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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)
1. Insulin stimulates the activity of membrane-bound
ATPase
isolated from frog skeletal muscle and from rat brain. The increase in activity of the membrane-bound
ATPase
system isolated from frog ranged from 9-8 to 53% at concentrations of Na+ (25 mM), K+ (10 mM), and ATP (2 mM) similar to those in in vivo experiments conducted previously (Moore, 1973). The increased activity of the membrane-bound
ATPase
is, therefore, at least as great as the insulin-induced increase in Na efflux (10-38%) from intact cells (Moore, 1973). If the concentration of Na+ is lowered to 4 mM and that of ATP lowered to 0-5 mM albumin, and 10(6) M, the increase in ouabain-inhibitable
ATPase
activity can reach as high as 400%. 2.
Ouabain
, at a concentration (10(-3) M) sufficient to inhibit stimulation of the frog
ATPase
by increasing Na from 4 to 25 mM, completely blocked the stimulation of
ATPase
activity due to insulin. 3. At 2 mM-ATP, 100 mM-Na+, and 20 mM-K+, conditions which maximally activate the (Na+ + K+)-
ATPase
, insulin did not increase the
ATPase
, activity. Stimulation was consistently seen at 10 mM-K+, 0-5 mM-ATP, and either 4 mM or 25 mM-Na+. 4. The finding that insulin does not stimulate the
ATPase
activity in conditions in which the (Na+ + K+)-
ATPase
component is maximally activated and especially the fact that ouabain can reproducibly inhibit insulin stimulation of the membrane-bound
ATPase
activity strongly suggest that interaction of insulin with its receptor upon the plasma membrane somehow stimulates the (Na+ + K+)-
ATPase
system (ouabain sensitive;
ATP phosphohydrolase
, EC (3.6.1.3). These results are consistent with previous studies of the effect of insulin upon Na efflux from intact cells (Moore, 1973) and support the previous conclusion that the component of Na efflux stimulated by insulin is active. The evidence suggests that insulin probably does not affect Vmax of the (Na+ + K+)-
ATPase
system, but may increase the affinity of the enzyme system to one or more effectors, most likely Na+, ATP, and perhaps K+. 5. Oxidized glutathione (2-7 X 10(-6) M), 10(-6) M, 10(-7) M, and 10(-8) M cyclic AMP did not affect the
ATPase
activity 10(-6)Malbumin, and . 6. The results are consistent with the view that the Na pump, (Na+ + K+)-
ATPase
, is intimately involved with the physiological action of insulin and may be transducer between the binding of insulin to its receptor on the plasma membrane and the cellular actions of insulin.
...
PMID:Effect of insulin upon membrane-bound (Na+ + K+)-ATPase extracted from frog skeletal muscle. 12 36
Basal and trypsin-stimulated
adenosine triphosphatase
activities of Escherichia coli K 12 have been characterized at pH 7.5 in the membrane-bound state and in a soluble form of the enzyme. The saturation curve for Mg2+/ATP = 1/2 was hyperbolic with the membrane-bound enzyme and sigmoidal with the soluble enzyme. Trypsin did not modify the shape of the curves. The kinetic parameters were for the membrane-bound
ATPase
: apparent Km = 2.5 mM, Vmax (minus trypsin) = 1.6 mumol-min-1-mg protein-1, Vmax (plus trypsin) = 2.44 mumol-min-1-mg protein-1; for the soluble
ATPase
: [S0.5] = 1.2 mM, Vmax (-trypsin) = 4 mumol-min-1-mg protein-1; Vmax (+ trypsin) = 6.6 mumol-min-1-mg protein-1. Hill plot analysis showed a single slope for the membrane-bound
ATPase
(n = 0.92) but two slopes were obtained for the soluble enzyme (n = 0.98 and 1.87). It may suggest the existence of an initial positive cooperativity at low substrate concentrations followed by a lack of cooperativity at high ATP concentrations. Excess of free ATP and Mg2+ inhibited the
ATPase
but excess of Mg/ATP (1/2) did not. Saturation for ATP at constant Mg2+ concentration (4 mM) showed two sites (groups) with different Kms: at low ATP the values were 0.38 and 1.4 mM for the membrane-bound and soluble enzyme; at high ATP concentrations they were 17 and 20 mM, respectively. Mg2+ saturation at constant ATP (8 mM) revealed michealian kinetics for the membrane-bound
ATPase
and sigmoid one for the protein in soluble state. When the
ATPase
was assayed in presence of trypsin we obtained higher Km values for Mg2+. These results might suggest that trypsin stimulates E. coli
ATPase
by acting on some site(s) involved in Mg2+ binding. Adenosine diphosphate and inorganic phosphate (Pi) act as competitive inhibitors of Escherichia coli
ATPase
. The Ki values for Pi were 1.6 +/- 0.1 mM for the membrane-bound
ATPase
and 1.3 +/- 0.1 mM for the enzyme in soluble form, the Ki values for ADP being 1.7 mM and 0.75 mM for the membrane-bound and soluble
ATPase
, respectively. Hill plots of the activity of the soluble enzyme in presence of ADP showed that ADP decreased the interaction coefficient at ATP concentrations below its Km value. Trypsin did not modify the mechanism of inhibition or the inhibition constants. Dicyclohexylcarbodiimide (0.4 mM) inhibited the membrane-bound enzyme by 60-70% but concentrations 100 times higher did not affect the residual activity nor the soluble
ATPase
. This inhibition was independent of trypsin. Sodium azide (20 muM) inhibited both states of E. coli
ATPase
by 50%. Concentrations 25-fold higher were required for complete inhibition.
