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)

Force-velocity relations from after-loaded contractions, from isometric and isotonic QR experiments, resting-tension curves and biochemical analyses were conducted on sixteen trabecular muscles (SH) from hearts of rats conditioned by eight weeks of swimming training (increase in heart weight 8%), and compared to a control (CH) of eighteen trabecular muscles. (SH) showed increased tension development (p less than 0.01), whereas the diastolic properties remained almost unchanged. Analysis of the amount of hydroxyproline did not prove any variation. Vmax of (SH) was only slightly increase when there was a singificnat rise in actomyosin and myosin ATPase activity, while PO of the force-velocity relations of (SH) on the x axis (tension) shifted clearly to the right (p less than 0.01). Consequently, the maximum instantaneous power of (SH), expressed by the maximum rectangular plane under the force-velocity curve, increased considerably (p less than 0.01) in comparison with (CH). The experiments show that haemodynamic load induced by training does not alter the passive properties of the myocardium, but does bring about an increase in the contractile capabiltiy.
Basic Res Cardiol
PMID:Mechanics of the isolated ventricular myocardium of rats conditioned by physical training. 12 47

The effects of a moderate physical training program on the hearts of rats have been studied. The mechanical responses of these hearts are improved. Possible contributing factors in this improvement are increased coronary reserve and capacity to deliver oxygen to the myocardium, increased myocardial glycogen stores and increased turnover of fatty acids through the endogenous triglyceride pool. Myocardial oxidative compounds and high energy phosphate stores are not altered. Major changes are found in the energy utilization pathways. Actomyosin, myosin, and heavy meromyosin ATPase activity and binding activity of isolated sarcoplasmic reticulum are all enhanced. Sulfhydryl control of the active site of myosin ATPase is altered. The biochemical effects of conditioning are short lived when training is decreased or discontinued.
Adv Cardiol 1976
PMID:Effects of physical training and detraining on intrinsic cardiac control mechanisms. 13 72

Cardiac hypertrophy in the rabbit, secondary to pulmonary artery stenosis, results in a decrease in unloaded shortening velocity (Vmax) and maximum rate of isometric force development (dP/dtmax), while the peak isometric twitch tension is unchanged and time to peak tension (TPT) is increased. The principle hypothesis used to explain these results involve 1) slowing of myosin cross bridge movement as reflected in depressed myosin ATPase activity and 2) changes in excitation contraction coupling phenomena resulting in changes in intracellular Ca++ movement. Ca++ and actin activated myosin ATPase from the hypertrophied (H) muscles is depressed by 30%. Total initial heat, tension dependent heat and tension independent heat are depressed in H muscles by 57, 56, and 61% respectively. The rate of tension independent heat production in H preparations is depressed by 66%. From these data it is concluded that 61% of the depression in Vmax could be accounted for by the alteration in myosin with the reminder attributable to changes in EC coupling. Increased TPT can be accounted for by the change in rate of Ca++ flux as indicated by the alterated rate of tension independent heat evolution.
Basic Res Cardiol
PMID:The partitioning of altered mechanics in hypertrophied heart muscle between the sarcoplasmic reticulum and the contractile apparatus by means of myothermal measurements. 14 Jun 57

Myocardial contractility can be regulated by two types of control mechanism. A "tonic control mechanism", which allows the heart to respond to sustained changes in circulatory dynamics, appears to operate through changes in the structure of various constituents of the myocardium, best understood of these being changes in the myosin molecule that cause alterations in both myosin ATPase activity and contractility. Beat-to-beat changes in myocardial contractility are affected by a "phasic control mechanism" that involves changes in at least five calcium fluxes in the myocardium. The effects of catecholamines, many of which appear to be mediated by cyclic AMP, can be understood in terms of the modification of several of the calcium fluxes involved in the phasic control of myocardial contractility.
Basic Res Cardiol
PMID:"Tonic" and "phasic" mechanisms in the regulation of myocardial contractility. 18 48

