Gene/Protein Disease Symptom Drug Enzyme Compound
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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)

To evaluate possible roles of endogenous Na+-K+-ATPase inhibitors in vasoconstricted blood pressure elevation produced by acute volume expansion, we administered ouabain (Na+-K+-ATPase inhibitor) intravenously (30 micrograms/kg) for 10 min to dogs, 3 h after volume expansion with dextran in lactated Ringer's solution (20 ml/kg, for 1 h). Acute volume expansion resulted in the elevation of blood pressure associated with an increase in cardiac output. In some dogs the blood pressure remained elevated with gradual increase in total peripheral resistance (Group I) or with sustained high cardiac output (Group II), and in other dogs (Group III) it returned to the control level. Ouabain administration elevated the blood pressure and total peripheral resistance in these groups and sham dogs which did not have volume expansion. And these effects of ouabain were not correlated with the degree of blood pressure or vasoconstriction produced by volume expansion. Thus, it is not likely that endogenous Na+-K+-ATPase inhibitors increased to produce vasoconstricted hypertension after acute volume expansion.
Basic Res Cardiol
PMID:Effect of ouabain on hemodynamics in acute volume expanded hypertensive dogs. 254 71

This review deals with the principal mechanisms which are known to play a role in positive inotropism: 1) The myoplasmic Ca2+ concentration may be increased by increases in cyclic AMP. Beside receptor-mediated stimulation (isoprenaline) or direct stimulation (forskolin) of the adenylate cyclase, the cyclic AMP may be increased by phosphodiesterase inhibition; 2) Cyclic AMP-independent activation of Ca2+ channels can be brought about by alpha-adrenergic agents (phenylephrine) or so-called calcium agonists; 3) Only a small increase in myoplasmic Na+ concentration can greatly enhance the force of contraction by an increase in the intracellular Ca2+ concentration. This is possible by inhibition of the Na+/K+-ATPase (glycosides) or by prolongation of the open state of Na+ channels (DPI 201-106); 4) A direct inhibition of the Na+/Ca2+ exchange has been discussed for amiloride; 5) A prolongation of the action potential induced by K+ channel-inhibiting agents such as 4-amino-pyridine may increase the myoplasmic Ca2+ concentration by a prolongation of the slow Ca2+ inward current; 6) An increased Ca2+ sensitivity of the contractile proteins has been demonstrated for a number of compounds in vitro; the contribution of such an effect to the overall positive inotropism is unknown because a calcium sensitizer without any effects on calcium or sodium movements is not yet available.
Basic Res Cardiol 1989
PMID:Mechanisms of positive inotropic effects. 255 73

Rats treated with the alkaloid monocrotaline developed right ventricular hypertrophy with a left:right ventricle weight ratio of 1.35 +/- 0.10 (mean +/- s.e.m., n = 25) compared with 3.83 +/- 0.40 (n = 14) in diet-matched controls (P less than 0.001). Urine volume and sodium content were reduced and body water increased consistent with heart failure. In 10 out of 26 treated rats pleural, pericardial or peritoneal effusions were present. Urine norepinephrine content was significantly raised (P less than 0.02) but epinephrine was unchanged. Plasma norepinephrine levels were raised though not significantly. Myocytes isolated from the right ventricle had a reduced myosin Ca2+-activated ATPase (P less than 0.05) activity and a shift towards slower V2 and V3 myosin isoforms. There was no decrease in maximum contraction amplitude with calcium or isoproterenol in either left or right ventricular cells of treated rats. Right ventricular cells from treated rats showed a reduced rate of contraction in maximum isoproterenol (P less than 0.05) and a significant rightward shift in PD2 (P less than 0.05) representing a two-fold increase in EC50 for isoproterenol compared with right ventricular cells from control animals. There was no shift in EC50 for isoproterenol in left ventricle cells. In parallel experiments, myocytes isolated from both ventricles of rats treated with isoproterenol for one week showed a rightward shift of more than 50-fold in the isoproterenol concentration-response curve and a depressed response to maximum isoproterenol. In the rat monocrotaline model of right-sided cardiac hypertrophy and failure, changes in sensitivity to beta-adrenoceptor agonists are slight, and present only in the right ventricle. The lack of change in the left ventricle seems to suggest that this functional desensitisation is not a consequence of raised circulating catecholamines.
J Mol Cell Cardiol 1989 Oct
PMID:Isoproterenol sensitivity of isolated cardiac myocytes from rats with monocrotaline-induced right-sided hypertrophy and heart failure. 255 26

