EC:3.6.1.3 - FACTA Search

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)

A plasma membrane fraction of HeLa S3 cells, consisting of ghosts, is characterized more fully. A simple procedure is described which permits light and electron microscope study of the plasma membrane fraction through the entire depth of the final product pellet and through large areas parallel to the surface. Contamination by nuclei is 0.14%, too little for DNA detection by the diphenylamine reaction. Contamination by rough endoplasmic reticulum and ribosomes is small, a single ghost containing about 3% of the RNA in a single cell. Mitochondria were not encountered. Electron microscopy also shows (a) small vesicles associated with the outer surface of the ghosts, and (b) a filamentous web at the inner face of the ghost membrane. Sodium dodecyl sulfate (SDS)-polyacrylamide gel analysis shows that of the many Coomassie Blue-stained bands two were prominent. One, 43,000 daltons, co-migrated with purified rabbit muscle actin and constituted about 7.5% of the plasma membrane protein. The other major band, 34,000 daltons, was concentrated in the plasma membrane fraction. Two major glycoproteins detected by autoradiography of [14C]fucose-labeled glycoproteins on the gels, had apparent molecular weights of 35,000 daltons and 32,000 daltons. These major bands did not stain with Coomassie Blue. There were many other minor glycoprotein bands in the 200,000- to 80,000-dalton range. Ouabain-sensitive, Na+, K+-adenosine triphosphatase (ATPase) activity of the ghost fraction is purified 9.1 (+/- 2.2) times over the homogenate; recover of the activity is 12.0 (+/- 3.8%) of the homogenate. Enrichment and recovery of fucosylglycoprotein parallel those for ouabain-sensitive Na+, K+-ATPase activity. Fucosyl glycoprotein is recovered more than the enzyme activity in a smooth membrane vesicle fraction probably containing the bulk of plasma membrane not recovered as ghosts.
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PMID:Further characterization of HeLa S3 plasma membrane ghosts. 14 66

The conditions necessary for optimal ouabain binding in the avian salt gland were examined. Binding was enhanced by ATP and Mg2+ and was decreased by K+, but was unaffected by added Na+. Both maximal binding and complete inhibition of Na, K-ATPase activity were obtained at 1 X 10(-6) M ouabain. Half maximal binding and half maximal inhibition of Na, K-ATPase activity were obtained at 1.7 X 10(-7) M ouabain. Ouabain binding increased in parallel with increasing specific activity of the Na, K-ATPase duringsalt-induced salt gland specialization. The ratio of Na, K-ATPase activity to ouabain-binding sites remained constant during the salt stress as well as after removal of the salt diet. Autoradiography indicated binding to partially and fully differentiated secretory cells of the salt gland. The ouabain binding assay appeared to be a more useful indicator of membrane amplification than Na, K-ATPase activity since it is rapid, essentially irreversible, less sensitive to tissue fixatives, and quantitatively measured the number of enzyme molecules.
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PMID:Ouabain binding during plasma membrane biogenesis in duck salt gland. 14 97

Ouabain-resistant mutations in Chinese hamster cells have been quantitatively characterized. The mutation frequencies were found to be induced curvilinearly with treatments of increasing doses of ultraviolet light (UV). For the range of UV doses tested (5--20 J/m(2)), the observed frequency, Y, as a function of UV dose X, follows a curvilinear function, Y = (-28 + 13.37 X--1.52X(2) + 0.08X(3)) . 10(-6). The frequencies of UV-induced mutations were directly correlated with cell survival, indicating a similar causal relationship between cell killing and mutation induction. Under the same experimental conditions, X-rays induced 6--thioguanine-, but not ouabain-, resistant mutations. UV-induced ouabain-resistant (ouar) mutants exhibit a selection disadvantage. Their phenotypic expressions are modifiable by various agents. Wild type and 16 ouar mutants were compared with respect to their sensitivity to ouabain inhibition of 86Rb uptake by whole cells. All the ouar mutants assayed are less sensitive to the drug than are wild-type cells. In the absence of ouabain, the Na+--K+--ATPase activities can be significantly higher or lower than that of the wild-type cells.
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PMID:Characterization of ultraviolet light-induced ouabain-resistant mutations in Chinese hamster cells. 14 23

