EC:3.6.4.1 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.6.4.1 (myosin ATPase)
1,140 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

To study the diastolic properties of the heart includes examining active relaxation, passive ventricular stiffness and atrial contraction. (i) The main determinant of active relaxation is the adenosine triphosphate (ATP) concentration. Relaxation needs to occur so that the ATP content of the cell can be decreased by activation of the myosin ATPase, which in turn depends upon an intracellular messenger, elevation of the calcium transient. In a model of cardiac hypertrophy active relaxation is always slower. This slowing accompanies a slowing of the calcium transient, a diminution in the activity of the Na+/Ca2+ exchanger, a change in the properties of Na+, K+ ATPase and a decreased concentration of Ca2+ ATPase in the sarcoplasmic reticulum. (ii) Chamber stiffness is likely to be increased only in relation to the degree of ventricular hypertrophy. The main, if not unique, determinant of ventricular diastolic tissue stiffness is the structure and concentration of the collagen. Consequently tissue stiffness is augmented in cardiac hypertrophy in which the ventricular collagen concentration is elevated. It is important that both clinically and experimentally cases of cardiac hypertrophy, even those resulting from pressure overload in which myocardial stiffness and cardiac collagen concentration remain unchanged, have been documented. A good example of this is the DOCA-salt model of arterial hypertension. (iii) Atrial contraction is normally more rapid than ventricular contraction, the biological basis for which is the difference in isomyosin content.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Biological basis of diastolic dysfunction of the hypertensive heart. 139 55

The mechanisms by which the aged heart adapts to a superimposed pressure load such as hypertension have not been described. We therefore investigated biochemical and molecular genetic adaptations in the 24-month-old rat heart subjected to renovascular hypertension. Compared with 4-month-old rats, aging was associated with a 68% increase in left ventricular mass without any change in heart weight-to-body weight ratio, a 33% reduction in calcium-activated myosin ATPase activity, and a shift from a V1 to a V3 predominant myosin heavy chain (MHC) isoform distribution. A 46% reduction in alpha-MHC mRNA and a reciprocal increase in beta-MHC mRNA was seen. When hypertension was superimposed, there was a further 75% increase in ventricular mass, a 63% increase in heart weight-to-body weight ratio, and a 19% reduction in myosin ATPase. Myosin isozyme distribution was further shifted to V3, and the ratio of alpha-MHC to beta-MHC mRNA was reduced. In addition, with hypertension a significant (greater than 50%) reduction in the mRNA level of the cardiac sarcoplasmic reticular calcium-activated ATPase was seen. These data demonstrate that the aged myocardium is able to respond to a superimposed pressure load with a molecular genetic and protein synthetic pattern of hypertrophy analogous to that seen in younger animals.
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PMID:Effect of aging and hypertension on myosin biochemistry and gene expression in the rat heart. 183 8

After myocardial infarction in rats, muscle performance in the remaining hypertrophied myocardium deteriorates and is associated with a decrease in myosin adenosinetriphosphatase (ATPase) activity and a shift to the V3 myosin heavy-chain isoform. We have previously shown in another model of hypertrophy, secondary to renovascular hypertension, that chronic intermittent adrenergic stimulation with dobutamine (Db) can prevent this biochemical adaptation. The present study was undertaken to assess the effects of chronic Db treatment on cardiac mass, function, metabolism, and myosin biochemistry in animals subjected to chronic myocardial infarction. Four groups of rats were studied: controls, animals treated with Db (2 mg/kg 2X daily for 4 wk), animals subjected to myocardial infarction and killed after 4 wk (MI), and MI animals concurrently treated with Db for 4 wk (MI-Db). The two MI groups were subdivided into those with and without congestive heart failure (CHF). Heart weight was increased by 13% with Db, unchanged in the infarct groups without CHF, and increased by 9 and 22% in the infarct groups with CHF. Db did not have any additional effect on heart weight in these later groups. Infarct weight was greatest in the animals with CHF, and viable myocardium was equivalent in all infarct groups suggesting that CHF was associated with a greater degree of hypertrophy. Ventricular performance, as assessed in an isovolumic heart apparatus, was markedly depressed in both infarct groups with CHF and was not affected by Db. Db increased myosin ATPase activity in control and infarcted animals both with and without congestive heart failure. Myosin oxygen consumption and lactate production were not adversely affected by Db.
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PMID:Effects of chronic dobutamine on cardiac mechanics and biochemistry after myocardial infarction in rats. 199 90