The role of subcellular alterations in the process of heart failure remains ill-defined. Because contractile performance of failing heart muscle is depressed, possible alterations in the myosin molecule could be of particular relevance. There is increasing evidence that myofibrillar ATPase activity is reduced in congestive heart failure, whereas the findings on myosin ATPase are still controversial. The molecular causes of the reduced activity are currently not known. Because alpha-MHC is present only in small amounts in normal ventricles, a shift in favor of beta-MHC is of minor importance. Also immunohistochemical data on subspecies of beta-MHC seem not to provide an explanation. A new type of myosin heterogeneity was found by optimizing native polyacrylamide gel electrophoresis in the presence of pyrophosphate. Two bands (VA and VB) were observed in ventricles of patients with valvular disease. Because the two bands were detected also in normal hearts of large mammals, the existence of VA/VB cannot be diagnostic of diseased heart. However, the VA/VB ratio was influenced by the hemodynamic load, whereby the fast migrating band (VA) increased with the diastolic and systolic load. Because a relationship with the hemodynamic load was observed only in surgical muscle specimens, it appears that this heterogeneity is prone to post mortem modification. Further work is required to identify the molecular nature of this heterogeneity and to examine the therapeutic potential of a pharmacological modification of the VA/VB ratio.
Basic Res Cardiol 1992
PMID:Structural and functional diversity of human ventricular myosin. 138 32

This report compares the effects of adrenalectomy and thyroidectomy, with and without hormone replacement, on loss of contractile protein ATPase activities. The rationale for this study was derived from the similarities in their intracellular receptors, mechanisms of action, and the large number of proteins regulated by both hormones. Rats were adrenalectomized, thyroidectomized, or both, and were subsequently treated for 6 weeks with hydrocortisone, triiodothyronine, or saline. Sham-operated rats were given saline for the same period of time. Six weeks of adrenal insufficiency resulted in diminished enzymatic activity of myofibrillar, Ca(2+)-activated myosin ATPase, and actin-activated myosin ATPase fractions. Treatment with hydrocortisone prevented the decline in enzymatic activity due to adrenalectomy. Likewise, thyroidectomy caused a loss of enzymatic activity which was prevented by treatment with triiodothyronine. The full deleterious effect of combined ablation could be partially prevented by treatment with either hydrocortisone or triiodothyronine, but the latter was most effective. The results suggest that hydrocortisone and triiodothyronine each had significant positive effects in the presence of the other, but not in its absence, on the activity of myofibrillar Ca(2+)-dependent Mg-ATPase and Ca(2+)-activated myosin ATPase. The effects of these two hormones on actin-activated myosin ATPase activity were more independent of each other. We conclude that the actions of thyroid and glucocorticoid hormones on the heart are interrelated and that optimum myocardial function results from their combined action.
Basic Res Cardiol
PMID:Myocardial contractile protein ATPase activities in adrenalectomized and thyroidectomized rats. 148 85

The sequence of events that leads to irreversible injury of the ischaemic myocardium is poorly understood but it is axiomatic that lack of oxygen will impair regeneration of ATP. In the globally-ischaemic heart a contracture develops which is independent of raised cytoplasmic free Ca2+ and which has been attributed to activation of actomyosin by nucleotide-free actomyosin cross-bridges ('rigor complexes') which form at low ATP concentrations. Single, metabolically-poisoned or anoxic cardiomyocytes show comparable behaviour, shortening before a significant rise in cytoplasmic free Ca2+ occurs. To explain the close temporal relationship that exists between cell shortening and the onset of the free Ca2+ rise we have predicted that, during myocyte shortening, a precipitous fall in cytosolic ATP concentration occurs, the result of rigor-complexes activating myosin ATPase, which then perturbs ionic homeostasis. Here we show, by means of continuous measurements of cytosolic ATP using firefly luciferase microinjected into single, isolated cardiomyocytes, that cell shortening coincides with an abrupt fall in cytosolic ATP.
J Mol Cell Cardiol 1992 Mar
PMID:Bioluminescent measurement in single cardiomyocytes of sudden cytosolic ATP depletion coincident with rigor. 162 46

