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)

In order to study cation transport in vivo the changes in plasma and red cell rubidium concentrations were measured following an oral load of rubidium chloride. Eight patients receiving short-term digoxin therapy, 10 patients with chronic renal failure and 22 patients with untreated essential hypertension were studied, and the findings were compared with those in healthy control subjects matched for age, sex, race, obesity index, and plasma and red cell potassium concentrations. In patients receiving short-term digoxin therapy, and in patients with chronic renal failure, the increases in plasma rubidium concentrations after the oral load of rubidium chloride were significantly enhanced and the increases in red cell rubidium concentrations were significantly attenuated. These findings are consistent with a generalized reduction in Na+, K+-ATPase activity in vivo. In contrast, in patients with untreated essential hypertension the increases in both plasma and red cell rubidium concentrations following the oral load were significantly enhanced. These data do not support the hypothesis that essential hypertension is associated with reduced Na+, K+-ATPase activity in vivo, at least in the red cell.
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PMID:An in vivo study of cation transport in essential hypertension. 610 Jul 48

The present study focuses on the interaction between cadmium (Cd) and the Na, K-ATPase system in in vitro grown vascular smooth muscle cells (VSMCs) derived from the rat carotid artery. In disrupted VSMCs rendered permeable by osmotic shock, Cd inhibited Na, K-ATPase; I50 was reached at 10(-5) M Cd. Mg-ATPase was also inhibited by Cd; I50 was attained at concentrations of 10(-4) M Cd. Cd inhibition of Na,K-ATPase in the VSMCs was noncompetitive with respect to Na, K, and ATP. Rubidium transport experiments performed with intact VSMCs demonstrated that within an incubation period of 150 minutes, a concentration of 10(-4) M Cd in the extracellular fluid exerted no acute effect on the Na-K pump. Within this time interval, intracellular Cd attained a concentration eightfold higher than the extracellular Cd concentration. Thus, it appears that under acute conditions Cd exerts its inhibitory effect on Na, K-ATPase only in disrupted VSMCs. The data further suggest that, in the VSMC, conditions under which Cd inhibits Na, K-ATPase are consistent with inhibition from the cytoplasmic side of the cell membrane.
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PMID:Cadmium effect on the Na,K-ATPase system in cultured vascular smooth muscle cells. 614 Nov 42

Insulin stimulated the uptake of 86Rb+ (a K+ analog) in rat adipocytes and increased the steady state concentration of intracellular potassium. Half-maximal stimulation occurred at an insulin concentration of 200 pM. Both basal- and insulin-stimulated 86Rb+ transport rates depended on the concentration of external K+, external Na+, and were 90% inhibited by 10(-3) M ouabain and 10(-3) M KCN, indicating that the hormone was activating the (Na+,K+)-ATPase. Insulin had no effect on the entry of 22Na+ or exit of 86Rb+. Kinetic analysis demonstrated that insulin acted by increasing the maximum velocity, Vmax, of 86Rb+ entry. Inhibition of the rate of Rb+ uptake by ouabain was best described by a biphasic inhibition curve. Scatchard analysis of ouabain binding to intact cells indicated binding sites with multiple affinities. Only the rubidium transport sites which exhibited a high affinity for ouabain were stimulated by insulin. Stimulation required insulin binding to an intact cell surface receptor, as it was reversible by trypsinization. We conclude that the uptake of 86Rb+ by the (Na+,K+)-ATPase is an insulin-sensitive membrane transport process in the fat cell.
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PMID:Insulin stimulation of (Na+,K+)-adenosine triphosphatase-dependent 86Rb+ uptake in rat adipocytes. 625 93

