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)

Left ventricular hypertrophy was seen in catheterized, uninfected rabbits, whereas contractile failure superimposed upon hypertrophy was observed in catheterized animals after injection with Streptococcus viridans within six days. The infected animals showed marked changes in the ultrastructure of the left heart in comparison to the uninfected rabbits. The levels of calcium and potassium were decreased, whereas sodium was increased in both infected and uninfected hearts; however, magnesium levels did not change in uninfected hearts but were decreased at three days and increased at six days of infection. The microsomal calcium uptake was decreased in six-day uninfected as well as three-and six-day infected hearts. On the other hand, the mitochondrial calcium uptake was increased in six-day uninfected and three-day infected hearts but decreased in six-day infected hearts. The sarcolemmal calcium binding and (Na+,K+)ATPase activities were decreased in six-day uninfected as well as three- and six-day infected hearts. These results dramatic changes in intracellular calcium metabolism in myocardial hypertrophy and failure caused by bacterial infection.
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PMID:Alteration in calcium metabolism in cardiac hypertrophy and failure caused by bacterial infection. 14 39

The composition and function of fragmented sarcoplasmic reticulum from pig skeletal muscle was examined in the period immediately post mortem. Muscle was defined as being either slowly glycolysing or rapidly glycolysing on the basis of colour, pH and concentrations of glycogen and lactate. The microsomal fraction was separated on a discontinuous gradient of 35, 40 and 45% (w/v) sucrose into heavy and intermediate fractions which sedimented to the interfaces, and a light fraction which remained on the surface of the 35%-sucrose layer. The sarcoplasmic reticulum from rapidly glycolysing muscle had a lower buoyant density than had that from slowly glycolysing muscle. This was reflected in the consistent lack of material in the heavy fraction and a greater proportion in the light fraction. The latter material had significantly lower ratios (w/w) of protein to phospholipid (2.3:1 versus 3.8:1) and of protein to cholesterol (10.4:1 versus 15.6:1). There were no gross differences in phospholipid content or in fatty acid composition of individual phospholipid classes in the membranes from the two types of muscle. Analysis of membrane proteins by sodium dodecyl sulphate/polyacrylamide-gel electrophoresis showed that ATPase (adenosine triphosphatase) was a major component of each fraction and that its contribution to the total protein content of the membrane was greater in rapidly glycolysing muscle, suggesting a loss of non-ATPase proteins. The two fractions of sarcoplasmic reticulum prepared from rapidly glycolysing muscle had approximately one-third the normal activities of Ca(2+) binding and Ca(2+) uptake in the presence of ATP and one-half the passive Ca(2+)-binding capacity in the absence of ATP of the fractions from slowly glycolysing muscle. However, the (Ca(2+)+Mg(2+))-stimulated ATPase activities were similar. Efflux from actively loaded vesicles, after the addition of EDTA, consisted of a rapid and a slow phase. Vesicles from rapidly glycolysing muscle lost 60% of associated Ca(2+) (approx. 0.10mumol of Ca(2+)/mg of protein) during the rapid phase, compared with 30% (approx. 0.17mumol of Ca(2+)/mg of protein) in those from slowly glycolysing muscle. The efflux rate during the slower phase was comparable in both types of vesicles. Analysis of the temperature-dependence of (Ca(2+)+Mg(2+))-stimulated ATPase activity revealed that a high-activation-energy process operating in the temperature range 31-45 degrees C in the intermediate and light fractions from slowly glycolysing muscle was not apparent in vesicles from rapidly glycolysing muscle. Conditions that result in the prolonged activation of glycogenolysis in pig muscle post mortem primarily affect the protein components of the sarcoplasmic-reticular membrane, giving rise to a loss of loosely associated proteins. The function of the membranes observed under these conditions does not appear to be due to enhanced permeability of the membrane to Ca(2+) and may be the result of a defect in the transport of Ca(2+) into the vesicles.
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PMID:Characteristics of sarcoplasmic reticulum from slowly glycolysing and from rapidly glycolysing pig skeletal muscle post mortem. 14 57

