Relationship between the myofibrillar ATPase activity of human biopsy material and hemodynamic parameters

The myofibrillar ATPase activity and pyrophosphate gel electrophoretic pattern of native myosin of fresh human left ventricular papillary muscles were examined in 52 cases of mitral valve replacement. The myofibrillar ATPase activity of hypertrophied myocardium did not differ from that of non-hypertrophied myocardium (mean +/- SD, 36.2 +/- 8.7 vs 31.8 +/- 8.6 nmolPi/mg/min, ns) and there was no significant difference in myofibrillar ATPase activity as a function of left ventricular enddiastolic pressure. Pyrophosphate gel electrophoresis of myosin revealed the presence of two components. It is questionable whether the component of higher electrophoretic mobility (approximately 25-35% in concentration) is identical with rat ventricular myosin VM-1 because an increase in this component seems to correlate with a decrease of myofibrillar ATPase activity, its concentration was significantly higher in the hearts with left ventricular hypertrophy, high enddiastolic pressure, high aortic pressure or low cardiac index. From these results, it is not necessarily clear whether hemodynamic overload in valvular heart diseases can alter left ventricular myofibrillar ATPase activity, but it can be said that the overload influences the concentration of the two components of native myosin revealed by pyrophosphate gel electrophoresis.     

Effects of severe hemodynamic pressure overload on the properties of canine left ventricular myosin: mechanism by which myosin ATPase activity is lowered during chronic increased hemodynamic stress.

Left ventricular myosin ATPase activity, expressed as enzymatic V_max values, was analyzed in dogs subjected to severe left ventricular pressure overload (aortic stenosis). K⁺ and Ca²⁺ activated myosin ATPase activities in the left ventricle (LV) were significantly depressed (P < .01) in the experimental animals. For normal K⁺ activated myosin the V_max values in micromoles of Pi per mg per min were: right ventricle 2.10; left ventricle, 2.84. For Ca²⁺ activated myosin the V_max values were: right ventricle, 0.77; left ventricle 0.97, when assayed at 37°C. Myosin enzymatic activity in the left ventricle progressively declined following severe aortic banding, reaching a value similar to that observed for normal right ventricular myosin; NH₄⁺ activated left ventricular myosin ATPase activity remained unchanged (7.20 ± 0.4 μmol PO₄/mg.min). Left ventricular myosin from the hearts subject to severe stress simulated normal right ventricular myosin in ATPase activity, chain proportions and degree of calcium binding, Normal left ventricular myosin contained approximately 10% of the myosin protein concentration in the light chains; myosin from the left ventricles of the hemodynamically overloaded hearts contained 20% of the myosin protein concentration in the light chains (P < .001). With only one of the myosin light chains binding calcium left ventricular myosin from the stressed hypertrophied tissue bound approximately 2 mol Ca²⁺ mol^?1 myosin similar to myosin of the normal right ventricle; normal left ventricular myosin bound approximately 1 mol of Ca²⁺ mol^?1 myosin.     

Reduction of myofibrillar ATPase activity and isomyosin shift in delayed doxorubicin cardiotoxicity

The aim of this study was to determine whether variations of isomyosin expression occurred during doxorubicin-induced cardiomyopathy. A suitable experimental model in which pure delayed cardiotoxic effects could be easily studied was adopted. Young adult female Sprague Dawley rats received 9 mg/kg of doxorubicin (DXR) i.v. divided into three subdoses of 3 mg/kg every third day. Control animals received equal volumes of saline. The animals were examined 9 weeks after treatment. At this time the animals treated with DXR showed ECG alterations, reduction of body weight and a marked decrease of both atrial and ventricular mass, but were still fully hemodynamically compensated. Loss of myofibrillar material could be documented by the reduced recovery of myofibril and myosin. The contractile response of papillary muscles isolated from the right ventricle of treated animals was markedly impaired. Ca-Mg-activated and Mg-activated myofibrillar ATPase activity and Ca-activated myosin ATPase activity were determined on ventricular myocardium of control and treated animals. Both myofibrillar and myosin ATPase activities were found to be significantly reduced. Pyrophosphate gel electrophoresis of purified myosin was carried out. The isomyosin pattern of DXR-treated animals showed a pronounced shift towards V3, the percent of alpha heavy chains being 54.6% in treated rats (80.5% in control rats). This isomyosin shift can explain the reduced myofibrillar and myosin ATPase activity found in treated animals.     