Infants and young animals tolerate higher doses of digitalis glycosides, relative to body weight, than adults. One possible explanation for this could be an age-dependent difference in the myocardial digitalis receptor, the Na+-K+-ATPase. Two functions of this enzyme were studied in adult, 1- and 6-week-old dogs and guinea pigs: in vitro myocardial uptake of rubidium (86Rb) and binding of ouabain. In guinea pigs, rubidium uptake (pmol Rb/mg LV per 15 min) was: 1 week old: 100.9 +/- 7.1 (mean +/- SE); 6 week: 79.8 +/- 6.7 adult: 55.2 +/- 7.9; (1 week: 6 week: P less than 0.025; 1 week: adult, P less than 0.001; 6 week: adult, P less than 0.025). Similarly in dogs, rubidium uptake was significantly greater at 1 week than at 6 weeks (208 +/- 13 vs. 144 +/- 9; P less than 0.001) and the latter greater than in adults (111 +/- 4) (P less than 0.005). Other groups of anesthetized adult and 6-week-old dogs were given digoxin, 0.3 mg/kg, iv. The young dogs took significantly longer to become cardiotoxic (17.3 +/- 3.4 min vs. 9.3 +/- 1.4 min; P less than 0.025), while their myocardial digoxin uptake was at least as great. Rubidium uptake showed an average decrease of 56% after digoxin but residual uptakes were not different in the two groups. Data for ouabain binding showed similar differences between the various groups of dogs studied. Increased myocardial Na+-K+-ATPase activity, reflected in greater active cation transport and specific enzyme binding, has been demonstrated in young animals and may be partly responsible for their greater tolerance to digitalis glycosides.
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PMID:Age dependence of myocardial Na+-K+-ATPase activity and digitalis intoxication in the dog and guinea pig. 625 21

1. Groups of sedated dogs were studied at spontaneous heart rates (HR), 55-100/min, or at paced HR 200/min, with or without intravenous digoxin administration. After 60 min, active rubidium uptake (86 Rb+) of ventricular samples was determined in vitro. 2. Untreated fast and slow HR groups had similar uptakes. Following digoxin, 0.08 mg/kg, uptake was less at fast than slow HR (63.8, s.e.m. = 4.5 v. 87.5, s.e.m. = 5.0 pmol/mg LV/15 min, P less than 0.01). After 0.125 mg/kg, values were again lower in the fast HR group in which five of seven developed ventricular tachycardia. 3. Heart rate does not alter in vitro activity of myocardial Na+-K+-ATPase but does influence inhibition of the enzyme resulting from digoxin administration.
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PMID:The influence of heart rate on digoxin-induced inhibition of myocardial Na+-K+-ATPase activity in the dog. 626 29

Na+,K+-ATPase activity was assessed indirectly in three groups of subjects of differing age, and in a group of patients with renal failure, by measuring the 86-rubidium uptake in the patients' own erythrocytes. The inhibiting action of digoxin on this activity was also measured in vitro. Erythrocyte 86Rb uptake was found to be lower in the elderly as was the calculated volume of distribution of digoxin. Sensitivity to the inhibiting action of digoxin increased with age. In the renal failure group 86Rb uptake was diminished and the sensitivity to digoxin was variable. This suggested that Na+,K+-ATPase activity could be one determinant of the volume of distribution of digoxin and that quantitative and qualitative changes of this enzyme could explain features of the pharmacokinetics of digoxin in renal failure and in old age.
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PMID:Digoxin in the elderly and in renal failure. Contribution of erythrocyte 86-rubidium uptake tests. 626 20

The gastric (K, H)-ATPase has been shown to catalyze an electroneutral H+ for K+ exchange. Tl+ is able to substitute for K+ as an activating cation in the hydrolytic reaction with an apparent dissociation constant of 90 microM as compared to about 870 microM for K+. The ability of Tl+ to participate in transport is shown by the development of pH gradients in the presence of Tl+ following addition of ATP to gastric vesicles and by the ATP-dependent efflux of Tl+ from gastric vesicles. Inhibition of hydrolysis is observed at pH 7.4 with external Tl+ concentrations above 3.0 mM. This inhibition of hydrolysis is correlated with inhibition of pH-gradient formation. The inhibition of transport activity is partially relieved by a decrease in medium pH. This inhibitory effect is attributed to Tl+ binding at an external, low affinity cation site. In contrast to rubidium chloride, at high Tl+ concentrations, following the initial Tl+ efflux, there is reuptake of the cation. This rapid uptake is attributed to lipid-dependent Tl+ entry pathways. The vesicles exhibit a high permeability to thallium nitrate demonstrating a half-time (t1/2) for uptake of about 1.0 min in contrast to 46 min for rubidium chloride. In both gastric vesicles or liposomes, external Tl+ concentrations in excess of 1 to 4 mM are able to dissipate intravesicular proton gradients. Thus, although Tl+ is able to activate the gastric ATPase by mimicking K+, the permeability of this cation in lipid bilayers tends to uncouple H+ transport at concentrations high enough to generate detectable proton gradients.
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PMID:Thallium interaction with the gastric (K, H)-ATPase. 626 94

