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)

The Mg2+-dependent, K+-stimulated ATPase of microsomes from pig gastric mucosa has been studied in relation to observed active H+ transport into vesicular space. Uptake of fluorescent dyes (acridine orange and 9-aminoacridine) was used to monitor the generated pH gradient. Freeze-fracture electron microscopy showed that the vesicular gastric microsomes have an asymmetric distribution of intramembraneous particles (P-face was particulate; E-face was relatively smooth. Valinomycin stimulated both dye uptake and K+-ATPase (valinomycin-stimulated K+-ATPase); stimulation by valinomycin was due to increased K+ entry to some intravesicular activating site, which in turn depends upon the accompanying anion. Using the valinomycin-stimulated K+-ATPase and H+ accumulation as an index, the sequence for anion permeation was NO-3 greater than Br- greater than Cl- greater than I- greater than acetate approximately isethionate. When permeability to both K+ and H+ was increased (e.g using valinomycin plus a protonophore or nigericin), stimulation of K+-ATPase was much less dependent on the anion and the observed dissipation of the vesicular pH gradient was consistent with an 'uncoupling' of ATP hydrolysis from H+ accumulation. Thiocyanate interacts with valinomycin inhibiting the typical action of the K+ ionophore. But stimulation of ATPase activity was seen by adding 10 mM SCN- to membranes preincubated with valinomycin. From the relative activation of the valinomycin-stimulated K+-ATPase, it appears that SCN- is a very permeant anion which can be placed before NO-3 in the sequence of permeation. Valinomycin-stimulated ATPase and H+ uptake showed similar dependent correlations, including: dependence on [ATP] and [K+], pH optima, temperature activation, and selective inhibition by SH- or NH2-group reagents. These results are consistent with a pump-leak model for the gastric microsomal K+-ATPase which was simulated using Nernst-Planck conditions for passive pathways and simple kinetics for the pump. The pump is a K+/H+ exchange pump requiring K+ at an internal site. Rate of K+ entry would depend on permeability to K+ as well as the counterion, either (1) the anion to accompany K+ or (2) the H+ efflux path as an exchange ion. The former leads to net accumulation of H+ and anion, while the latter results in non-productive stimulation of ATP hydrolysis.
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PMID:Potassium-stimulated ATPase activity and hydrogen transport in gastric microsomal vesicles. 3 10

This study examined the effects of vanadate on the potassium dependent phosphatase activity present in purified human kidney microsomal (Na+ + K+)-adenosine triphosphatase. Vanadate anion inhibited the K+-dependent phosphatase at a K1 of 35 nM. This inhibition was noncompetitive with the substrate, p-nitrophenylphosphate. The inhibition by vanadate at 1 mM K+ was only 45% of the inhibition that was observed at 10 mM K+. Neither preincubation of the enzyme with vanadate, nor changing the pH of the assay from 8.2 to 7.2 had any effect on the K1 for vanadate. The inclusion of 2.5 mM isoproterenol, to complex the yanadate, reversed the inhibition, as did diluting the enzymatic reaction. Vanadate also inhibited the overall (Na+ + K+)-ATPase reaction at a K1 of 1.91 microM. This inhibition was also reversible upon inclusion of isoproterenol in the assay. Increasing the level of magnesium from 6 mM to 30 mM lowered the K1 of vanadate to 0.25 microM. The possible role of vanadate as a physiological mediator of (Na+ + k+)-atpase activity is discussed.
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PMID:The effect of vanadate on human kidney potassium dependent phosphatase. 3 61

1. (Na+ +K+)-dependent ATPase was partially purified from eel gills by a procedure in which the microsomal fraction of crude preparations of chloride cells was selectively extracted with sodium dodecyl sulphate. 2. The microsomal specific activity was increased 2-fold during optimal treatment with detergent. 3. The final preparation (56% pure) had a specific activity of 341 mumol of ATP hydrolysed/h per mg of protein and a turnover number of 3560 min-1. The number of ouabain-binding sties equalled the number of sites phosphorylated by ATP. 4. Both sodium orthovanadate and ouabain inhibited the purified preparation more than the microsomal fraction, vanadate being more effective on an equimolar basis than ouabain. 5. Inhibition by orthovanadate was not enhanced at 28 mM-as compared with 1mM-MgCl2 and was not reversed by beta-adrenergic agonists (cf. Josephson & Cantley (1977) Biochemistry 16, 4572--4578). 6. Of various other metallic oxyanions tested only niobate proved an effective inhibitor of the enzyme although this anion was less effective than orthovanadate. 7. Orthovanadate partially inhibited phosphorylation of the enzyme by ATP in the presence of 28 mM-MgCl2.
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PMID:The partial purification of sodium-plus-potassium ion-dependent adenosine triphosphatase from the gills of Anguilla anguilla and its inhibition by orthovanadate. 3 42

