Dissociation Between Contractile Function and Oxidative Metabolism in Postischemic MyocardiumAttenuation by Ruthenium Red Administered During Reperfusion
作者:
Richard Benzi,
René Lerch,
期刊:
Circulation Research
(OVID Available online 1992)
卷期:
Volume 71,
issue 3
页码: 567-576
ISSN:0009-7330
年代: 1992
出版商: OVID
关键词: metabolism;fatty acids;glucose;reperfusion;rat hearts
数据来源: OVID
摘要:
The oxidative metabolic rate may be disproportionately high compared with contractile function in postischemic reperfused myocardium. To study the potential involvement of intracellular calcium transport in high energy expenditure after reperfusion, we determined in isolated rat hearts the effect of ruthenium red, an inhibitor of mitochondrial calcium transport, on recovery of contractile function and oxidative metabolic rate. Hearts subjected to 60 minutes of no-flow ischemia exhibited, at 15 minutes after the onset of reperfusion, poor recovery of left ventricular pressure development to only 7% of the corresponding value measured in control hearts (p<0.01). However, myocardial oxygen consumption was recovered to 84% of control (p=NS). The ratio of isovolumic contractile performance (expressed as the product of heart rate and left ventricular pressure development) to myocardial oxygen consumption was severely depressed to 6% of control (p<0.01). Supplementation of the perfusate with 6 μM ruthenium red during the initial 40 minutes of reperfusion resulted in a reduction of myocardial oxygen consumption to 65% of the value measured after 15 minutes of reperfusion in hearts reperfused without ruthenium red (p<0.01), despite a threefold increase of left ventricular pressure development (p<0.05). Oxidation of both palmitate and glucose was reduced to a comparable extent by ruthenium red. The ratio of contractile performance to myocardial oxygen consumption increased progressively during infusion of ruthenium red and did not differ further from control hearts after 30 minutes of reperfusion. Cumulative myocardial release of creatine kinase was reduced by 47% (p<0.05) in hearts reperfused with ruthenium red-containing medium. The results provide circumstantial evidence for the hypothesis suggesting that enhanced energy expenditure by intracellular calcium transport may be involved in the mechanisms underlying the dissociation between left ventricular performance and myocardial oxidative metabolic rate early after postischemic reperfusion.
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