Galiñanes M, Zhai X, Bullough D, Mullane K M, Hearse D J
Rayne Institute, St. Thomas' Hospital, London, United Kingdom.
J Thorac Cardiovasc Surg. 1995 Sep;110(3):752-61. doi: 10.1016/S0022-5223(95)70108-7.
Acadesine (AICAr: 5-amino-4-imidazole carboxamide riboside) has been shown to afford sustained protection against injury during ischemia and reperfusion. The present studies used the heterotopically transplanted rat heart to assess the protective properties of two new acadesine analogs: GP-1-468 and GP-1-668.
Hearts were excised, arrested with a 2-minute infusion of cardioplegic solution, and subjected to 4 hours of global ischemia (20 degrees C) with cardioplegic reinfusion for 2 minutes every 30 minutes. The hearts were then transplanted (1 hour of additional ischemia) into the abdomens of recipient rats and reperfused in situ for 30 minutes or 24 hours. The hearts were then excised, perfused aerobically for 20 minutes, and contractile function was assessed. GP-1-468 or GP-1-668 was administered to donor rats (20 mg/kg intravenously, 30 minutes before excision). They were also added to the cardioplegic solution (10 mumol/L for GP-1-468, 5 mumol/L for GP-1-343, the active metabolite of GP-1-668) and were also given to recipient rats (20 mg/kg intravenously, 30 minutes before transplantation, so that the drugs were present during reperfusion). Nine groups of hearts were studied. Three groups of studies were carried out (n = 24 transplants for each group). The first group of hearts was reperfused for 30 minutes, the second group was reperfused for 24 hours, and the third group was transplanted but not reperfused; instead, they were frozen at the end of 5 hours of ischemia and taken for metabolite analysis. Within each group were three subgroups (n = 8 per group) receiving GP-1-468, GP-1-668, or saline solution. In the 30-minute reperfusion group the recoveries of left ventricular developed pressure were 88 +/- 4, 87 +/- 7, and 50 +/- 9 mm Hg, respectively (p < 0.05 versus saline-treated controls); left ventricular volumes (recorded at 12 mm Hg) were 112 +/- 20, 132 +/- 28, and 41 +/- 9 microliters, respectively (p < 0.05 versus saline-treated controls), and coronary flows were 13.1 +/- 0.7, 13.4 +/- 1.0, and 9.9 +/- 0.5 ml/min, respectively (p < 0.05 versus saline-treated controls). In addition to improving functional recovery, the two analogs increased the tissue content of adenosine at the end of the ischemic period (5.4 +/- 0.6 and 7.3 +/- 0.5 mumol/gm dry weight, respectively, versus 2.7 +/- 0.4 mumol/gm dry weight in the saline-treated controls; p < 0.05); however, they did not influence adenosine triphosphate or its catabolites. In the 24-hour reperfusion group the corresponding values were 77 +/- 6 and 88 +/- 6 versus 35 +/- 4 mm Hg for left ventricular developed pressure (p < 0.05), 111 +/- 9 and 121 +/- 11 versus 41 +/- 8 microliters for left ventricular volume (p < 0.05), and 13.7 +/- 0.7 and 13.0 +/- 0.6 versus 11.7 +/- 0.7 ml/min for coronary flow (no significant difference). Thus both analogs afforded an early and comparable degree of protection of contractile function that was sustained even after 24 hours of reperfusion.
Both GP-1-468 and GP-1-668 increase the rate and extent of early postischemic recovery, and this protection is sustained for at least 24 hours. These beneficial actions were associated with an increase of the tissue content of adenosine during ischemia, but they appeared to be independent of the status of the high-energy metabolism.
阿卡地辛(AICAr:5-氨基-4-咪唑甲酰胺核糖苷)已被证明能在缺血和再灌注期间提供持续的损伤保护。本研究使用异位移植的大鼠心脏来评估两种新的阿卡地辛类似物GP-1-468和GP-1-668的保护特性。
切除心脏,通过灌注2分钟心脏停搏液使其停搏,然后在20℃下进行4小时全心缺血,每30分钟再灌注心脏停搏液2分钟。然后将心脏(额外缺血1小时)移植到受体大鼠腹部,并原位再灌注30分钟或24小时。之后切除心脏,进行20分钟有氧灌注,并评估收缩功能。给供体大鼠静脉注射GP-1-468或GP-1-668(20mg/kg,切除前30分钟)。它们也被添加到心脏停搏液中(GP-1-468为10μmol/L,GP-1-668的活性代谢物GP-1-343为5μmol/L),并且也给受体大鼠注射(20mg/kg静脉注射,移植前30分钟,以便在再灌注期间存在药物)。研究了九组心脏。进行了三组研究(每组n = 24次移植)。第一组心脏再灌注30分钟,第二组心脏再灌注24小时,第三组心脏移植但不复灌注;相反,在缺血5小时结束时将它们冷冻并用于代谢物分析。每组中有三个亚组(每组n = 8),分别接受GP-1-468、GP-1-668或生理盐水溶液。在30分钟再灌注组中,左心室舒张末压的恢复分别为88±4、87±7和50±9mmHg(与生理盐水处理的对照组相比,p < 0.05);左心室容积(在12mmHg时记录)分别为112±20、132±28和41±9微升(与生理盐水处理的对照组相比,p < 0.05),冠状动脉血流量分别为13.1±0.7、13.4±1.0和9.9±0.5ml/min(与生理盐水处理的对照组相比,p < 0.05)。除了改善功能恢复外,这两种类似物在缺血期末增加了腺苷的组织含量(分别为5.4±0.6和7.3±0.5μmol/g干重,而生理盐水处理的对照组为2.7±0.4μmol/g干重;p < 0.05);然而,它们不影响三磷酸腺苷或其分解代谢产物。在24小时再灌注组中,左心室舒张末压的相应值分别为77±6和88±6,而对照组为35±4mmHg(p < 0.05),左心室容积分别为111±9和121±11,而对照组为41±8微升(p < 0.05),冠状动脉血流量分别为13.7±0.7和13.0±0.6,而对照组为11.7±0.7ml/min(无显著差异)。因此,这两种类似物都提供了早期且相当程度的收缩功能保护作用,即使在再灌注24小时后这种保护作用仍持续存在。
GP-1-468和GP-1-668均提高了缺血后早期恢复的速率和程度,并且这种保护作用至少持续24小时。这些有益作用与缺血期间腺苷组织含量的增加有关,但它们似乎与高能代谢状态无关。