Experimental right ventricular hypertrophy and failure in swine.

Following pulmonary arterial constriction, 22 pigs developed right ventricular failure and 10 right ventricular hypertrophy. Comparing results with those obtained in 21 normal pigs (no pulmonary artery constriction), it was found the right ventricular peak systolic and end-diastolic pressures, cardiac output, and right ventricular weight distinguished hypertrophied and failing hearts from normal ones. Cardiac output was lower in failing hearts than in hypertrophied hearts and was the only variable which significantly differentiated between these two groups. Left ventricular pressures and left ventricular and right ventricular dP/dtmax, and maximum [(dP/dt)/P] did not distinguish failing from hypertrophied hearts. Left ventricular pressure, maximum [(dP/dt)/P] and left ventricular and right ventricular dP/dtmax were not significantly different in the three groups.     

Species-dependent changes in mechano-energetics of isolated cardiac muscle during hypoxia

The present study investigates the mechanical and energic changes induced by hypoxia in isolated cardiac muscles of different species characterized by different myosin isoforms. Classic mechanical parameters of contraction and energetic parameters derived from the tension-velocity relationship were studied in rat and guinea pig left ventricular papillary muscles and in frog ventricular strips before and after 15 min hypoxia (n = 8 in each group) The isomyosin pattern is predominantly V1 with high ATPase activity in rat and V3 with low ATPase activity in guinea pig and frog heart ventricles. At baseline, cardiac mechanical performace was greater in rat than in guinea pig and frog muscle, but the economy of tension generation did not differ significantly between the three species. Hypoxia significantly decreased myocardial mechanical performance in al three groups. Mechanical impairment was more marked in rat than in the other two species and was intermediate in guinea pig. The energetic consequences of hypoxia differed according to species and in a different manner from the mechanical parameters. Hypoxia decreased the economy of tension generation in rat heart, in contrast to no change in guinea pig and frog muscle. These results suggest that in terms of mechano-energetic properties, cardiac muscles with V1 isomyosin were more sensitive to hypoxia than those containing V3 isomyosin. Received: 8 October 1999 Returned for revision: 3 November 1999 Revision received: 28 January 2000 Accepted: 23 February 2000     

Age dependent changes in myosin ATPase activity in the myocardium of spontaneously hypertensive rats

Male spontaneously hypertensive rats (SHR) and age matched Wistar Kyoto normotensive (WKY) rats of 5 weeks, 16 weeks, and 52 weeks of age were used to determine whether duration of hypertension has any effect on contractile protein ATPase and myosin isoenzyme distribution. Myofibrils, actomyosin, and myosin were isolated from the left ventricles of WKY rats and SHR and assayed for myosin ATPase activity and myosin isoenzyme distribution. Myofibrillar ATPase activity was assayed at various free [Ca++] ranging from 10(-7) to 10(-5) mol X litre-1. Ca++ stimulated actomyosin ATPase activity was determined at several Ca++ concentrations both at low ionic strength, which favours actin-myosin interaction, and at high ionic strength, which diminishes actin interaction with myosin. Purified myosin ATPase activity was assayed in the presence of K+-EDTA and in the presence of several concentrations of Ca++. Actin activated myosin ATPase activity was assayed using 26 mumol X litre-1 skeletal muscle actin. Under all these assay conditions no differences were observed in the contractile protein ATPase activity between SHR and WKY rats in any age group. On the other hand, in both SHR and WKY rats the contractile protein ATPase activity under all assay conditions was significantly decreased in 52 week old rats compared with 5 week old rats. The predominant myosin isoenzyme was Vi in 5 week and 16 week old WKY rats and SHR. In 52 week old WKY rats and SHR, however, significant amounts of isoenzymes V2 and V3 were present along with V1. Percentage distribution of V1, V2, V3 isoenzymes calculated from densitometric scans of gels did not show any differences between WKY rats and SHR in any age group. These results suggest that neither myosin ATPase activity nor myosin isoenzyme distribution is altered in the moderately hypertrophied left ventricles of SHR. Moreover, the data indicate that the myocardium of SHR, despite the persistence of pressure overload, undergoes a similar decrease in myosin ATPase activity and an increase in myosin isoenzyme V3 to age matched normotensive WKY rats.     