Specific activity (mumol Pi released/h/mg membrane protein) of ouabain-sensitive (Na+ + K+)-ATPase has been shown to be higher in erythrocytes from children suffering from kwashiorkor, compared to that in normal children. Twenty four hours after treatment of these children with a diuretic, there was reduction in their body weights due to loss of oedema fluid. Ouabain sensitive (Na+ + K+)-ATPase of the erythrocyte membrane was inhibited by about 40% and this was associated with gain of 1.8 mequivalents Na+ per litre of erythrocytes. The results suggest that high ouabain-sensitive (Na+ + K+)-ATPase could be one of the mechanisms operative in erythrocytes to prevent accumulation of Na+ in kwashiorkor.
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PMID:High erythrocyte membrane (Na+ + K+)-ATPase in kwashiorkor, in vivo reversal by diuretic. 15 Mar 19

Ouabain-resistant mutants were induced in C3H mouse embryo 10T1/2 fibroblasts by exposure to ultraviolet light, thus making available an in vitro system for studying mutagenesis and oncogenic transformation in parallel. 86Rb uptake studies showed that biochemical mutants at the plasma membrane Na+,K+ transport ATPase (EC 3.6.1.3) locus were being selected for in this system. The optimal expression time for the mutants was found to depend on the dose of ultraviolet light, as was the induced mutation frequency. The ratio of transformation to mutation frequencies was found to be on the order of 10 for four different doses, suggesting that the target size in the cellular genome for transformation may be approximately 10 times the size of the Na+,K+ ATPase gene. We propose that both transformation and mutation induction can now be quantitatively studied in this single system.
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PMID:Induction of ouabain-resistant mutations in C3H 10T1/2 mouse cells by ultraviolet light. 15 Jun 1

We tested the hypothesis that membrane vesicles of smooth muscle function as organelles controlling cell volume through a mechanochemical mechanism not involving Na+-K+ dependent membrane ATPase. Pieces of rat myometrium were incubated under various conditions at 25 degrees C, and then were analyzed after various times for Na+, K+, ATP and water contents or were prepared and examined in the electron microscope. Metabolic inhibition with iodoacetate (IAA) + dinitrophenol (DNP) rapidly depleted ATP, then decreased membrane vesicle number and increased vesicle size. Thereafter K+ loss, Na+ gain and water gain occurred. Slower depletion of ATP by treatment of tissues with IAA or ethacrynic acid produced similar, but delayed effects. Treatment with DNP alone, DNP in glucose-free Krebs-Ringer or glucose-free solution bubbled with N2 partly depleted the tissues of ATP but did not markedly affect the membrane vesicles or tissue water content. Ouabain affected neither ATP contents of tissues nor the numberof membrane vesicles, but produced large intracellular vesicles. The membrane vesicles were suggested to be sites of a mechanochemical volume control system.
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PMID:Relation of membrane vesicles to volume and Na+ transport in smooth muscle: effect of metabolic and transport inhibition on fresh tissues. 15 83

EPR and water proton relaxation rate (1/T1) studies of partially (40%) and "fully" (90%) purified preparations of membrane-bound (Na+ + K+) activated ATPase from sheep kidney indicate one tight binding site for Mn2+ per enzyme dimer, with a dissociation constant (KD = 0.88 muM) in agreement with the kinetically determined activator constant, identifying this Mn2+-binding site as the active site of the ATPase. Competition studies indicate that Mg2+ binds at this site with a dissociation constant of 1 mM in agreement with its activator constant. Inorganic phosphate and methylphosphonate bind to the enzyme-Mn2+ complex with similar high affinities and decrease 1/T1 of water protons due to a decrease from four to three in the number of rapidly exchanging water protons in the coordination sphere of enzyme-bound Mn2+. The relative effectiveness of Na+ and K+ in facilitating ternary complex formation with HPO2-4 and CH3PO2-3 as a function of pH indicates that Na+ induces the phosphate monoanion to interact with enzyme-bound Mn2+. Thus protonation of an enzyme-bound phosphoryl group would convert a K+-binding site to a Na+-binding site. Dissociation constants for K+ and Na+, estimated from NMR titrations, agreed with kinetically determined activator constants of these ions consistent with binding to the active site. Parallel 32Pi-binding studies show negligible formation (less than 7%) of a covalent E-P complex under these conditions, indicating that the NMR method has detected an additional noncovalent intermediate in ion transport. Ouabain, which increases the extent of phosphorylation of the enzyme to 24% at pH 7.8 and to 106% at pH 6.1, produced further decreases in 1/T1 of water protons. Preliminary 31P- relaxation studies of CH3PO2-3 in the presence of ATPase and Mn2+ yield an Mn to P distance (6.9 +/- 0.5 A) suggesting a second sphere enzyme-Mn-ligand-CH3PO2-3 complex. Previous kinetic studies have shown that T1+ substitutes for K+ in the activation of the enzyme but competes with Na+ at higher levels. From the paramagnetic effect of Mn2+ at the active site on the enzyme on I/T1 of 205T1 bound at the Na+ site, a Mn2+ to T1+ distance of 4.0 +/- 0.1 A is calculated, suggesting the sharing of a common ligand atomy by Mn2+ and T1+ on the ATPase. Addition of Pi increases this distance to 5.4 A consistent with the insertion of P between Mn2+ and T1+. These results are consistent with a mechanism for the (Na+ + K+)-ATPase and for ion transport in which the ionization state of Pi at a single enzyme active site controls the binding and transport of Na+ and K+, and indicate that the transport site for monovalent cations is very near the catalytic site of the ATPase. Our mechanism also accounts for the order of magnitude weaker binding of Na+ compared to K+.
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PMID:Magnetic resonance and kinetic studies of the mechanism of membrane-bound sodium and potassium ion- activated adenosine triphosphatase. 17 21