A crude plasma membrane fraction from the homogenate of purified rat mast cells demonstrates a high degree of Ca2+-dependent and Mg2+-dependent adenosine triphosphatase (ATPase) activity. The microsomal and mitochondrial fractions show negligible amounts of the Ca2+ and Mg2+-activated ATPases. The broad ATPase inhibitor, ethacrynic acid, effectively blocks the mast cell ATPase activity while ouabain demonstrates little inhibitory effect. Correspondingly, ethacrynic acid inhibits histamine release from antigen-challenged mast cells while ouabain does not. Both ATPase inhibition and histamine release inhibition by ethacrynic acid require the presence of the olefinic bond in the ethacrynic acid molecule.
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PMID:Ethacrynic acid inhibitable Ca2+ and Mg2+-activated membrane adenosine triphosphatase in rat mast cells. 7 76

The K+-stimulated, ouabain-insensitive ATPase activity present in vesicles of microsomal fractions from hog gastric mucosa can be demonstrated in fresh preparations by adding Ca2+ (micron range) to the incubation medium. Ca2+ effect is similar but not additive to the effect of gramicidin or freezing. High Ca2+ concentrations (1 mM) produce an inhibitory effect on the K+-stimulated ATPase activity. This effect is not seen in the presence of gramicidin. Calcium increases the magnitude of ATP-driven H+ uptake in vesicles exposed to K+ for periods of time up to 60 min. At longer times of exposure (120 min) the response does not differ from controls. It is concluded that Ca2+ at low concentrations (micron range) enhances the K+ permeability of the vesicular membrane. At higher concentrations (mM range), Ca2+ becomes inhibitory to the K+ permeability. A role for Ca2+ as a second messenger in stimulus-secretion coupling in the parietal cell is discussed.
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PMID:Effect of calcium on the H+/K+ ATPase of hog gastric microsomes. 8 6

The ability of five nucleotides in the presence of excess divalent cations to inhibit UDPglucuronosyltransferase in sealed or leaky liver microsomal vesicles was studied. Two nucleotides inhibited potently while three others were weak inhibitors. At low concentration, both of the potent inhibitors, uridine tri- and diphosphates tended to inhibit more in sealed microsomal vesicles than in leaky microsomes, while the weak inhibitors, uridine diphosphate glucose and adenosine triphosphate behaved in the opposite manner and inhibited less in sealed than in leaky microsomes. At physiological concentrations of UDPglucuronic acid (0.4 mM) quite extensive inhibition of oestradiol glucuronidation could be achieved with physiological concentrations of uridine tri- or diphosphates (0.2 or 0.4 mM). In sealed or leaky microsomes, beta, gamma-methylene-interrupted uridine triphosphate, which is resistant to hydrolysis by nucleoside triphosphatase, inhibited much less than did uridine triphosphate.
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PMID:Studies on the inhibition of hepatic microsomal glucuronidation by uridine nucleotides or adenosine triphosphate. 11 13

In a Na-rich bathing system, addition of amiloride to the mucosal fluid of turtle bladders produces decreased in the transepithelial potential difference (PD), short-circuiting current (I-sc), and conductance. Removal of amiloride results in complete reversal of these changes; and this reversibility is incomplete in amiloride-blocked bladders exposed to ouabain. In a Na-free bathing system, step increased in mucosal [Na] evoke rapid initial spikes in PD, Isc, and conductance, the magnitudes of which are independent of prior ouabain treatment. After these spikes, PD and Isc in the ouabain-treated bladder rapidly decay, while conductance remains unchanged and high. This unchanging conductance, plus the fact that ouabain inhibits half the microsomal (Na plus K). ATPase of this tissue within 1 min, suggests that ouabain inhibits Na pumping without changing tissue conductance. The delayed decrease in conductance (beginning 30 min after ouabain addition), a nonspecific and secondary effect of ouabain, is due to a concomitant collapse of the intercellular channels.
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PMID:Effects of ouabain and amiloride on Na pathways in turtle bladders. 12 25