We could show an ATPase in mitochondrial and microsomal fractions of sheep arteria carotis communis and arteria coronaria of cattle which can be stimulated by Ca2+ of Mg2+, respectively. The enzyme has a higher affinity for Ca2+ than for Mg2+. The maximum activity of the Mg(Ca)-ATPase was found at 2-4 mM Ca2+ or Mg2+, respectively. Higher concentrations of these ions inhibit the enzyme. Mn2+, Sr2+ and Co2+ can substitute Ca2+ in splitting of ATP by the ATPase of both fractions of ateria coronaria of cattle. The ions K+ and Na+, variation of temperature and pH and a variety of pharmacological active compounds has the same effect on the ATPase stimulated by Ca2+ or Mg2+. These findings prove that Ca2+ and Mg2+ act at the same site of the ATPase of the mitochondrial and microsomal fraction of vascular smooth muscle.
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PMID:[Mg(Ca)-ATPase of arterial muscle cells]. 14 23

Inhibition of adenosinetriphosphatase (ATPase) by lead chloride (PbCl2) was studied in microsomal fractions or tissue homogenates of kidney, brain, and heart of several species, including humans. The concentration of PbCl2 causing 50% inhibition (I50) of Na+ + K+ ATPase activity varied from 8 X 10(-6) to 8 X 10(-5) M, depending on the species and organ of origin of the enzyme. The enzyme preparations derived from various parts of the kidney showed no differential sensitivity to PbCl2. These differences in sensitivity to lead were not related to specific activity of the enzyme or to the protein content of the preparations studied. Mg2+ ATPase, which contaminated the enzyme preparations to a variable degree, was 10--100 times more resistant to PbCl2 than was Na+ + K+-activated ATPase. The following more detailed studies were performed on the dog brain and/or kidney enzyme. The inhibition of microsomal Na+ + K+ ATPase was characterized by reversible kinetics. The inhibitory effect was antagonized by Na+, increased by Mg2+, and not altered by K+. ATP alone, or together with Mg2+, antagonized the inhibition. Disodium edetate prevented or reversed the inhibition. These inhibitory characteristics suggest that Pb2+ inhibits Na+ + K+ ATPase at the Na+-dependent phosphorylation site, and that ATP chelates Pb2+ in competition with Mg2+. Combining Pb2+ with ATP may not only result in a reduction of ATPase activity but also cause a relative ATP deficiency if lead is present in sufficiently high concentration.
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PMID:Inhibitory characteristics of lead chloride in sodium- and potassium- dependent adenosinetriphosphatase preparations derived from kidney, brain, and heart of several species. 14 49

A microsomal fraction from canine brain gray matter has been extracted with the detergent sodium dodecyl sulfate to partially purify the membrane-bound (Na+ + K+)-stimulated adenosine triphosphatase. Phospholipid, glycolipid, and a family of other glycoproteins are also enriched by the procedure; it is proposed that the product is an intrinsic membrane protein fraction. 6--8-fold purification of (Na+ + K+)-ATPase is obtained without solubilizing the enzyme and without irreversibly altering its turnover number. Final specific activities are 350--400 mumol of ATP hydrolyzed/h per mg protein. The stimulation and reversible inactivation of the (Na+ + K+)-ATPase by dodecyl sulfate were examined for information relevant to the mechanism of action of the detergent.
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PMID:Purification from brain of an intrinsic membrane protein fraction enriched in (Na+ + K+)-ATPase. 14 8

1 The specific [3H]-ouabain binding to microsomal fractions derived from cat heart, liver, spleen, and kidney increased significantly following chronic administration of ethanol. 2 Since ouabain binds exclusively to cell membrane (Na+ + K+)-adenosine triphosphatase ((Na+ + K+)-ATPase), these results provide evidence for an increase in number of (Na+ + K+)-ATPase macromolecules during chronic alcoholism. 3 The importance of the increase in number of (Na+ + K+)-ATPase molecules in the adaptive increase in ethanol metabolism and cardiac myopathy in chronic alcoholism is discussed.
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PMID:[3H]-Ouabain binding to peripheral organs of cats: effect of ethanol. 14 33

