CARDIOPROTECTIVE EFFECTS OF THE LAZAROID U74389G FOLLOWING COLD PRESERVATION AND TRANSPLANTATION OF RAT HEARTS1

Abstract

Limited recovery of contractile function and loss of coronary reactivity have been observed following prolonged hypothermic storage and transplantation of the heart. Since lipid peroxidation has a significant role in these deficits, we investigated the cardioprotective effects of a 21-aminosteroid. U74389G, 3 mg/kg i.v., was given daily for 2 consecutive days to donor Lewis rats before the hearts were harvested and to recipient Lewis rats for 3 consecutive days after heart transplantation. Donor hearts were preserved for 4 hr in cold saline (4 degree C) before transplantation. Left ventricular developed pressure (LVP), basal coronary perfusion, and coronary reactivity to endothelium-dependent dilation (bradykinin, 0.1 microM) or endothelium-dependent dilation (sodium nitroprusside, 0.5 microM) were studied in isolated, buffer-perfused heart, using a modified Langendorff model. Cold preservation alone significantly reduced LVP and coronary perfusion. Coronary reactivity to bradykinin and sodium nitroprusside was also significantly impaired. In U74389G-treated donor hearts, 4 hr of cold ischemia did not alter contractile function, coronary perfusion or endothelial reactivity, although the response to sodium nitroprusside did not fully recover. In untreated recipients, in vivo reperfusion (transplantation) resulted in reduced LVP and perfusion deficits. Treating donors and recipients with U74389G improved left ventricular contractibility and coronary perfusion, although endothelium-dependent and -independent coronary reactivity remained affected. These results indicate that the lazaroid U74389G exerts significant cardioprotection during both preservation and transplantation of the heart. Donor and recipient pretreatment is mandatory for maximal efficacy with U74389G.