Membrane glycoproteins have been studied in the normal lactating mammary gland and R3230 AC mammary tumor of the rat. Plasma membrane-enriched fractions were obtained from these tissues by discontinuous sucrose gradient centrifugation of a microsomal preparation from the tissue homogenates. The lightest membrane fractions (F-1 and F-2) have the greatest enrichment of plasma membrane markers, with a 14- to 20-fold purification of 5'-nucleotidase and Na+-K+ -adenosine triphosphatase over the homogenate values in both tumor and normal tissues for F-1. Electron microscopy shows smooth membrane vesicles for these fractions. Polypeptide analysis by acrylamide gel electrophoresis shows essentially the same patterns for F-1 and F-2 and only relatively minor differences between membrane components of tumor and normal tissues. Glycoprotein analysis of the polyacrylamide gels by periodate-Schiff staining indicates more dramatic differences. Membrane Fraction F-1 from normal tissue contains two major glycoproteins, GP-II and GP-III, while Fractions F-2 and F-3 contain an additional glycoprotein, GP-I, with a higher apparent molecular weight. In the tumor, the component corresponding to GP-III is decreased or absent and a new component GP-IV is seen at a lower apparent molecular weight.
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PMID:Membrane glycoprotein differences between normal lactating mammary tissue and the R3230 AC mammary tumor. 12 79

The ionic influence and ouabain sensitivity of lymphocyte mg-2+-atpase and Mg-2+-(Na+ +K+)-activated ATPase were studied in intact cells, microsomal fraction and isolated plasma membranes. The active site of 5'-nucleotidase and Mg2+-ATPase seemed to be localized on the external side of the plasma membrane whereas the ATP binding site of (Na+ +K+)-ATPase was located inside the membrane. Concanavalin A induced an early stimulation of Mg2+-APTase and (Na+ +K+)-ATPase both on intact cells and purified plasma membranes. In contrast, 5'-nucleotidase activity was not affected by the mitogen. Although the thymocyte Mg2+-ATPase activity was 3-5 times lower than in spleen lymphocytes, it was much more stimulated in the former cells (about 40 versus 20%). (Na+ +K+)-ATPase activity was undectectable in thymocytes. However, in spleen lymphocytes (Na+ +K+)-ATPase activity can be detected and was 30% increased by concanavalin A. Several aspects of this enzymic stimulation had also characteristic features of blast transformation induced by concanavalin A, suggesting a possible role of these enzymes, especially Mg2+-ATPase, in lymphocyte stimulation.
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PMID:Effect of concanavalin A on membrane-bound enzymes from mouse lymphocytes. 12 86

1. ATP-dependent calcium uptake by a rabbit brain vesicular fraction (microsomes) was studied in the presence of phosphate or oxalate. These anions, which are known to form insoluble calcium salts, increased the rate of calcium uptake and the capacity of the vesicles for calcium accumulation. 2. The degree of activation depended on the concentration of phosphate or oxalate. Under optimal conditions, phosphate promoted a 5-fold increase in the amount of calcium stored at steady state. This level was 200-250 nmol Ca-2+/mg protein. 3. Initial rate of calcium uptake followed Michaelis-Menten kinetics with an apparent Km for calcium of 6.7-10-minus 5 M and a V of 44 nmol/min per mg protein. Optimal pH was 7.0. With 2 mM ATP, optimal Mg-2+ concentration was 2 mM. 4. Dintrophenol and NaN3 inhibited calcium uptake in a mitochondria-enriched fraction but not in the microsomal fraction. 5. Calcium uptake activity was compared in the six subfractions prepared from the whole microsomal fraction by means of a sucrose density gradient fractionation. 6. The Mg-2+-dependent ATPase activity of brain microsomes was activated by calcium. Maximal activation was attained with 100 muM CaCl2. Greater calcium concentrations caused a progressive inhibition. 7. The data suggest that the ATP-dependent calcium uptake in brain microsomes, as in muscle microsomes, is brought about by an active transport process, calcium being accumulated as a free ion inside the vesicles.
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PMID:ATP-dependent calcium accumulation in brain microsomes. Enhancement by phosphate and oxalate. 12 99

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