Left ventricular papillary muscle function, transmembrane action potentials, myosin adenosinetriphosphatase (ATPase) and isoenzyme distribution, and myocardial pathology were studied in hypertensive (H), diabetic (D), hypertensive-diabetic (HD), and control (C) rats. There was approximately 50% relative left ventricular hypertrophy in H and HD rats. Relative lung and liver weights were greater in HD rats. Peak velocity of shortening tended to decrease progressively in H, D, and HD rats. The duration of contraction and relaxation was markedly prolonged in Ds and HDs. The length-developed tension relation was blunted in HDs. The negative inotropic effect of verapamil was similar in all groups. Resting membrane potential and amplitude were decreased in D and HD rats. Action potential duration was increased in H, D, and especially HD rats. The shortening of action potential duration with increased stimulus frequency was greater in H, D, and especially HD rats than in Cs. Left ventricular myosin ATPase and V1 isoenzyme content decreased progressively in H, D, and HD rats. Right ventricular V1 isoenzyme content was not affected in H rats but was markedly decreased in D and HD rats. Left (and right) ventricular pathology was unchanged in rats with diabetes but was increased in rats with hypertension. These data suggest that the combination of myocardial pathology (due to hypertension) and cellular dysfunction (caused mainly by diabetes) may result in cardiomyopathy and congestive heart failure in the HD rat.
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PMID:Hypertensive-diabetic cardiomyopathy in rats. 213 24

Spontaneously hypertensive rats (SHR) and normotensive Wistar-Kyoto (WKY) rats were used to investigate the adaptive biochemical changes in the myocardium in response to chronic afterload. Ouabain-inhibited Na+,K+-adenosine triphosphatase (ATPase) activity was decreased by 40% in myocardium of SHR compared with that from WKY, which may lead to increased intracellular Ca2+ through Na+-Ca2+ exchange. Similarly, alpha 1-adrenergic receptor density, estimated by [3H]prazosin binding, was decreased by 42% in myocardial membranes of SHR, while the affinity for the agonist and the antagonist was not altered. In contrast, the number of Ca2+ channels estimated by [3H]nitrendipine binding was increased by 45% in myocardial membranes of SHR, while the affinity was comparable between SHR and WKY. These differences between WKY and SHR in the membrane properties were not due to differential contamination of plasma membranes because the activities of other putative plasma membrane marker enzymes were comparable between WKY and SHR. There were no differences between WKY and SHR in the myosin ATPase activity estimated using myofibrils, actomyosin, and myosin. These results suggest that specific alterations have occurred in the plasma membrane properties of myocardium of SHR that result in altered intracellular Ca2+ metabolism. These alterations may have an important bearing on excitation-contraction coupling in myocardium of SHR.
Hypertension 1986 Jul
PMID:Alterations in the plasma membrane properties of the myocardium of spontaneously hypertensive rats. 242 36

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.
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PMID:Age dependent changes in myosin ATPase activity in the myocardium of spontaneously hypertensive rats. 293 54

Previous studies in hearts of female rats have demonstrated that ventricular hypertrophy due to systolic overload, when combined with hypertrophy induced by a chronic swimming program, results in increased cardiac performance and enhanced contractile protein activity compared with the effects of hypertension alone. To explore how a chronic running program affects the function of hypertensive hearts, renal hypertension was created in female rats, and the animals were subjected to a program of chronic treadmill running. Running alone caused enhanced cardiac function, an increase in myosin adenosinetriphosphatase (ATPase) activity, and an increase in the percent of the V1 myosin isoenzyme. Hypertension alone caused cardiac hypertrophy with a depression in myosin ATPase activity and a decrease in the percent of the V1 isoenzyme. Running improved cardiac function in hearts of normotensive rats but had no effect in hearts of hypertensive rats. Despite the diminished myosin ATPase activity in hearts of hypertensive runners and the decrease in percent of the V1 isoenzyme, cardiac function was well maintained. The results demonstrate that a chronic running program in hypertensive rats, in contrast to a chronic swimming program, had virtually no effect on cardiac performance or contractile proteins. The dissociation between myocardial performance and the contractile proteins implicates other biochemical mechanisms in the adaptations observed.
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PMID:Combined effects of hypertension and chronic running program on rat heart. 295 51