Previous studies have shown that dietary provision of carbohydrate can alter cardiac isomyosin distribution in hormonally deficient rats. The main objective of this study was to determine if varying the heart's potential to utilize carbohydrate for energy provision can influence the cardiac isomyosin expression in normal weanling rats. Animals were assigned to one of five groups according to dietary and/or metabolic treatment: (1) mixed-control--(M); (2) high carbohydrate--(H); (3) low carbohydrate--(L); (4) mixed-diet supplemented with oxfenicine, a cardiospecific fatty acid oxidation inhibitor--(MO); and (5) high carbohydrate diet supplemented with oxfenicine--(HO). The results show that 4 weeks of dietary manipulations aimed to either increase or decrease carbohydrate supply to the heart, failed to induce any alterations in either cardiac myosin ATPase activity or isoenzyme pattern. However, extremes in carbohydrate provision altered the metabolic properties of both heart and skeletal muscle. A low carbohydrate diet increased 3-hydroxyacyl CoA dehydrogenase (P less than 0.05) and citrate synthase activities (P less than 0.05) and decreased glycogen content in both heart and soleus muscle; whereas, a high carbohydrate diet, in conjunction with oxfenicine, tended to increase hexokinase activity in these same tissues. These alterations provide indirect evidence that the contributions of both fat and carbohydrate to the energy balance of the heart and skeletal muscle were altered by the imposed dietary interventions. Collectively, these results suggest that although the substrate utilization patterns of the normal weanling heart can be modified via dietary manipulation, such shifts do not exert any regulatory influence on cardiac isomyosin expression.
J Mol Cell Cardiol 1990 Mar
PMID:Dietary effects on cardiac metabolic properties in rodents. 214 63

The cardiac effects of excess growth hormone (GH) were studied in the intact adult rat and in tissues prepared from the rat. Female Wistar-Furth rats were inoculated with a clonal cell line of pituitary cells which secrete GH. Five weeks later, heart weight had increased 37% compared to control (P less than 0.01) due to concomitant increases in left and right ventricular weight. Hemodynamic measurements in the anesthetized rat showed that GH stimulated rats had a decrease in blood pressure and heart rate and a small increase of left ventricular end-diastolic pressure (P less than 0.05). Measurement of left ventricular contractility and relaxation, and response to beta-adrenergic stimulation were decreased in GH compared to control (P less than 0.05). Contractile protein biochemistry showed an 18% reduction in Ca2(+)-myosin ATPase activity of the left ventricle (P less than 0.05) and non-denaturing pyrophosphate gels of purified myosin demonstrated a significant shift of isoforms from the exclusive V1 pattern to both V1 and V3 isomyosins in both ventricles (P less than 0.05). In contrast to the physiological and protein biochemistry adaptations, left ventricular morphology by light microscopy and ultrastructure by electron microscopy were normal in the GH stimulated heart. There were no significant changes in myofibril fraction, in the myofibril to mitochondria ratio or in the capillary numerical density of the hypertrophied left ventricle (P = N.S.). This study demonstrates that under prolonged and extreme stimulation by GH, the heart undergoes considerable growth/hypertrophy. Although cardiac morphology remains normal during this growth, there are alterations of the isomyosins such that ATPase activity is diminished and ventricular function is decreased.
J Mol Cell Cardiol 1990 Apr
PMID:Cardiac physiology, biochemistry and morphology in response to excess growth hormone in the rat. 214 88

The chronic treatment of spontaneously hypertensive rats (SHR) with 7,8-dimethyl-10-(3-chlorobenzyl) isoalloxazine [CBI], 7,8-diethyl-10-aminol isoalloxazine [DEAI], enduron (methyclothiazide) and amiloride were studied for their effects on blood pressure and cardiac contractile protein ATPase activities. After 35 weeks of treatment all the above antihypertensive agents showed a decrease in blood pressure in the SHR (p less than 0.01). Chronic treatment with CBI, DEAI, enduron, and amiloride significantly improved the myofibrillar ATPase activity at all pCa2+ concentrations (p less than 0.01). Furthermore, CBI, DEAI, enduron, and amiloride drug treatments enhanced actin-activated myosin ATPase activity (p less than 0.01). The Ca2(+)-activated myosin ATPase activity was significantly elevated after treating with CBI and DEAI (p less than 0.01). These results suggest that the antihypertensive agents used in this study helped in reducing the blood pressure with a subsequent increase in myocardial contractile protein ATPase activity.
Basic Res Cardiol
PMID:Effects of riboflavin analogues and diuretics on the spontaneously hypertensive rat heart. 214 69


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