The effects of gonadectomy on left ventricular function and cardiac contractile proteins in male and female rats

To examine the influence of the sex hormones on mechanical properties and biochemistry of the adult heart, we studied left ventricular function and cardiac contractile proteins in hearts from 20-week-old male and female rats that had been gonadectomized at 18 days of age, compared with hearts from sham-operated animals. Testosterone and estradiol were not detectable in serum from male and female gonadectomized rats, respectively. The male rats had lower body and heart weights than male sham operated rats, whereas these values were higher in female gonadectomized than in female sham-operated rats. Left ventricular function was studied in a working heart apparatus at similar heart rate and at controlled levels of aortic diastolic pressure and left atrial pressure. At moderate left atrial pressure, end-diastolic pressure and volume per gram dry left ventricle were the same in all groups, but at high left atrial pressure, end-diastolic pressure, and volume per gram dry left ventricle were lower in male and female gonadectomized than in the respective sham-operated rats. Further increases in left atrial pressure were associated with mechanical alternans in male and female gonadectomized rats. Significantly (P less than 0.05) lower values for cardiac output, peak systolic pressure, ejection fraction, and myocardial oxygen consumption occurred in male gonadectomized compared with sham-operated rats at moderate and high left atrial pressure at higher levels of aortic diastolic pressure. Decreases in these values for female gonadectomized compared with sham-operated rats occurred only at high left atrial pressure. A significant downward shift in the mean force-velocity relationship was observed in all gonadectomized rats at both moderate and high left atrial pressure. In a follow-up study, when end-diastolic pressure was kept the same at both moderate and high left atrial pressure in female sham-operated and gonadectomized rats by reducing heart rate, decreases in contractile function in gonadectomized rats were observed at all preloads. Ca++-myosin ATPase activity was significantly reduced by 34% in male and by 19% in female gonadectomized rats when compared to respective sham-operated control hearts. These alterations in myosin ATPase activity were associated with a reduction in the V1 myosin isoenzyme and an increase in the V3 isoenzyme. Thus, left ventricular filling and left ventricular function were impaired in hearts of gonadectomized rats. Alterations in function were associated with depressed cardiac myosin ATPase activity in male and female gonadectomized rats.(ABSTRACT TRUNCATED AT 400 WORDS)     

Comparison between isomyosin pattern and contractility of right ventricular myocytes isolated from rats with right cardiac hypertrophy

Summary The contractile properties of single rat cardiac cells isolated from normal and hypertrophied right ventricles have been investigated. These have been correlated with the isoenzyme composition of the whole ventricle. Right cardiac hypertrophy was induced by injecting rats with monocrotaline, an alkaloid which induces severe pulmonary hypertension. Ca²⁺ ATPase activity and myosin alpha-chain percentage were decreased in the hypertrophied right ventricle as compared with that of control rats. The contraction amplitude and speed of shortening of the isolated cells were measured using an inverted microscope, video camera, and edge detection device. Cells from the hypertrophied ventricle showed a significantly decreased contraction amplitude and speed of shortening in maximally activating concentrations of isoprenaline. A statistically significant correlation existed between myosin alpha-chain percentage and both contraction amplitude and speed of shortening in maximum isoprenaline. This was truc when all cells studied were included, as well as within the hypertrophy group. A similar, although not always statistically significant, correlation was observed when cells were maximally activated with calcium. These results suggest that changes in isomyosin pattern that occur in cardiac hypertrophy produce alterations in contraction amplitude and speed of shortening which can be detected in single cells isolated from the hypertrophied ventricles. Isolated cells appear to give responses representative of the function of the whole heart.     