We previously demonstrated that the effect of respiratory acidosis on cardiac contractility in the newborn was less than in the adult rabbit, and these data suggested a higher [Na+]i and [Na+]i-[Ca2+]o exchange in the newborn as compared to the adult. In this study, we investigated developmental changes of Na+-H+ exchange in isolated sarcolemmal vesicles. Sarcolemmal purification for Na+-K ATPase was 61.9 and 67.1 fold in the newborn and the adult rabbit heart, respectively. In the presence of an outwardly directed proton gradient across the vesicular membrane, sarcolemmal 22Na uptake rate in the newborn (0.22 +/- 0.01 nmol Na+/mg prot/s) was significantly higher than than in the adult (0.16 +/- 0.01 nmol Na+/mg prot/s). 1.0 mM amiloride inhibited 22Na uptake by 75% and 80% in the newborn and the adult, respectively. In the absence of a pH gradient, vesicular 22Na uptake in the newborn and the adult were not significantly different. In conclusion, the higher Na+-H+ exchange in the newborn may lead to a higher [Na+]i and subsequent calcium influx via Na+-Ca2+ exchange as compared with the adult during acidosis. This may explain the greater recovery of mechanical function in the newborn heart as compared to the adult heart during acidosis.
J Mol Cell Cardiol 1989 Nov
PMID:Developmental changes of sarcolemmal Na+-H+ exchange. 255 24

The enzymatic activities of Na+/K+ ATPase and Ca2+ ATPase were determined on erythrocyte membranes from 9 normotensive and 9 gestational hypertensive pregnant women near term. A reduction in the activity of the Na+/K+ ATPase and a relative increase in the activity of the Ca2+ ATPase were found in the hypertensive patients, possibly due to a conformational alteration of erythrocyte membranes. This observation supports the possible role of the transmembrane cation transport in the pathogenesis of gestational hypertension.
Int J Cardiol 1989
PMID:Calcium and sodium transport in gestational hypertension. 255 95

Chronic cardiac overload stimulates various quantitative and qualitative mechanisms of adaptation, some of them being species-specific. The signals responsible for these changes in gene expression are still speculative, nevertheless early modifications of the microtubular network have been reported. Soon after overload an increased expression of various genes coding for regulatory proteins has also been observed, this includes various oncogenes and the genes of several heat-shock proteins. Hypertrophy only, is non species-specific and is adaptational because it both multiples the number of contractile units and it lowers wall stress. The slowing of the shortening velocity allows the heart to produce normal tension, at a lower cost, and has different biological explanations depending on the species. In small rodent ventricles, the main but probably not the unique, determinant of this physiological parameter is an isomyosin shift from a high ATPase activity form V1 to a low activity form V3, discovered in our laboratory in 1979. This shift has a transcriptional origin and also occurs in atria in every mammalian including humans; nevertheless it has not been evidenced in the ventricles of humans, dog, cat or guinea-pig. In these species it is necessary to take into account other mechanisms, namely those involved intracellular calcium movements. The number of total, and possibly active, calcium channels is normal in rat overloaded heart suggesting that their synthesis is activated commensurate to the development of hypertrophy. The situation is more complex for other sarcolemma proteins such as the beta-adrenergic system and the Na+, K(+)-ATPase. For the latter there is presently some evidence that an isoenzymatic shift is likely to occur, at least in rats.
J Mol Cell Cardiol 1989 Dec
PMID:Signal and adaptational changes in gene expression during cardiac overload. 256 Jul 97

