IntroductionThe purpose of this study was to test the hypothesis that energy metabolism is impaired in residual intact myocardium of chronically infarcted rat heart, contributing to contractile dysfunction. Myocardial infarction (MI) was induced in rats by coronary artery ligation. (6), aortic stenosis (7), dilated cardiomyopathy in the Syrian hamster (8), uninephrectomy plus steroid treatment (9), or the spontaneously hypertensive rat (10). The purpose of the present work was, therefore, to define performance, oxygen consumption, and parameters of energy reserve, i.e., tissue contents of ATP and creatine phosphate (CP), creatine kinase (CK) activity and isoenzyme distribution, and phosphoryl transfer rates via CK (using 3P-magnetization transfer), in normal rat heart and in residual intact myocardium after MI. Using these measurements, we directly tested whether changes in energy metabolism can contribute to contractile dysfunction in post-MI heart. MethodsAnimals and experimental MI. Infarcts or sham operations were carried out in 12-wk-old Wistar rats, kept in a 12-h light-dark cycle. Left anterior descending coronary artery (LAD) ligation was performed by a previously described technique (1, 11). Briefly, a left thoracotomy was performed under ether anesthesia and positive pressure ventilation. The heart was rapidly exteriorized by applying gentle pressure on both sides of the thorax. The LAD was ligated between the pulmonary outflow tract and the left atrium. The heart was then replaced into the thorax, lungs were inflated by increasing positive end-expiratory pressure, and the wound was closed immediately. Sham operation was performed using an identical procedure except that the suture was passed under the coronary artery without ligation. Mortality rate of infarcted rats for the first 24 h after the operation was 40-50%. Surviving rats were kept on commercial rat chow and water ad libitum. All procedures conformed to the guiding principles of the American Physiological Society. Isolated rat heart preparation. 8 wk after LAD ligation or sham operation, rats were anesthetized by injecting 20 mg pentobarbital sodium intraperitoneally. After thoracotomy, the heart was rapidly excised and immersed in ice-cold buffer. The aorta was dissected free and mounted onto a cannula attached to a perfusion apparatus, as described previously (12). Retrograde perfusion of the heart was started in the 1092Neubauer et al.J. Clin. Invest.C) The
The importance of heart rate for left ventricular remodeling and prognosis after myocardial infarction is not known. We examined the contribution of heart rate reduction by zatebradine, a direct sinus node inhibitor without negative inotropic effects on left ventricular function and dilatation, on mortality, energy metabolism, and neurohormonal changes in rats with experimental myocardial infarction (MI). Thirty minutes after left coronary artery ligation or sham operation, the rats were randomized to receive either placebo or zatebradine (100 mg x kg(-1) x day(-1) per gavage) continued for 8 wk. Mortality during 8 wk was 33.3% in the placebo and 23.0% in the zatebradine group (P < 0.05); MI size was 36 +/- 2% and 30 +/- 1% (means +/- SE, P < 0.05), respectively. Zatebradine improved stroke volume index in all treated rats but increased left ventricular volume in rats with small MI (2.43 +/- 0.10 vs. 1.81 +/- 0.10 ml/kg, P < 0.05) but not in rats with large MI (2.34 +/- 0.09 vs. 2.35 +/- 0.11 ml/kg, not significant). Zatebradine reduced left and right ventricular norepinephrine and increased left and right ventricular 3,4-dihydroxyphenyl ethylene glycol-to-norepinephrine ratio suggesting aggravation of cardiac sympathetic activation by zatebradine after MI. Creatine kinase and lactate dehydrogenase isoenzymes in rats with MI remained unchanged by zatebradine. Lowering heart rate per se reduces mortality and MI size in this model but induces adverse effects on left ventricular remodeling in rats with small MI.
Changes in creatine kinase (CK) and lactate dehydrogenase (LDH) isoform expression occur in residual tissue after myocardial infarction. It is unknown how these changes correlate with cardiac remodeling, contractile performance and efficiency. Rats were subjected to left coronary artery ligation (MI) or sham operation (sham). Left ventricular end-diastolic pressure (EDP) was measured in vivo 8 weeks later. Hearts were isolated, buffer-perfused (Langendorff) at constant pressure and isovolumetric left ventricular (LV) pressure-volume (PV) curves were recorded. LV PV areas (PVA) were calculated and related to oxygen consumption. Biopsies of intact left ventricular tissue were taken for biochemical measurements. Correlations between in vivo EDP and biochemical parameters were found: Total CK activity (r = -.47, p = .022), CK isoenzyme percentage for BB (r = +.57, p = .004), MB (r = +.54, p = .006) and CK-mito (r = -.51, p = .012), total creatine content (r = -.61, p = .002) and the ratio of LDH5/LDH1 (r = .49, p = .016). Correlations were also detected for left ventricular volume and PVAs at in vivo EDP demonstrating that the extent of CK and LDH system alterations correlate with the extent of LV dilatation and mechanical energy requirements. The slope of the MVO(2)-PVA relation decreased significantly with increasing values of in vivo EDP (r = -.68, p = 0.0003) indicating increased contractile ef.ciency. Improved efficiency correlated with the increase in fetal CK isoenzyme expression. Thus, contractile efficiency increases parallel to the extent of left ventricular dilatation and dysfunction. CK and LDH system changes in residual intact myocardium also occur proportional to LV dysfunction.
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