Propranolol-induced changes in ventricular isomyosin composition in the rat

The ventricular isomyosin composition in the rat is characterized by three isoenzymes, V1, V2, and V3, with high, intermediate, and low Ca++-activated ATPase activity, speed of muscle shortening, and contractile economy. In this study, we examined the effects of propranolol on ventricular isomyosin composition in the rat. Eight 4-week-old male Wistar rats were treated from 4 to 12 weeks of age with daily 10 mg/kg subcutaneous doses of propranolol; four control rats were given subcutaneous distilled water. At the end of the treatment period, the efficacy of beta blockade was confirmed by isoproterenol test in some rats from each group. After the rats were killed left ventricular myosin from both control and propranolol-treated animals was purified and tested for Ca++-activated ATPase activity. Ventricular isomyosin composition was studied by gel electrophoresis in non-denaturing conditions. Heart rate was significantly lower in the propranolol group, while no differences in blood pressure, body weight, or ventricular weight were found between the two groups. Lower Ca++-activated ATPase activity values and a higher expression of myosin isoenzymes V2 and V3 were found in propranolol-treated rats. Possible links between the observed shift in ventricular isomyosin composition and the well-known modifications in myocardial contractility and oxygen consumption occurring after chronic propranolol administration remain to be established.     

The ATPase activity of cardiac myosin from failing and hypertropied hearts.

We have measured the EDTA and Ca²⁺ activated ATPase activity of myosin from hearts of normal dogs, dogs in gross heart failure and dogs with cardiac hypertrophy without failure. Heart failure was caused by systolic and/or diastolic hemodynamic loads. Under one or more assay conditions, depressed ATPase activity was consistently found for myosin from failing hearts. In contrast to myosin from hearts with diastolic loads, myosin from failing hearts with pulmonic stenosis in the presence of Ca²⁺ and 0.1 m KCl showed normal mean ATPase activity with several preparations having elevated activity. Elevated ATPase activities were obtained for myosin from the non-failing, but hypertrophied hearts of dogs with aortic stenosis. The data suggest that the interaction of ionic strength and pH with the ATPase active site of suggest that the interaction of ionic strength and pH with the ATPase active site of myosin from failing hearts is altered, thus modifying the ATPase activity in the presence of Ca²⁺ or EDTA. The altered interaction may be modified by the presence of hypertrophy, resulting in normal or increased activity in the presence of Ca²⁺ and decreased activity in the presence of EDTA.     

钙调神经磷酸酶在人类心肌中的表达与分布

目的 了解钙调神经磷酸酶(CaN)在人类健康心肌和衰竭心肌中的表达与分布.方法 以12例行移植手术的终末期衰竭心脏和5例因车祸丧生的"健康供体"心脏为研究对象,分别利用免疫组化和Western blot技术对左、右心室中CaN的表达与分布进行研究.结果 CaN在心脏的心肌细胞、纤维母细胞、心外膜间皮细胞中染色阳性,且Western blot实验在后两种细胞中均检测到单一的58 000带,心肌内血管内皮细胞和平滑肌细胞中CaN染色阴性.与"供体"心肌比较,无论左心室还是右心室,衰竭心肌的CaN蛋白水平差异均无统计学意义(衰竭右心室和供体右心室电泳带强度分别为130.20±8.66和139.87±6.21,P=0.33.衰竭左心室和供体左心室电泳带强度分别为106.45和126.34±12.09),且左右心室肌CaN蛋白水平差异也无统计学意义(衰竭心肌左、右心室电泳带强度分别为96.99±10.67和104.58±13.18,P=0.63.供体心肌左、右心室电泳带强度分别为132.12和120.74).结论 CaN存在于人类心脏多数类型细胞中,包括心肌细胞、纤维母细胞和心外膜间皮细胞.心力衰竭时,CaN蛋白水平没有改变.     

