HUMANGGP:009336 - FACTA Search

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Query: HUMANGGP:009336 (ATPase)
59,826 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The NA-K-ATPase of toad skin was characteristically sensitive to Na, K, and ATP. It was not affected by amiloride, vasopressin, cAMP, and thyroxine, but stimulated by insulin. Ouabain, a potent inhibitor at 37 degrees C, did not inhibit the enzyme activity significantly at 23 degrees C. The optimal pH for the enzyme activity increased as temperature decreased. However, the optimal OH-/H+ ratio of the medium remained constant at 16 regardless of temperature. The Km for ATP remained unchanged between 37 and 8 degrees C if the OH-/H+ ratio was held constant at 16, but increased as temperature decreased if the pH of the medium was held constant at 7.4. The enzyme activity showed no appreciable variation between 37 and 20 degrees C with a constant OH-/H+ ratio of 16, whereas it decreased logarithmically at a constant pH of 7.4 over the same temperature range. These results indicate the presence of a typical Na-K-ATPase system in toad skin and that the enzyme is in the most active catalytic state at a fixed level of OH-/H+ ratio in the medium regardless of incubation temperature.
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PMID:Properties of toad skin Na-K-ATPase with special reference to effect of temperature. 1 98

Chick embryo cells transformed by the Bryan "high titer" strain of Rous sarcoma virus (RSV-BH) are heavily vacuolated. A variety of microscopic techniques have been used demonstrating that the vacuoles are cytoplasmic, bounded by membrane, and are composed largely of water. Proteins, lipids, glycoproteins, glycolipids, glycosaminoglycans, glycogen, and nucleic acids were undetectable in the vacuoles. Physiological requirements for development of the vacuoles, and reversal of vacuolization, were examined in cells infected with a virus mutant, RSV-BH-Ta, which induces reversible temperature-dependent transformation. Na+ was the only component of the cell culture medium found essential for both the development and reversal of vacuoles. Glucose depletion or dinitrophenol treatment inhibited vacuolization, suggesting a possible energy requirement in the vacuolization process. Ouabain, an inhibitor of Na+-K+ ATPase, enhanced vacuolization, but a variety of other substances affecting cell surface components were in active. Two sugars, glucosamine and mannosamine, prevented the disappearance of vacuoles. The observations suggest that cellular vacuolization may be a normal physiological response to an increase in water and Na+, and, in the specific case of transformation by RSV-BH, may be relevant to the physiological basis for malignancy.
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PMID:Transformation of cells by rous sarcoma virus: cytoplasmic vacuolization. 5 59

The effect of ouabain, a specific sodium-potassium dependent adenosine triphosphatase (Na+-K+-ATPase) inhibitor, on antigen-induced histamine release was studied using guinea pig lung fragments sensitized in vitro with rabbit antibodies against bovine serum albumin. Histamine was assayed spectrofluorometrically. When sensitized tissue had been preincubated with ouabain (less than or equal to 1.0 x 10(-4) M) for 10 min prior to antigenic challenge, release of histamine was significantly inhibited (maximum 54%, p less than 0.001, N=9, paired t test). The most significant inhibition was obtained near the optimal concentration of antigen. The inhibition was dependent on the length of preincubation (less than or equal to 20 min), and was partially reversible upon washing the tissue removing the ouabain. Ouabain did not seem to prolong the duration of the histamine release process. Increase in potassium ion (less than or equal to 1.1 x 10(-2)M) inhibited the histamine release and had additive effects to ouabain action. Dibutyryl cyclic AMP (less than or equal to 5 x 10(-3) M), which could enhance the release, strongly antagonized the inhibition. Glucose removal from the medium did not abolish the ouabain effect. The results seem to indicate that immunologic release of histamine is under the influence of the membrane Na+-K+-ATPase activity.
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PMID:Inhibition of antigen-induced histamine release by ouabain. 5 30

Ethacrynic acid, a known inhibitor of both Na+--K+ and Mg2+-activated ATPases, effectively inhibits histamine release from antigen-challenged human basophils in vitro. Ouabain, an inhibitor specific for Na+--K+-activated ATPases, shows no effect upon the quantity of histamine released from the antigen-challenged basophils. Ethacrynic acid also effectively inhibits Ca2+--ionophore A23187-induced release, implying it inhibits the Ca2+-dependent secretory stage of the histamine-release process. Inhibition of ATPases and histamine release by ethacrynic acid both require the presence of the olefinic bond in the ethacrynic-acid molecule. Possible utilization of analogues of ethacrynic acid as anti-allergic drugs and as a device to investigate the ATPase system of histamine-releasing cells is suggested.
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PMID:Blocking of histamine release from human basophils in vitro by the ATPase inhibitor, ethacrynic acid. 7 37

Erythrocyte ghost (Na+ + K+) ATPase activity was studied in mice with hereditary muscular dystrophy (strain C 57 BL 6J/dy) and appropriate controls. No difference was observed in the enzymatic activity between dystrophic and any of the healthy genotypes. Ouabain 5 mM and 0.1 mM inhibited the enzymatic activity and no difference was observed between dystrophic and control animals. The results are discussed in the light of the literature.
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PMID:Erythrocyte ghost (Na+ + K+) ATPase activity in mice with hereditary muscular dystrophy (strain C57 BL/64J/dy). 7 52

