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OBJECTIVE: Many patients with heart failure have whole-body insulin resistance and reduced cardiac fluorodeoxyglucose uptake, but whether these metabolic changes have detrimental effects on the heart is unknown. Here, we tested whether there is a link between insulin resistance and ischemic damage in the chronically infarcted Wistar rat heart, postulating that the heart would have decreased insulin sensitivity, with lower GLUT4 glucose transporter protein levels due to high circulating free fatty acid (FFA) concentrations. A decreased capacity for glucose uptake would lower glycolytic adenosine triphosphate (ATP) production and thereby increase ischemic injury in the infarcted heart. METHODS AND RESULTS: In vivo left ventricular ejection fractions, measured using echocardiography, were 40% lower in rats 10 weeks after coronary artery ligation than in sham-operated control rats. Insulin-stimulated D[2-3H]glucose uptake was 42% lower in isolated, perfused, infarcted hearts. Myocardial GLUT4 glucose transporter protein levels were 28% lower in the infarcted hearts and correlated negatively with ejection fractions and with fasting plasma FFA concentrations. Compared with controls, chronically infarcted hearts had 46% lower total glucose uptake and three-fold faster ATP hydrolysis rates, measured using phosphorus-31 nuclear magnetic resonance spectroscopy, during 32-min ischemia at 0.4 ml/min/gww. During reperfusion, recovery of left ventricular developed pressure in infarcted hearts was 42% lower than in control hearts. CONCLUSIONS: Glucose uptake, in response to insulin or ischemia, was lower in the chronically infarcted rat heart and associated with increased circulating FFA concentrations and decreased GLUT4 levels. Thus, infarcted hearts had greater ATP depletion, and consequently incurred greater damage, during ischemia.

Original publication

DOI

10.1016/j.cardiores.2006.02.031

Type

Journal article

Journal

Cardiovasc Res

Publication Date

01/07/2006

Volume

71

Pages

149 - 157

Keywords

Adenosine Triphosphate, Animals, Echocardiography, Energy Metabolism, Fatty Acids, Nonesterified, Glucose, Glucose Transporter Type 4, Glycogen, Insulin, Insulin Resistance, Magnetic Resonance Spectroscopy, Male, Models, Animal, Myocardial Infarction, Myocardial Reperfusion Injury, Myocardium, Perfusion, Rats, Rats, Wistar, Time Factors, Ventricular Dysfunction, Left