Altered myocardial contractility and energetics in hypertrophied myocardium

Alterations of myocardial contractility and energetics were examined in cardiac hypertrophy induced by different types of cardiac overload. Myocardial contractility was estimated by isometric contraction of isolated left ventricular papillary muscles. Myocardial energetics were assessed from ventricular myosin isoenzyme patterns obtained by pyrophosphate gel electrophoresis. Cardiac hypertrophy was induced by endurance swim-training and sustained pressure-overload by abdominal aortic constriction or volume-overload created by an arteriovenous shunt. In swim-trained hypertrophied myocardium, isometric developed tension (T) and dT/dtmax showed a tendency to increase and response of dT/dtmax to isoproterenol increased significantly as compared with sedentary rats. Training shifted the left ventricular myosin isoenzyme pattern toward VM-1, which has the highest ATPase activity. In pressure- or volume-overloaded myocardium, dT/dtmax decreased significantly and mechanical response to isoproterenol also decreased (or tended to decrease in volume-overloaded hearts) as compared with the respective sham-operated controls. In pressure- or volume-overloaded hearts, left ventricular myosin isoenzyme pattern shifted toward VM-3, which has the lowest ATPase activity. These results indicate that alterations in myocardial contractility, mechanical catecholamine responsiveness and myocardial energetics in hypertrophied myocardium do not always display the same trend, but are greatly influenced by the causes or duration of cardiac overload.     

Myosin isoenzymes in normal and hypertrophied human ventricular myocardium

We tested the hypothesis that hypertrophy of the human heart is associated with the redistribution of ventricular isomyosins. Human cardiac myosin was isolated from autopsy samples of left ventricular free wall of patients with cardiac hypertrophy and of fetal, young, and adult subjects without heart disease. The following parameters were studied: electrophoretic migration in denaturing and non-denaturing conditions; immunological cross-reactivities with three different types of antibodies; and early phosphate burst size and steady state ATPase activities stimulated by K+-EDTA, Ca++, Mg++, and actin. The antibodies were chosen for their ability to recognize selectively the rat V1 and V3 cardiac isomyosins. The first type was a monoclonal antibody, CCM-52, prepared against embryonic chick cardiac myosin, the second was an anti-beef atrial myosin, and the third was an anti-rat V1 myosin. CCM-52 reacted with a greater affinity with rat V3 than with rat V1, and was a probe of mammalian V3. Anti-beef atrial myosin and anti-rat V1 myosin both recognized specifically beef atrial and rat V1 myosins, and were thus considered as probes of mammalian V1. Under non-denaturing conditions, human myosins migrated as rat V3 isomyosin; under denaturing conditions, no difference was observed in any of the electrophoretic parameters between all samples tested, except for the fetal hearts which contained a fetal type of light chain. The immunological studies indicated that human myosins were composed mostly of a V3 type (HV3), but contained also some V1 isomyosin. A technique was developed to quantify the amount of human VI isomyosin which was found to range from almost 0 to 15% of total myosin, and to vary from one heart to the other, regardless of the origin of the heart. Enzymatic studies showed no significant difference between normal, hypertrophied, and fetal hearts in any of the activities tested. However, there was a significant correlation between Ca++-stimulated ATPase activities and HV1 amount (at 0.05 M KCl, n = 18, r2 equal 0.49, P less than 0.01; at 0.5 M KCl, n = 18, r 2 = 0.5, P less than 0.01). These data demonstrate the heterogeneity of human ventricular myosin, which appears to be composed, as in other mammalian species, of V1 and V3 isoforms of different ATPase activities (V1 greater than V3). However it seems that V1 to V3 shifts do not appear to be of physiological significance in the adaptation of human heart to chronic mechanical overloads.     