Plasma membrane sheets prepared by zonal centrifugation of a premicrosomal pellet obtained from a rat liver homogenate are devoid of HCO-3-ATPase activity. Since the microsomal fraction is also lacking in this ATPase activity, it can be concluded that the HCO-3-ATPase is not involved in the secretion of HCO-3 into bile.
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PMID:HCO-3-ATPase activity distribution in rat liver cell fractions prepared by zonal centrifugation. 14 17

The relationship between lysozyme and sodium reabsorption by the kidney tubule was studied in the experimental Fanconi syndrome. Female, anesthetized Sprague-Dawley rats were injected intravenously with maleic acid (an inhibitor of sodium transport) neutralized with sodium hydroxide in doses of either 2 or 8 mmol/kg. Clearance studies were performed immediately afterward, and plasma and urine were analyzed for inulin, pH, sodium, glucose, and lysozyme. Two hours after the maleic acid injection, renal cortical tissue was removed and homogenized. Specific activity of Na-K-ATPase was assayed in the light microsomal fraction. The results showed that both concentrations of maleic acid caused significant increases in urinary volume, glucose excretion, and pH. There were significantly correlated decreases in TNafract and TLyfract. The slope of the regression line (TLyfract = 1.03 TNafract - 5.82; r = 0.92) approximated unity. Renal cortical Na-K-ATPase activity was significantly decreased by 25% in the animals receiving 2 mmol maleic acid and 43% in the animals receiving 8 mmol. The evidence suggests that lysozyme reabsorption in the proximal tubule might be mediated directly or indirectly by active tubular transport of sodium, a process that is related to the Na-K-ATPase transport system.
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PMID:Renal handling of lysozyme in experimental Fanconi syndrome. 14 77

Representatives of eleven different classes of isoquinoline alkaloids inhibit Na+, K+-ATPase and Mg2+-ATPase in rat brain microsomal preparations. In most cases the Na+, K+-ATPase is more sensitive than Mg2+-ATPase to inhibition by the alkaloids. The classes of alkaloids can be ranked according to potency of inhibition of Na+, K+-ATPase. Protoberberines are most effective, followed in decreasing order by benzophenanthridines, benzylisoquinolines, aporphines, tetrahydroprotoberberines, pavines, protopines, isoquinolines, tetrahydrobenzylisoquinolines, morphinanes, and tetrahydroisoquinolines. As specific representatives of each of the first four classes of alkaloids, berberine, sanguinarine, papaveroline and 1,2,10,11-tetrahydroxyaporphine, respectively, prove most valuable in kinetic studies because they exhibit the greatest inhibitory action on brain Na+, K+-ATPase. Kinetic analyses plotted in double reciprocal form reveal that berberine and 1,2,10,11-tetrahydroxyaporphine are simple linear competitive inhibitors with respect to ATP, whereas sanguinarine and papaveroline are simple linear noncompetitive inhibitors. These four representative alkaloids exhibit non-linear competitive inhibition with respect to Na+-activation. Additionally, these alkaloids significantly inhibit rat brain microsomal K+-activated pNPPase. The results demonstrate that certain members of several classes of isoquinoline alkaloids markedly affect various cation-dependent phosphohydrolases in vitro.
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PMID:Isoquinoline alkaloids. Inhibitory actions on cation-dependent ATP-phosphohydrolases. 14 28

The subcellular distribution of calcium-stimulated adenosine triphosphatase in the albino rabbit dental pulp was studied. The purity of the microsomal fraction was examined by measuring the marker enzymes and by electron microscopic observation. Some properties of calcium-stimulated adenosine triphosphatase were investigated.
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PMID:Studies on calcium-stimulated adenosine triphosphatase in the albino rabbit dental pulp. Its subcellular distribution and properties. 15 Apr 33


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