EFFECTS OF THE SUPEROXIDE RADICAL SCAVENGER SUPEROXIDE-DISMUTASE, AND OF THE HYDROXYL RADICAL SCAVENGER MANNITOL, ON REPERFUSION INJURY IN ISOLATED RABBIT HEARTS

被引：58

作者：

AMBROSIO, G ^{[1
]}

FLAHERTY, JT ^{[1
]}

机构：

[1] JOHNS HOPKINS UNIV, SCH MED, DIV CARDIOL, BALTIMORE, MD 21205 USA

来源：

CARDIOVASCULAR DRUGS AND THERAPY | 1992年 / 6卷 / 06期

关键词：

OXYGEN RADICALS; MYOCARDIAL ISCHEMIA; REPERFUSION INJURY; SUPEROXIDE DISMUTASE; MANNITOL;

D O I：

10.1007/BF00052564

中图分类号：

R5 [内科学];

学科分类号：

1002 [临床医学]; 100201 [内科学];

摘要：

Hydroxyl radical formation, secondary to superoxide radical generation, has been advocated as the actual mechanism of oxygen radical-mediated damage in biological systems. The present study was designed to compare the efficacy of administration of the hydroxyl radical scavenger mannitol vs. that of the superoxide radical scavenger superoxide dismutase (SOD) in reducing myocardial reperfusion injury, and to test whether combined treatment with both agents would confer better tissue protection compared with either intervention alone. Rabbit hearts perfused within a P-31 nuclear magnetic resonance (P-31-NMR) spectrometer were subjected to 30 minutes of total global ischemia at 37-degrees-C. At reflow, 12 hearts in each group received either (a) a bolus of standard perfusion buffer, followed by 45 minutes of reperfusion (controls); (b) the superoxide radical scavenger recombinant human SOD (h-SOD, as a 60,000 U bolus followed by a 100 U/ml infusion for 15 minutes); (c) the hydroxyl radical scavenger mannitol (50 mM bolus followed by 15 minutes of 50 mM infusion; or (d) a combination of both agents. All treated hearts were switched to standard buffer for the remaining 30 minutes of reperfusion. Treatment with h-SOD alone was associated with a significant improvement in the recovery of cardiac contractility and coronary flow, as well as of ATP content, compared to control hearts. In contrast, mannitol treatment resulted in a small, nonsignificant improvement in these parameters. The addition of mannitol to h-SOD did not result in further significant improvement of contractility and ATP recovery compared to h-SOD alone. These data demonstrate that under our experimental conditions significant protection against reperfusion injury can be achieved by the administration of h-SOD alone, without the need for additional hydroxyl radical scavenger therapy with mannitol. These results do not exclude that significant tissue protection may be achieved by different doses of mannitol or by other agents. However, they suggest that under definite experimental conditions prevention of hydroxyl radical formation, rather than attempts to minimize hydroxyl radical toxicity, might be a more efficient method to prevent oxygen radical-mediated reperfusion injury in isolated hearts.

引用

页码：623 / 632

页数：10

共 55 条

[1]

THE RELATIONSHIP BETWEEN OXYGEN RADICAL GENERATION AND IMPAIRMENT OF MYOCARDIAL ENERGY-METABOLISM FOLLOWING POSTISCHEMIC REPERFUSION [J].

AMBROSIO, G ;

ZWEIER, JL ;

FLAHERTY, JT .

JOURNAL OF MOLECULAR AND CELLULAR CARDIOLOGY, 1991, 23 (12) :1359-1374

[2]

REDUCTION IN EXPERIMENTAL INFARCT SIZE BY RECOMBINANT HUMAN SUPEROXIDE-DISMUTASE - INSIGHTS INTO THE PATHOPHYSIOLOGY OF REPERFUSION INJURY [J].

AMBROSIO, G ;

BECKER, LC ;

HUTCHINS, GM ;

WEISMAN, HF ;

WEISFELDT, ML .