Structure and function of contractile proteins in human dilated cardiomyopathy

The pathogenesis of reduced systolic left ventricular function in dilated cardiomyopathy is yet unclear. To analyze a possible involvement of contractile protein, function and structure of left ventricular myofibrils were examined in hearts of patients with advanced cardiomyopathy undergoing heart transplantation and in normal control hearts (from renal transplant donors). Myosin and actin content of the left ventricular myocardium was slightly reduced in cardiomyopathic hearts. Myofibrillar polypeptide composition was determined using two-dimensional electrophoresis and immunoblotting. No differences in constituting polypeptides were apparent, including Z-line proteins and proteins of the endosarcomeric lattice. M-line-bound creatine kinase was identical in both groups. Further, basal and maximal myofibrillar adenosine triphosphatase (ATPase) activities were unaltered in dilated cardiomyopathy. The structure of purified myosin was identical in both groups by the following criteria: electrophoretic mobility of native myosin, identical pattern of light chains after isoelectric focusing, identical cleavage peptides of myosin's heavy chain, and identical patterns after immunoblotting of heavy chain cleavage peptides using polyclonal antibodies generated against myosin from normal and cardiomyopathic ventricles. Ca2+-activated, K+-EDTA-activated and actin-activated myosin ATPase activities were identical in control and cardiomyopathic hearts. A structural alteration or functional defect of myofibrils does not seem to be primarily involved in the pathogenesis of reduced myocardial contractility in dilated cardiomyopathy.     

Regulatory proteins in hamster cardiomyopathy

We have shown in genetic myopathic hamsters that cardiac myofibrillar ATPase regulation by calcium is altered and that there are shifts in myosin isozyme distribution (V1----V3) suggesting abnormalities in multiple components of the contractile apparatus. To focus more on the regulatory proteins (troponin and tropomyosin), individual proteins of the skeletal and cardiac actomyosin system were reconstituted under controlled conditions. In this way, myosin plus actin and troponin-tropomyosin from the normal and myopathic animals could be studied enzymatically. The proteins were isolated from the skeletal or cardiac muscle of random-bred control and cardiomyopathic hamsters (BIO 53:58) at 7 months of age. Sodium dodecyl sulfate gel electrophoretic patterns indicated differences in the troponin I and troponin C regions of myopathic skeletal muscle, but cardiac samples from control and myopathic hamsters showed similarities in their mobilities. This suggests the possibility of different cardiac isozymes in the regulatory protein complex, as reported in our previous studies of cardiac myosin in cardiomyopathy. Calcium sensitivity was markedly decreased in the actomyosin reconstituted with troponin-tropomyosin from skeletal as well as cardiac muscle from myopathic animals. In summary, our data show that the regulatory proteins in skeletal and cardiac muscle of the myopathic hamsters have decreased inhibitory action on Mg2(+)-actomyosin ATPase activity. This loss of calcium regulation along with shifts in cardiac myosin heavy chain may be partially responsible for the impaired cardiac function in the hearts of myopathic hamsters.     

The effect of streptozotocin-induced diabetes in rats on cardiac contractile proteins

In order to determine whether diabetic cardiomyopathy in rats is associated with altered contractile proteins, male and female rats were made diabetic with intravenous streptozotocin (STZ). Calcium ATPase activity of cardiac actomyosin was significantly decreased after 1 week of diabetes and was depressed by 60% by 2 weeks. Rats pretreated with 3-O-methyl glucose to prevent the hyperglycemia caused by STZ had normal Ca2+-actomyosin ATPase activities, and non-diabetic rats whose food was restricted to keep their body and heart weights similar to those found in diabetic animals had only a slight fall in actomyosin ATPase activity. Ca2+-ATPase and actin-activated ATPase activities of pure myosin were similarly depressed in preparations from hearts of diabetic animals. Sodium dodecylsulfate gel electrophoresis and isoelectric focusing failed to reveal differences in the patterns of contractile proteins or light subunits between diabetics and controls, but pyrophosphate gels showed a shift in the myosin pattern. Because of depressed circulating thyroid hormone levels in diabetic animals, cardiac contractile proteins were also studied in preparations from thyroidectomized rats. Calcium activities of actomyosin and myosin ATPase were lower than values found in hearts of diabetic rats. When diabetic animals were kept euthyroid with thyroid replacement, actomyosin ATPase activity was still depressed. Thus STZ diabetes causes a significant decrease in cardiac contractile protein ATPase activity. This may be related to altered proportions of myosin isoenzymes.     

