EC:3.6.1.3 - FACTA Search

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Query: EC:3.6.1.3 (ATPase)
65,361 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

An experimental situation that permits simultaneous evaluation of the mechanical activity and inorganic phosphate (Pi) release by beating atria was developed. It concerned cell membrane integrity and compartmentalization of the cells. The Pi released by isolated rat and guinea pig atria was measured in a physiological salt solution. The preparations were incubated under preload for the simultaneous recording of dF/dt and Pi. The substrate of this reaction was the endogenous ATP. Pi release by atria increased with time. It was stimulated at high K+ concentrations (30 mmol/l) and inhibited at very low ones (1.2 mmol/l). The lack of Mg2+ in the incubation media did not affect it. Ouabain induced different effects upon Pi release; at low concentrations it was increased while at higher ones it was inhibited. The relationship between ouabain concentrations, mechanical responses and liberation of Pi by isolated atria from rat and guinea pig showed that at low concentrations ouabain simultaneously increased dF/dt and Pi release. On the contrary, at high concentrations of ouabain dF/dt decreased, contracture occurred and the Pi release decreased. Isoproterenol, norepinephrine and calcium, at concentrations that increased dF/dt, did not modify Pi release. Different concentrations of potassium and ouabain also modulated the 32P Pi efflux in a fashion similar to that with the Pi released by beating atria. We propose that Pi release by living cells appears to be correlated with manipulations which either stimulate or inhibit (Na+ + K+)-ATPase activity.
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PMID:The release of phosphate from contracting atria as a parameter of (Na+ + K+)-ATPase activity. Effect of ouabain. 303 10

Isoprenaline stimulation of perfused rabbit hearts was associated with simultaneous phosphorylation of proteins in the myofilaments and phospholamban in the sarcoplasmic reticulum (SR). Hearts were perfused with Krebs-Henseleit buffer containing [32P]Pi, freeze-clamped in a control condition or at the peak of the inotropic response to isoprenaline, and myofibrils and SR were prepared from the same hearts. Stimulation of 32P incorporation in troponin I (TnI) and C-protein by isoprenaline was associated with a decrease in Ca2+-sensitivity of the myofibrillar Mg2+-dependent ATPase activity. Stimulation of 32P incorporation in SR by isoprenaline was associated with an increase in the initial rates of oxalate-facilitated Ca2+ transport, assayed with SR vesicles in either microsomal fractions or homogenates from the perfused hearts. These findings provide evidence that phosphorylation of TnI, C-protein and phospholamban in the intact cell is associated with functional alterations of the myofibrils and SR which may be responsible in part for the effects of catecholamines on the mammalian myocardium.
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PMID:Phosphorylation and functional modifications of sarcoplasmic reticulum and myofibrils in isolated rabbit hearts stimulated with isoprenaline. 315 85

The stimulation of DNA synthesis by serum is accompanied by early (30 minutes) and late (2-8 hours) increase in ouabain-sensitive rubidium (potassium) influx and the elevation of intracellular potassium content from 0.5-0.6 to 0.7-0.8 mmole per gram protein in CHO-K1 cells. Isoproterenol alone induces the transient increase both in potassium influx via Na,K-ATPase and in potassium efflux without any effect on intracellular potassium content and cell proliferation. Isoproterenol acts synergistically with serum in eliciting the early and late changes in potassium transport and in stimulating G1----S transition. The combination of serum and theophylline produces a rapid increase in potassium influx, however, it does not stimulate DNA synthesis and does not induce any later increase in intracellular potassium content. It is concluded that early and late activation of Na,K-ATPase by mitogens can be dissociated; the Na,K-ATPase activation is involved in mitogenic response when producing the sustained potassium influx and the elevation of intracellular potassium content during G1----S transition.
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PMID:[Early and late changes in potassium transport during the start of proliferation in CHO cell cultures. The action of serum, isoproterenol, propranolol and theophylline]. 324 89

