Brunner F, Kukovetz W R
Institut für Pharmakologie und Toxikologie, Karl-Franzens-Universität Graz, Austria.
Circulation. 1996 Oct 1;94(7):1752-61. doi: 10.1161/01.cir.94.7.1752.
ACE inhibitors improve reperfusion function in several animal models. We tested the hypothesis that ACE inhibitor-induced coronary protection and inhibition of reperfusion arrhythmias are mediated by suppression of cardiac endothelin-1 (ET-1) secretion and action.
The effects of two ACE inhibitors on ET-1 secretion and mechanical function during ischemia and reperfusion were studied in perfused rat hearts. Drugs were infused during the control (60 minutes), ischemic (60 minutes), and reperfusion (30 minutes) period. ET-1 appearing in coronary effluents and the interstitium was analyzed by radioimmunoassay. We observed (1) in hearts treated with ramiprilat (100 nmol/L) or captopril (5 mumol/L), a significant reduction of ET-1 secretion under all three experimental conditions and fewer ventricular extrasystoles during reperfusion; (2) increased ET-1 secretion and numerous tachyarrhythmic events in the presence of ACE inhibitor and a bradykinin B2 receptor antagonist, icatibant (100 nmol/L); (3) an almost-complete suppression of reperfusion arrhythmias when an ET receptor antagonist, ie, SB 209670 (5 mumol/L) or PD 142893 (200 nmol/L), was infused together with ACE inhibitor and icatibant; and (4) SB 209670 alone to be equally antiarrhythmic as ACE inhibitors. Exogenous ET-1 (40 pmol/L) was proarrhythmic, whereas exogenous bradykinin (100 nmol/L) reduced ET-1 secretion and improved cardiac rhythm.
ACE inhibitors suppress endogenous ET-1 secretion, which results in improved coronary function and stabilization of cardiac rhythm after ischemia in this model. Suppression of ET-1 results from both removal of endogenous angiotensin II and accumulation of endogenous bradykinin/nitric oxide. ET receptor antagonists may be prime antiarrhythmic drugs worthy of testing in cardiac patients, either alone or together with ACE inhibitors.
血管紧张素转换酶(ACE)抑制剂在多种动物模型中可改善再灌注功能。我们检验了以下假设:ACE抑制剂诱导的冠状动脉保护作用及对再灌注心律失常的抑制作用是通过抑制心脏内皮素-1(ET-1)的分泌及作用介导的。
在灌注大鼠心脏中研究了两种ACE抑制剂对缺血及再灌注期间ET-1分泌及机械功能的影响。在对照期(60分钟)、缺血期(60分钟)及再灌注期(30分钟)输注药物。通过放射免疫分析法分析冠状动脉流出液及间质中出现的ET-1。我们观察到:(1)在用雷米普利拉(100 nmol/L)或卡托普利(5 μmol/L)处理的心脏中,在所有三种实验条件下ET-1分泌均显著减少,且再灌注期间室性早搏减少;(2)在存在ACE抑制剂及缓激肽B2受体拮抗剂艾替班特(100 nmol/L)时,ET-1分泌增加且出现大量快速心律失常事件;(3)当ET受体拮抗剂,即SB 209670(5 μmol/L)或PD 142893(200 nmol/L)与ACE抑制剂及艾替班特一起输注时,再灌注心律失常几乎完全被抑制;(4)单独使用SB 209670时抗心律失常作用与ACE抑制剂相同。外源性ET-1(40 pmol/L)可致心律失常,而外源性缓激肽(100 nmol/L)可减少ET-1分泌并改善心律。
在该模型中,ACE抑制剂抑制内源性ET-1分泌,从而改善冠状动脉功能并使缺血后心律稳定。ET-1的抑制源于内源性血管紧张素II的去除及内源性缓激肽/一氧化氮的蓄积。ET受体拮抗剂可能是值得在心脏病患者中单独或与ACE抑制剂联合进行试验的主要抗心律失常药物。