Multiple cardiac contractile protein abnormalities in myopathic Syrian hamsters (BIO 53 : 58)

Hearts of genetically myopathic male hamsters (BIO 53 : 58) were studied at 1 month, 2 months, 3 months, 4 to 5 months and 7 months of age. The time course of alterations in the cardiac myofibrillar ATPase activity, the relationship of myofibrillar ATPase activity to free [Ca2+], myosin ATPase activity and the distribution of heavy chain myosin isoenzymes were evaluated. Mg2+-Ca2+ ATPase activity of cardiac myofibrils in myopathics was increased in 4 month and 7 month-old hamsters. Elevated Mg2+ ATPase activity was found as early as in 2-month-old hamster. However, there was no loss in the regulation of the myopathic myofibrillar assembly as measured by the PCa response (10(-7) M to 10(-4) M Ca2+). Scans of SDS electrophoresis slab gels of cardiac myofibrillar proteins from control (C) and myopathic animals (M) did not show any differences at any age group (1, 4 and 7 months). There was a significant decrease in myosin Ca2+ ATPase activity and actin activated Mg2+-ATPase activity at 4 to 5 months and 7 months of age in the myopathic hearts. At all ages in normal and myopathic animals cardiac myosin consisted of three isoenzymes, V1, V2 and V3. At all ages in controls and at 1 to 3 months in myopathics, V1 predominated and the isoenzyme distribution was V1 greater than V2 greater than V3. However, in myopathics at 4 to 5 months, the distribution was V1 = V3 greater than V2 and at 7 months was V3 greater than V2 greater than V1. Our experiments suggest alterations in different components of the contractile protein system that occur at different stages of myopathy.     

Shortening velocity and myosin and myofibrillar ATPase activity related to myosin isoenzyme composition during postnatal development in rat myocardium

The relation between functional properties of the contractile apparatus, such as shortening velocity and ATPase activity, and myosin isoenzyme composition was studied in ventricular myocardium of adult (60-90-day-old) rats and of newborn (3-day-old) and young (10- and 20-day-old) rats. In adult animals, variations of isomyosin pattern were produced by reducing food intake and by changing the thyroid state. Hyperthyroidism was induced with triiodothyronine daily injection for 15 days; hypothyroidism was induced with iodine-free diet and KClO4 in drinking water for 50-60 days. The following parameters were studied: 1) calcium-magnesium-activated and magnesium-activated ATPase activity of washed and purified myofibrils, 2) calcium-activated ATPase activity of purified myosin, 3) isomyosin composition and relative content of alpha-myosin heavy chains (alpha-MHCs), and 4) force-velocity curve of left and right ventricle papillary muscles. To take into account the difference in excitation-contraction coupling between newborn and adult myocardium, the determination of the force-velocity curve was repeated in Krebs' solution with normal [CaCl2] (2.5 mM) and in Krebs' solution with high [CaCl2] (10 mM). During postnatal growth, the relative content of alpha-MHC increased and reached a maximum at about 20 days. Pronounced increases of myofibrillar and myosin ATPase activity and in shortening velocity occurred during the same period. In adult hyperthyroid rats, alpha-MHC content as well as enzymatic activity and shortening velocity were higher than in control adult animals. Hypothyroidism and food deprivation caused a decrease of alpha-MHC content and a reduction of both enzymatic activities and shortening velocity. The study of the relations between alpha-MHC relative content and functional parameters showed that 1) in ventricular myocardium of adult rats a linear relation existed between alpha-MHC content and myosin and myofibrillar ATPase activity and shortening velocity, and 2) in newborn and young rat ventricular myocardium, both enzymatic activities and shortening velocity were lower than would have been expected on the basis of the linear relation described above. This latter observation could be accounted for by a variation in specific activity of myosin during postnatal development or by the presence of peculiar isomyosins that cannot be detected with usual electrophoretic techniques.     