The development of ischemic contracture in rat was evaluated in relation to glycolytic production of ATP and Ca2+ homeostasis. When the rate of glycolysis was reduced by glycogen depletion (swimming at 33 degrees C for 2 h, administration of isoprenaline or heart perfusion with it), the rate of ischemic contracture development increased. Isoprenaline increased the development of contracture in a dose-dependent manner, and dexamethasone potentiated the effect of isoprenaline. The decrease in the intensity of ATP/P1 exchange, probably reflecting the intensity of glycolytic phosphorylation of ADP, which, in our conditions, arose from ATP hydrolyzed mostly by Ca2+-ATPase and Na, K-ATPase, correlated with the development of ischemic contracture. Experiments with the rapid equilibration of the extracellular compartment with Ca2+ in various concentrations in the presence or absence of verapamil suggest that the development of ischemic contracture depends on the rate of Ca2+ accumulation in myoplasm. This rate of Ca2+ accumulation correlates with the rate of glycogenolysis and glycolysis which seems to produce ATP for active transport of cations.
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PMID:[Role of disorders of calcium homeostasis in the development of ischemic contracture of the heart]. 365 24

In earlier studies using papillary muscles of the rat left ventricle and highly sensitive thermopiles we demonstrated that the heat liberated per gram of myocardium per unit of developed tension-time integral is decreased when the rats suffered from hypothyroidism or renal hypertension. This increase in economy of force production was shown to be associated with a decrease in myosin-ATPase activity and a change in isomyosin composition. In a recent study we showed an increase in heat per gram of mammalian myocardium per tension-time integral of 70% after application of isoproterenol. In order to study the relationship between energy costs and developed tension-time integral in the human heart, haemodynamics and myocardial oxygen consumption were measured. The data were obtained using a Millar microtip catheter pressure transducer and the argon method. Haemodynamics and myocardial energetics were analysed in 8 patients without significant heart disease before and after application of isoproterenol and in 10 patients with dilative cardiomyopathy (NYHA II-III). During one cardiac cycle, myocardial oxygen consumption per gram of LV myocardium per beat (MVO2/g x beat) is related to LV stress-time integral (integral of sigma xt). The economy of myocardial contraction (EC) was calculated by (formula; see text) EC was 11.3 +/- 3.2 in normal and 14.3 +/- 4.7 dyn x s x g/cm2 x mu cal in dilative cardiomyopathic hearts (NS). Isoproterenol decreased EC from 11.3 +/- 3.2 to 5.5 +/- 1.6 dyn x s x g/cm2 x mu cal in the normal hearts (p less than 0.01). In the rat myocardium, changes in economy of force generation were found due to catecholamines, pressure overload and hypothyroidism. In the human heart, similar energetic changes were observed due to catecholamines. No significant differences in energy of force production were seen between normal and dilative cardiomyopathic hearts. The effect of catecholamines in the mammalian and human myocardium is explained by changes in activation processes and in chemomechanical energy transduction at the level of the contractile proteins.
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PMID:Acute and chronic changes of myocardial energetics in the mammalian and human heart. 366 28

The effects of different beta-adrenoceptor agonists and antagonists on plasma noradrenaline and potassium concentrations were studied in patients with borderline hypertension. Heart rate, arterial pressure and the heart rate corrected duration of total electromechanical systole (QS2I) were also measured. Infusion of the beta-adrenoceptor agonists isoprenaline (non-selective) and salbutamol (beta 2-selective), but not prenalterol (beta 1-selective) caused dose-dependent increments in plasma noradrenaline. Isoprenaline and salbutamol decreased plasma potassium dose-dependently. For a given effect on heart rate and QS2I the fall in potassium was less pronounced after prenalterol. The effects of isoprenaline were also studied after the beta-adrenoceptor antagonists propranolol, 320 mg day-1 for 1 week (non-selective) and atenolol, 100 mg day-1 for 1 week (beta1-selective). The effects of isoprenaline, when infused in equipotent chronotropic doses, on noradrenaline and potassium were not affected by atenolol, whereas they were completely abolished by propranolol. The rise in noradrenaline during beta-adrenoceptor stimulation could be explained by presynaptic facilitation of noradrenaline release. The fall in potassium probably reflects stimulation of Na-K-ATPase dependent transport of potassium into the cell. Both effects were seen after beta 2- but not after beta 1-adrenoceptor stimulation. Hypokalaemia and raised levels of noradrenaline are also known to occur under such stressful conditions as acute myocardial infarction, when circulating levels of the endogenous beta 2-adrenoceptor agonist adrenaline are high. Blockade of these effects by beta-adrenoceptor antagonists may contribute to the cardioprotective effect of these drugs. This warrants further consideration of the clinical significance of beta-blocker selectivity.
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PMID:Cardioprotection by blockade of beta 2-adrenoceptors. 613 69

