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Endothelial Injury In Cardiac Transplantation: The Role Of Endothelin Antagonism And Protein Kinases

BACKGROUND: Endothelial dysfunction is a principal player in the development of allograft vasculopathy and allograft failure. The hallmark of endothelial dysfunction is impaired nitric oxide bioavailability. Recent evidence implicates endothelin-1 as an integral component of endothelial dysfunction. Immunosuppressive drugs have also been associated with the development of graft vasculopathy. We speculated that endothelin-1 results in endothelial dysfunction by impairing nitric oxide homeostasis and is a player in hypoxia and reperfusion induced vasomotor injury. In addition, we hypothesized that endothelin-1 antagonism with bosentan will limit hypoxia and reperfusion injury and prevent immunosuppressive drug injury. METHODS: We utilized human saphenous vein endothelial cells to evaluate the effects of endothelin-1, hypoxia and reperfusion on endothelial function, protein kinase modulation and cell survival. We also employed a rodent model of chronic drug therapy to assess the effect of cyclosporine and rapamycin treatment on vasomotor function. We investigated the role of nitric oxide augmentation and bosentan in preventing hypoxia and reperfusion injury and in limiting immunosuppressive drug induced vasomotor dysfunction. RESULTS: Elevated endothelin-1 levels resulted in impaired nitric oxide release and endothelial function. The effects of endothelin-1 as well as hypoxia and reperfusion were mediated by altered protein kinase B and protein kinase C activity resulting in endothelial dysfunction. We revealed that endothelin-1 is a key player in hypoxia and reperfusion induced endothelial injury. The immunosuppressive drug cyclosporine induced vasomotor dysfunction while rapamycin preserved vessel homeostasis. Vasomotor dysfunction was characterized by impaired nitric oxide and endothelin-1 homeostasis. Bosentan limited the deleterious effects of endothelin-1, hypoxic injury, reperfusion injury and cyclosporine induced vasomotor impairment. CONCLUSIONS: Our study revealed that endothelin-1 exposure as well as hypoxia and reperfusion results in endothelial dysfunction by altering specific protein kinase C isoform activities and inhibiting protein kinase B. Cyclosporine induced vasomotor dysfunction was mediated by altered nitric oxide and endothelin-1 homeostasis while rapamycin was endothelial protective. Bosentan proved to be an effective therapy at preventing endothelin-1, hypoxia and reperfusion and cyclosporine induced endothelial dysfunction. Protein kinase C modulation as well as bosentan may prove to be NOVEL therapies to prevent endothelial injury during cardiac transplantation.

Identiferoai:union.ndltd.org:TORONTO/oai:tspace.library.utoronto.ca:1807/11250
Date01 August 2008
CreatorsRamzy, Danny
ContributorsRao, Vivek
Source SetsUniversity of Toronto
Languageen_ca
Detected LanguageEnglish
TypeThesis
Format6596680 bytes, application/pdf

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