The submaxillary duct epithelium, which actively transports Na+ (rabbit) and, in addition, K+ and H+/HCO-/3 (rat), was used as a model epithelium to compare the effects of ouabain and amiloride on transport parameters. 1. Ouabain was only effective from the interstitial side, amiloride, however, only from the luminal side. Amiloride induced effects on transport of the ions were seen within less than 1 s, ouabain effects, however, only after minutes. 2. Ouabain inhibited in a parallel fashion the Na+ transport potential and the Na+-K+-ATPase activity. It had no effect on the Mg2+-ATPase and the HCO-/3-ATPase. 3. Amiloride also inhibited the Na+ transport potential and the Na+-K+-ATPase; however, the Na+ transport potential was significantly more sensitive to amiloride than the Na+-K+-ATPase. 4. Amiloride inhibited in a similar fashion the Na+-K+-ATPase, the Mg2+-ATPase and the HCO-/3-ATPase, but did not influence active HCO-/3 secretion. 5. It is concluded that the amiloride induced effects on the membrane ATPases are non-specific.
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PMID:Non-specific inhibition of membrane-ATPase by amiloride: a comparative in vivo and in vitro study with ouabain. 18 83

The uptake of ouabain-sensitive 86Rb+ uptake measured at 5 min and the uptake measured at 60 min was 4.5- and 2.7-fold greater respectively for SV40 transformed 3T3 cells compared to 3T3 cells during the late log phase of growth. This uptake, however, varied markedly with cell growth. Ouabain-sensitive 86Rb+ uptake was found to be a sensitive indicator of protein synthesis as measured by total protein content. Cessation of cell growth as measured by total protein content was associated with a decline in ouabain-sensitive 86Rb+ uptake in both cell types. This increase ouabain-sensitive cation transport was reflected in increased levels of (Na++K)-ATPase activity for SV40 3T3 cells, which showed a 2.5-fold increase V but the same Km as 3T3 cells. These results are compared with the results of related work. Possible mechanisms for these effects are discussed and how changes in cation transport might be related to alterations in cell growth.
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PMID:Cell growth and quabain-sensitive 86Rg+ uptake and (Na++K+)-ATPase activity in 3T3 and SV40 transformed 3T3 fibroblasts. 18 47

1 Intracellular potentials were recorded in driven left atria from reserpine-treated rabbits. Guanethidine 2 X 10(-5) M slightly increased Vmax and shortened the total duration (TD) of the action potential (AP) without causing hyperpolarization. For the first 30 min after 4 X 10(-4) M, Vmax increased without hyperpolarization and AP height increased slightly. Thereafter, Vmax and height decreased with a slight and gradual depolarization. This depolarization was irreversible. TD was increased after 15 minutes. Guanethidine 2 X 10(-3) M initially decreased Vmax and height before causing depolarization. 2. Pretreatment with tetrodotoxin (TTX) 1.6 X 10(-7) M prevented or reversed the initial increases in Vmax, height and TD induced by guanethidine (4 X 10(-4) M). 3 TTX 3.1 to 6.2 X 10(-6) M, added 15 or 30 min after guanethidine 4 X 10(-4) M, delayed or prevented depolarization by guanethidine. 4 Ouabain 10(-5) M incubated for 20 and 90 min greatly inhibited Na+, K+-adenosine triphosphatase and K+-phosphatase activities; guanethidine was without effect. 5 Guanethidine probably increases resting sodium permeability after the promotion of increases in sodium permeability during the AP. High doses of the drug decrease sodium permeability during the AP.
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PMID:Action of guanethidine on rabbit atrial membranes. 20 4

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