shimizu; S Nomura; A Asfour; M Danton; L Boyd; A Dardenne Meyers; D K Ekanayake-Alper; D H Sachs; K Yamada Journal: Am J Transplant Date: 2017-03-03 Impact factor: 8.086