Inhibition of the Na+-K+ active transport system has been postulated to be one mechanism through which myocardial contractility is increased. Rubidium is one substance which has been shown to increase the contractility of guinea-pig atria and inhibit the activity of the isolated Na+,K+-adenosine triphosphatase of guinea-pig ventricle. A reexamination of these results confirmed the positive inotropic effect of rubidium on guinea-pig atria and demonstrated that this effect on contractility is accompanied by a decrease in both resting potential and action potential duration. However, it was also found that rubidium produced a transient negative inotropic effect in guinea-pig ventricle. The latter response was closely paralleled by a transient shortening of action potential duration. A concentration of rubidium maximally effective in decreasing contractility (2.0 mM) had no effect on the slow response action potential or contraction. RbCl (0.1 mM) had no effect on cyclic adenosine 3':5'-monophosphate levels of the ventricle or atrium. RbCl did inhibit active transport in the ventricle, as evidenced by a significant reduction in the electrogenic contribution on the active transport system to the maximal diastolic membrane potential during high-frequency drive. These results demonstrate that RbCl has different effects on the contractility of atrial and ventricular muscle. They also suggest that inhibition of the sodium pump is not necessarily accompanied by an increased force of myocardial contraction.
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PMID:Effects of rubidium on contractility and sodium pump activity in guinea-pig ventricle. 627 Mar 15

Reconstitution of purified lubrol-solubilized preparation of Na,K-ATPase from the calf brain was performed in liposomes and transport characteristics of this system were investigated. The system was demonstrated to preserve vectoral features of the sodium pump. Addition of ATP to the medium evoked active influx of sodium and efflux of rubidium in proteoliposomes. Ouabain inhibited transport processes when enclosed into proteoliposomes, i.e. from the side opposite to the ATP-sensitive one.
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PMID:[Sodium pump reconstruction in lipid vesicles]. 627 36

The Na(+)-K(+) pump in the erythrocytes of a mordibly obese patient shows a unique constellation of functional abnormalities. The number of pump units, measured by [(3)H]ouabain binding to intact cells, as well as the enzymatic activity of the (Na(+)-K(+))-dependent ATPase in erythrocyte membranes were found to be markedly increased compared with control cells (18-fold and 14-fold, respectively). There was a concomitant fivefold increase in the rate of pump-mediated uptake of (86)Rubidium (a K analogue); this was balanced by an increased rate of (86)Rb efflux. In striking contrast to normal cells, however, a major portion of this efflux (80%) was inhibited by ouabain, and thus appeared to be mediated by the Na(+)-K(+) pump. Erythrocytes from this patient had elevated levels of intracellular K(+) and reduced levels of intracellular Na(+). This finding, taken together with the ouabain inhibition of K(+) efflux and the absence of associated abnormalities, argues against the possibility that the increased number of Na(+)-K(+) pump units was a compensation for a primary increase in the permeability of the erythrocyte membrane to monovalent cations, as is seen in a variety of erythrocyte disorders. Further evidence for a primary abnormality of the enzyme was our observation that the cardiac glycoside ouabain bound to these cells with reduced affinity and had a right shifted dose response for pump inhibition. The markedly increased number of Na(+)-K(+) pump units in these cells did not appear to extend to mononuclear leukocytes.In conclusion, the erythrocytes from this patient have a very large number of functionally abnormal Na(+)-K(+) ATPase units. A unique abnormality of the erythrocyte Na(+)-K(+) ATPase of these cells is the most likely explanation for these findings.
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PMID:Functionally abnormal Na+-K+ pump in erythrocytes of a morbidly obese patient. 627 16

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