Ouabain-sensitive and-insensitive ATPase activities were measured in the kidneys and the kidneys and the liver of male and female rats of the Lyon hypertensive (LHS) and Lyon normotensive strain (LNS). At the age of 48 +/- 2 weeks, hypertensive rats exhibited a significantly higher blood pressure and body weight than age-matched normotensive rats. Ouabian-insensitive ATPase activity was decreased in the kidney, but not in the liver of hypertensive rats compared to normotensive rats. Ouabian-sensitive ATPase activity was non significantly decreased in the kidney of hypertensive rats.
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PMID:Ouabain-sensitive and -insensitive ATPase activities in the kidney and the liver of spontaneously hypertensive rats. 9 26

A plasma membrane preparation purified from guinea pig ventricles without the use of high concentrations of detergents or structure-disrupting salts was used to compare the mechanisms of controlling sodium, potassium-activated adenosinetriphosphatase (Na, K-ATPase) and adenylate cyclase activities. The basal ATPase activity of 4-6 mu moles P1/hour mg-1 protein, measured in 120 mM NaC1 or KC1, was approximately doubled in 100 mM NaC1 plus 20 mM KC1. This increment, the Na, K-ATPase, was abolished by 10-5M ouabain, the K1 for ouabain being approximately 3 X 10-7M. 1-Epinephrine had no effect on Na, K-ATPase, but NaF was inhibitory. Adenylate cyclase, which had a basal activity of approximately 50% by NaC1 or KC1 alone at concentrations up to 0.2M. There was no additional stimulation of adenylate cyclase activity when na+ K+ included together. Both 1-epinephrine and NaF cause significant stimulation of adenylate cyclase, but neither basal nor activated cyclic AMP PRODUCTION WAS INFLUENCED BY OUABAIN. Half-maximal stimulation was seen at approximately 5 X 10-6M 1-epinephrine. Both the catecholamine and NaF increased the V-max ofcardiac plasma membrane adenylate cyclase without significantly influencing Km. Increasing Ca2+ in the range between 10-7 and 10-3M inhibited basal, 1-epinephrine-stimulated, and NaF-stimulated activities. Basal rates of cyclic AMP production were more sensitive to Ca2+ than was 1-epinephrine stimulation was increased from approximately 60% in 0.5 mM EGTA to approximately 150% in 10-7M Ca2+ and 400% in 10-5M Ca2+. The inhibitory effect of Ca2+ on adenylate cyclase activity may represent a negative feed back mechanism by which elevation of intracellular Ca2+ concentration lowers cellular levels of cyclic AMP and thus reduces Ca2+ influx into the myocardium.
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PMID:Control of cardiac sarcolemmal adenylate cyclase and sodium, potassium-activated adenosinetriphosphatase activities. 12 80

The red blood cells of New Zealand white rabbits have a low sodium and high potassium content. As the animals mature, the sodium concentration rises and the potassium content falls; studies of red cells from a group of five young and five mature animals revealed a highly significant increase of cell sodium with age that was associated with a significant fall in the rate of ouabain-inhibited active sodium efflux. This difference was still seen when the sodium concentration within the cells from old and young animals was equalized and elevated to saturating levels for active pump efflux. Total sodium efflux, however, increased significantly with age as did total sodium influx so that a steady state was reached. Ouabain-sensitive ATPase activity fell significantly in the cell membranes from older animals and ouabain-insensitive ATPase increased with age. The survival time of 51Cr-labeled red cells was significantly longer in old than in young animals and it is concluded that as the rabbit matures its red cells survive for a longer period and this is associated with the changes of sodium transport and ATPase activity that have been documented.
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PMID:Changes of sodium transport in erythrocytes of the maturing rabbit. 12 17

Ouabain interaction with a possible pharmacologic receptor, Na+, K+-adenosine triphosphatase (Na+, K+-ATPase), has been assessed by continual perfusion of canine hearts with various concentrations of both unlabeled and 3-H-ouabain. A positive dose-related correlation between enzyme inhibition, increased contractile force and drug binding to the enzyme has been established. The complex formed between 3-H-oubain and Na+, K+-ATPase in vivo appears to have the same characteristics as that formed in vitro, suggesting that the nature of both complexes is the same. These data are consistent with the concept that Na+, K+-ATPase may be an important pharmacologic receptor for cardiac glycosides.
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PMID:The nature of the transport adenosine triphosphatase-digitalis complex. VIII. The relationship between in vivo-formed (3-H-ouabain-Na+, K+-adenosine triphosphatase) complex and ouabain-induced positive inotropism. 12 84

[3H]Ouabain binding in frog and toad urinary bladder was investigated by short-circuit current (SCC), scintillation counting and autoradiographic techniques. SCC data and analysis of tissue digests following serosal exposure to ouabain showed that ouabain binding and inhibition of Na+ transport was completely reversible in toad bladder whereas, in frog bladder, [3H]ouabain was tightly bound and Na+ transport remained suppressed even after a 60-min washout. Mucosal exposure of frog bladder to [3H]ouabain or serosal exposure after preincubation with unlabeled ouabain led to a marked reduction in binding. Specificity of binding was assessed further by adjusting the concentration of certain (Na+ -K+)-ATPase ligands(K+, ATP) to levels known to reduce ouabain binding. High K+ concentrations and depletion of endogenous ATP by incubation under anoxic conditions resulted in a significant drop in [3H]ouabain binding. Autoradiographic analysis showed that grains are localized primarily to the basolateral plasma membranes of the granular cells, providing direct morphological evidence for the location of Na+ pumps at these sites. Although autoradiographs did not provide sufficient resolution to rule out unequivocally ouabain binding to the mitochondria-rich cell, morphological evidence suggests that grain densities are significantly higher between adjacent granular cells than between granular cell-mitochondria-rich cell interfaces.
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PMID:Localization of sodium pump sites in frog urinary bladder. 12 62

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