The effect of isoproterenol perfusion on cAMP levels and phosphorylase activity was investigated in the spontaneously hypertensive rat (SHR) and Kyoto Wistar normotensive control rat (WKY) heart. The basal force of contraction in physiological salt solution perfused hearts was comparable between SHR and WKY. However, the force of contraction in response to 10 nM isoproterenol perfusion was decreased approximately 20-30% in SHR heart as compared to WKY heart. Basal cAMP levels were reduced in SHR hearts as compared to WKY hearts. Isoproterenol perfusion resulted in an increase in cAMP levels over the basal cAMP values which was 50% and 100% in SHR and WKY hearts, respectively. Basal phosphorylase activity was higher in SHR hearts as compared to WKY hearts. However, the percentage increase in phosphorylase activity by isoproterenol perfusion over the basal values was approximately 400% in WKY hearts and only 200% in SHR hearts. The ouabain-sensitive (Na+, K+)-ATPase activity, Ca2+ binding in the absence of ATP, sialic acid content, and 5'-nucleotidase activity of purified cardiac plasma membranes was not altered in SHR as compared to WKY. These results would suggest beta-adrenergic mediated adenylate cyclase stimulation is decreased in SHR myocardium while other plasma membrane properties and associated enzymes may not be altered.
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PMID:Reduced cAMP levels and glycogen phosphorylase activation in isoproterenol perfused SHR myocardium. 631 20

We used a recently developed preparation of calcium-tolerant isolated rat cardiac ventricular cells to investigate certain aspects of hormone-mediated protein phosphorylation in heart tissue. Isoproterenol or dibutyryl adenosine 3',5'-cyclic monophosphate (cAMP) promoted the phosphorylation of at least 13 proteins and promoted the dephosphorylation of a single protein of relative molecular weight (Mr) 21,000, whose phosphorylation appeared to be stimulated by insulin. The isoproterenol-induced protein phosphorylations reached maximum levels for most proteins within 5 min at slightly different rates. However, when excess propranolol was added to the cells after exposure to isoproterenol, there appeared to be two major patterns of dephosphorylation: proteins that remained fully phosphorylated after propranolol addition, exemplified by proteins tentatively identified as troponin I and C-protein, and proteins that were rapidly dephosphorylated after propranolol, exemplified by phospholamban, the modulator of the sarcoplasmic reticulum calcium-dependent ATPase. The Mr 21,000 protein was rapidly dephosphorylated in response to isoproterenol and was rephosphorylated after addition of propranolol. This protein remains unidentified; it is not the Mr 19,000 myosin light chain whose phosphorylation state was unaffected by isoproterenol. This preparation of isolated heart cells provides a convenient way to investigate the biochemical effects resulting from exposure of the heart to hormones and can separate direct hormonal effects from those resulting from changes in contractility or heart rate.
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PMID:Hormonal regulation of protein phosphorylation in isolated rat heart cells. 632 6

The effects on in vitro renin release from rat kidney cortex of various agents which are thought to alter intracellular Ca were investigated. Incubation in Ca-free medium had no effect on basal or isoprenaline-stimulated renin release, but the addition of EDTA stimulated renin release. Angiotensin II (ANG II) and ouabain both inhibited basal and isoprenaline-stimulated renin release, and external Ca was important in this effect. Verapamil reduced the fall in basal renin release and the inhibitory effect of ANG II. In addition, verapamil blocked the inhibition by ANG II, but not by ouabain, of isoprenaline-stimulated renin release. Isoprenaline may stimulate the Na,K-ATPase leading to increased Ca efflux via Na-Ca exchange, whereas ouabain may have the opposite effect. ANG II probably stimulates Ca influx and release from intracellular stores.
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PMID:The role of calcium in the control of renin release. 644 9

Isoproterenol-induced (5 mg/kg) disseminated necrosis of the rabbit myocardium led to a decrease in the efficiency of calcium pump of sarcoplasmic reticulum fragments. This was shown by the reduced Ca/ATP ratio, as well as by Ca2+ and Ca2+ ATPase accumulation rate. In these conditions, calcium transport to mitochondria increased. Lipid peroxidation plays a definite role in the impairment of membrane permeability since the concentration of malonic dialdehyde rises in microsomal and mitochondrial fractions.U
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PMID:[Effect of disseminated myocardial necrosis on ATPase activity, Ca2+ transport, and lipid peroxidation in cardiac mitochondrial and microsomal membranes]. 644 46

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