Heart myosin adenosine triphosphatase and light subunits in experimental chronic aortic insufficiency in the rabbit

Cardiac myofibrillar and myosin ATPases were studied in experimentally induced aortic insufficiency in the rabbit, in order to elucidate the pathogenesis of the defect in myofibrillar ATPase shown in chronically hypertrophied and/or failing hearts. The rabbits were killed 345 ± 32 days after the operation; 24% of them had clinical or anatomical signs of failure. They all had hypertrophic hearts (mean degree of hypertrophy, 64%) with dilatation.Heart myofibrillar Ca²⁺ ATPase was found to be lowered in aortic insufficiency. Three different preparations of myosin were also studied. The purity of these preparations was assessed by urea or SDS polyacrylamide gel electrophoresis or by measuring Mg²⁺-ATPase in a medium of low ionic strength. The first preparation (homogenized muscle) was highly contaminated by thin-filament proteins; the second (minced muscle) was rather pure but still contaminated by a nucleoprotein; the latter was separated by chromatography in the third preparation. Myosin Ca²⁺-ATPase measured in a medium of low or high ionic strength at pH 7.0 was decreased in aortic insufficiency when all three preparations were tested.On electrophoresis myosin light subunits were normal in aortic insufficiency. The search for an inhibitor was unsuccessful: the two myosin ATPase activities were additive and ribonuclease treatment did not normalize hypertrophied heart myosin. The “nucleoprotein” peak separated from myosin during chromatography had an inhibitory effect on myosin ATPase but was present in controls as well as in aortic insufficiency.This work suggests that myosin itself is abnormal in chronic aortic insufficiency, but an abnormality residing in a very closely associated factor could not definitely be excluded. Because myosin subunits were only studied by electrophoresis, their structures and relative amounts would need more detailed study before final conclusions could be reached.     

Beta-adrenergic receptors and calcium cycling proteins in non-failing, hypertrophied and failing human hearts: transition from hypertrophy to failure.

Left ventricular hypertrophy may lead to heart failure. The transition between hypertrophy and heart failure is, however, incompletely understood. On the cellular level, human heart failure is characterized by alterations in Ca(2+)-cycling proteins and beta-adrenergic receptor density, but the hypertrophied human heart remains largely under studied. In this investigation, 21 donor hearts which could not be used for transplantation were studied. Ten of these hearts came from organ donors with documented left ventricular hypertrophy and normal cardiac function. Eleven of the hearts were non-failing, obtained from individuals with no evidence of cardiac disease. Nine failing hearts from transplant recipients were also studied. beta-adrenergic receptor density was determined by radioligand binding. mRNA for atrial natriuretic factor, calsequestrin, sarcoplasmic reticulum Ca(2+)-ATPase, and phospholamban was measured by Northern blot. Actin, calsequestrin, sarcoplasmic reticulum Ca(2+)-ATPase, and phospholamban proteins were quantified by Western blot. In both hypertrophied and failing ventricles, mRNA for atrial natriuretic factor was expressed, as compared to no expression in non-failing hearts. In failing hearts, beta -adrenergic receptor density and both mRNA and protein levels of the Ca(2+)-ATPase were significantly decreased v non-failing hearts. By comparison, hypertrophied hearts showed a reduction in mRNA expression for both the Ca(2+)-ATPase and phospholamban with no change in the corresponding protein levels, and no change in beta-receptors. These data suggest that the previously demonstrated reduction in beta-adrenergic receptors and Ca(2+)-cycling proteins in the failing human heart may be features of the decompensated state, but are not found in human hearts with left ventricular hypertrophy and preserved systolic function.