CIRCULATION, 1986, 74 (06) :1424-1433

[3]

EVIDENCE FOR A REVERSIBLE OXYGEN RADICAL MEDIATED COMPONENT OF REPERFUSION INJURY - REDUCTION BY RECOMBINANT HUMAN SUPEROXIDE-DISMUTASE ADMINISTERED AT THE TIME OF REFLOW [J].

AMBROSIO, G ;

WEISFELDT, ML ;

JACOBUS, WE ;

FLAHERTY, JT .

CIRCULATION, 1987, 75 (01) :282-291

[4]

IMPROVEMENT OF POSTISCHEMIC MYOCARDIAL-FUNCTION AND METABOLISM INDUCED BY ADMINISTRATION OF DEFEROXAMINE AT THE TIME OF REFLOW - THE ROLE OF IRON IN THE PATHOGENESIS OF REPERFUSION INJURY [J].

AMBROSIO, G ;

ZWEIER, JL ;

JACOBUS, WE ;

WEISFELDT, ML ;

FLAHERTY, JT .

CIRCULATION, 1987, 76 (04) :906-915

[5]

OXYGEN RADICALS GENERATED AT REFLOW INDUCE PEROXIDATION OF MEMBRANE-LIPIDS IN REPERFUSED HEARTS [J].

AMBROSIO, G ;

FLAHERTY, JT ;

DUILIO, C ;

TRITTO, I ;

SANTORO, G ;

ELIA, PP ;

CONDORELLI, M ;

CHIARIELLO, M .

JOURNAL OF CLINICAL INVESTIGATION, 1991, 87 (06) :2056-2066

[6]

THE ANTIOXIDANT ACTION OF N-ACETYLCYSTEINE - ITS REACTION WITH HYDROGEN-PEROXIDE, HYDROXYL RADICAL, SUPEROXIDE, AND HYPOCHLOROUS ACID [J].

ARUOMA, OI ;

HALLIWELL, B ;

HOEY, BM ;

BUTLER, J .

FREE RADICAL BIOLOGY AND MEDICINE, 1989, 6 (06) :593-597

[7]

REPERFUSION-INDUCED ARRHYTHMIAS AND OXYGEN-DERIVED FREE-RADICALS - STUDIES WITH ANTI-FREE RADICAL INTERVENTIONS AND A FREE RADICAL-GENERATING SYSTEM IN THE ISOLATED PERFUSED RAT-HEART [J].

BERNIER, M ;

HEARSE, DJ ;

MANNING, AS .

CIRCULATION RESEARCH, 1986, 58 (03) :331-340

[8]

INFLUENCE OF EXOGENOUSLY GENERATED OXIDANT SPECIES ON MYOCARDIAL-FUNCTION [J].

BLAUSTEIN, AS ;

SCHINE, L ;

BROOKS, WW ;

FANBURG, BL ;

BING, OH .

AMERICAN JOURNAL OF PHYSIOLOGY, 1986, 250 (04) :H595-H599

[9]

MARKED REDUCTION OF FREE-RADICAL GENERATION AND CONTRACTILE DYSFUNCTION BY ANTIOXIDANT THERAPY BEGUN AT THE TIME OF REPERFUSION - EVIDENCE THAT MYOCARDIAL STUNNING IS A MANIFESTATION OF REPERFUSION INJURY [J].

BOLLI, R ;

JEROUDI, MO ;

PATEL, BS ;

ARUOMA, OI ;

HALLIWELL, B ;

LAI, EK ;

MCCAY, PB .

CIRCULATION RESEARCH, 1989, 65 (03) :607-622

[10]

ATTENUATION OF DYSFUNCTION IN THE POSTISCHEMIC STUNNED MYOCARDIUM BY DIMETHYLTHIOUREA [J].

BOLLI, R ;

ZHU, WX ;

HARTLEY, CJ ;

MICHAEL, LH ;

REPINE, JE ;

HESS, ML ;

KUKREJA, RC ;

ROBERTS, R .

CIRCULATION, 1987, 76 (02) :458-468

← 1 2 3 4 5 6 →