We have previously shown that swim conditioning corrects the depressed mechanical function and myosin adenosinetriphosphatase (ATPase) activities associated with renovascular hypertension (HTN) in the rat. The present study was designed to assess the effects of swim conditioning on another form of systolic overload, subdiaphragmatic suprarenal aortic stenosis. Cardiac mechanics in an isolated working heart apparatus and myosin enzymology were studied in four groups of rats: controls (C), animals with chronic systolic overload secondary to aortic constriction (St), swim-conditioning animals (Sw), and animals exposed to a combined load (St-Sw). Heart weight was increased by 23% in St, 27% in Sw, and 36% in St-Sw. In contrast to HTN, cardiac pump and muscle function were not depressed in St. Sw was associated with improved cardiac output, stroke work, and velocity of circumferential fiber shortening. St-Sw showed improved mechanical cardiac performance relative to both C and St. The percent of ventricular myosin of the V1 type and Ca2+-activated myosin ATPase activity relative to C was unchanged in Sw but was depressed in St and St-Sw. These data demonstrate that the salutory mechanical effects of Sw can be superimposed on the systolic overload of St. However, the dissociation between mechanics and myosin enzymology suggests that factors in excitation-contraction coupling other than myosin isoenzyme shifts are responsible for this finding.
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PMID:Effects of systolic overload and swim training on cardiac mechanics and biochemistry in rats. 296 13

We have previously shown that physical conditioning in the rat improves cardiac mechanics and biochemistry and normalizes the cardiac contractile protein abnormalities associated with renovascular hypertension. Since chronic adrenergic stimulation with dobutamine simulates some aspects of physical conditioning, this study was undertaken to investigate the effects of chronic dobutamine administration on normal and hypertensive rat hearts. Four groups of female animals were studied: controls, dobutamine-treated (2 mg/kg twice daily), renovascular hypertensives, and dobutamine-treated hypertensives. Animals were killed after 8-10 weeks and cardiac histology, myosin biochemistry, and mechanics in an isolated heart perfusion apparatus were studied. Dobutamine, unlike hypertension, was not associated with histological evidence of myocardial damage but did increase cardiac mass by 10% and calcium-activated myosin ATPase activity by 13%. Hypertension was associated with a 24% increase in mass, a 24% decrease in ATPase activity, and a shift in the myosin isoenzyme pattern from V1 to V3. The combined stimuli caused additive hypertrophy (44%) and normalized myosin biochemistry and isomyosin distribution. Dobutamine treatment was not associated with significant improvements in pump or muscle function in control or hypertensive hearts. Thus chronic dobutamine treatment, like physical conditioning, induces a physiological cardiac hypertrophy in rats that is associated with improved myosin enzymology and normalization of the contractile protein abnormalities associated with hypertension. Unlike physical conditioning, however, these biochemical alterations do not result in improved contractile function as measured in an isolated buffer-perfused heart apparatus.
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PMID:Effects of chronic dobutamine administration on hearts of normal and hypertensive rats. 296 93

Reports from several laboratories indicate that the early part of smooth muscle contraction is achieved by normally cycling crossbridges, while the later part is subserved by slowly cycling or latch-bridges. We have recently found that the early bridges are responsible for almost 75% of the maximum shortening of the muscle. The latch bridges appear to be responsible for force production. The earliest change in the mechanical properties of caudal arteries from spontaneously hypertensive rats (SHR) is an increase in maximum shortening ability (delta Lmax), at a time when there is no detectable change in maximal isometric tetanic tension (Po). This substantiates the hypothesis that changes in Po are late indices of disease. The increased delta Lmax is associated with increased maximal velocity of shortening (Vo) of early cross-bridges, whereas latch bridge activity is normal. This provides the first subcellular explanation for the increase in delta Lmax. Since hypertension must result from narrowing of blood vessels, delta Lmax is, parenthetically, the important variable to study. Changes in Po, while contributing to increased vascular wall stiffness, do not directly account for the increased resistance. The cause of the increased cycling rate of crossbridges is probably increased myosin ATPase activity, or myosin light-chain phosphorylation by the specific kinase. Studies in helical sections of caudal, and segments of mesenteric resistance arteries provided similar results, confirming the suitability of caudal arteries as a model of resistance vascular units. The larger vessel is of course much easier to work with.
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PMID:Mechanical properties of vascular smooth muscle in hypertension. 332 95

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