It is now generally agreed that Na+-K+ adenosine triphosphatase (ATPase), a transport enzyme derived from the sarcolemmal sodium pump, is the primary site at which digitalis exerts its effects on the myocardial cell. Inhibition of the ability of this ion transport enzyme to catalyze Na+ efflux from the cell in exchange for K+ leads to both the therapeutic and toxic effects of the cardiac glycosides. The mechanism by which digitalis inhibits the sodium pump has been established in studies of Na+-K+ ATPase which show that the ability of cardiac glycosides to inhibit adenosine triphosphate (ATP)-supported transport of Na+ is reduced in the presence of elevated levels of K+. These studies explain the ability of hypokalemia to potentiate the effects of cardiac glycosides on the heart, and of high K+ concentrations to overcome the inhibition of sodium pump activity by the cardiac glycosides. Recent demonstrations that the positive inotropic effect of the cardiac glycosides is correlated with an increased intracellular Na+ provide strong evidence that these effects of digitalis to impair sodium efflux are responsible for the increased myocardial contractility caused by digitalis.
J Am Coll Cardiol 1985 May
PMID:Effects of digitalis on cell biochemistry: sodium pump inhibition. 258 Aug 75

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.
Clin Cardiol 1989 Nov
PMID:Structure and function of contractile proteins in human dilated cardiomyopathy. 258 58

Maturation has been shown to enhance the ability of the myocardium to contract. Whenever developmental changes in the systems that control or modulate myocardial contractility have been sought, they have indeed been found. These include an increase in the amount and organization of the myofilaments, an increase in SR amount, organization, differentiation, Ca-ATPase, phospholamban, and sensitivity to calcium and ryanodine, changes in the sarcolemmal pumps and channels, and changes in the expression of the contractile proteins. The characterization of the control systems that integrate these changes remains to be achieved. The overall gradual increase in myocardial contractility has superimposed on it an acute, sudden increase in ventricular contractility in the hours surrounding birth. In the subsequent neonatal days, the level of inotropy falls, and the reserves in contractility are replenished and expanded. Consequently, disease states that demand an increased use of or negatively affect mechanisms that bring about the neonatal enhancement in ventricular function will have their most malignant effect during the first days of neonatal life.
Cardiol Clin 1989 May
PMID:Maturation and cardiac contractility. 265 71

The role of the endothelium in response to aggregating platelets was examined in porcine coronary and peripheral (carotid, femoral and renal) arteries from normal and hypercholesterolemic pigs. Male Yorkshire pigs were fed either a normal diet or a 2% high cholesterol diet for 10 weeks. Endothelium-dependent responses were examined in vitro. In all arteries from control animals, aggregating platelets caused endothelium-dependent relaxations, which were augmented by ketanserin (a 5-HT2-serotonergic blocker), attenuated by apyrase (an adenosine diphosphatase and triphosphatase) or methiothepin (a combined 5-HT1 and 5-HT2-serotonergic blocker) and were almost abolished by a combination of apyrase and methiothepin. The platelet-induced relaxations were most pronounced in the coronary arteries. Adenosine diphosphate caused endothelium-dependent relaxations, which were significantly attenuated by apyrase. Serotonin also caused endothelium-dependent relaxations, which were significantly attenuated by methiothepin but augmented by ketanserin. The endothelium-dependent relaxations to adenosine diphosphate were most pronounced in coronary arteries and those to serotonin in coronary and renal arteries. In cholesterol-fed animals, the endothelium-dependent relaxations to aggregating platelets, adenosine diphosphate and serotonin were impaired in all four arteries. These experiments indicate that 1) the endothelium exerts inhibitory effects against aggregating platelets in porcine coronary and peripheral arteries; 2) platelet-induced endothelium-dependent relaxations are achieved by purinergic and 5-HT1-serotonergic receptors on the endothelium; and 3) hypercholesterolemia reduces the endothelium-dependent relaxations to aggregating platelets in a generalized manner because it impairs the relaxations to adenosine diphosphate and serotonin released from the platelets.
J Am Coll Cardiol 1989 May
PMID:Hypercholesterolemia causes generalized impairment of endothelium-dependent relaxation to aggregating platelets in porcine arteries. 278 7


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