Ouabain
, atebrin and oligomycin did not affect the bacterial
ATPase
.
...
PMID:Membrane bound and soluble adenosine triphosphatase of Escherichia coli K 12. Kinetic properties of the basal and trypsin-stimulated activities. 12 30
Ouabain
-binding and phosphorylation of (Na+ mk+)-
ATPase
(
EC 3.6.1.3
) of the plasma membranes from kidney were investigated after treatment with N-ethylmaleimide or oligomycin. Either of these inhibitors brought about the following changes: the phosphoenzyme, formed in the presence of Na+, Mg2+ and ATP became essentially insensitive to splitting by K+ but was split by ADP. One mole of this ADP-sensitive phosphoenzyme bound one mole of ouabain but the enzyme-ouabain complex was less stable than in the native enzyme primarily because the rate of its dissociation increased.
Ouabain
was bound to the ADP-sensitive phosphoenzyme in the presence of Mg2+ alone and addition of inorganic phosphate enhanced both the rate of formation and the steady-state level of the enzyme-ouabain complex. The inhibitors did not affect the properties of this second type of complex. Both in the native enzyme and in the enzyme treated with the two inhibitors inorganic phosphate enhanced ouabain binding by phosphorylating the active center of the enzyme as shown (a) by mapping the labeled peptides from the enzyme after peptic digestion, (b) by inhibition of this phosphorylation with Na+ and (c) by the 1:1 stoichiometric relation between this phosphorylation and the amount of bound ouabain. Unlike the phosphoenzyme, the binding of ouabain remained sensitive to K+ in the enzyme treated with the inhibitors. K+ slowed ouabain-binding either in the presence of Na+, Mg2+ and ATP or of Mg2+ and inorganic phosphate. A higher concentration of K+ was needed to slow ouabain-binding either in the presence of Na+, Mg2+ and ATP or of Mg2+ and inorganic phosphate. A higher concentration of K+ was needed to slow ouabain-binding than to stimulate dephosphorylation. This finding is interpreted as being an indication of separate sites for K+ on the enzyme: a site(s) with high K+-affinity which stimulates dephosphorylation, another site(s) with moderate K+-affinity which inhibits ouabain-binding. Inhibitors may enhance formation of the ADP-sensitive phosphoenzyme by blocking interaction between K+ and the site(s) with high affinity.
...
PMID:Ouabain-binding and phosphorylation of (Na+ + K+) ATPase treated with N-ethylmaleimide or oligomycin. 12 64
Two highly lead-sensitive ATPases, Na+,K+-
ATPase
and adenylate cyclase, can be demonstrated cytochemically by the lead precipitation technique in briefly prefixed tissue, provided that the free Pb2+ concentration in the incubation medium is kept below 0.1 mM by a heavy metal chelator. Under conditions suitable for Na+,K+-
ATPase
activity precipitation of final reaction product (lead phosphate) at the sarcolemma of cardiac muscle is abolished by 0.1-1mM ouabain. In contrast, reaction product deposition at the intramuscular part of the plasma membrane and at intracellular sites is not noticeably affected by the glycoside. These findings indicate either that the sarcolemma is the exclusive location of Na+,K+-
ATPase
in cardiac muscle or that the presence of the enzyme at other loci is masked by active Na+,K+-independent, ouabain resistant ATPases. Under conditions favoring adenylate cyclase activity, precipitation by Pb2+ of orthophosphate derived, with the help of added cyclic nucleotide phosphodiesterase and 5'-nucleotidase, from cyclic AMP formed from adenylyl imidodiphosphate (AMP-PNP) is seen after prolonged incubation in myocardial cells along the entire course of the plasma membrane and also at the transverse tubules and is particularly intense at the tight junction regions of the intercalated disks.
Ouabain
has no effect on these reactions. Reaction product deposition is also observed at the sarcolemma in red skeletal muscle and at the terminal cisternae of the sarcoplasmic reticulum in white skeletal muscle, where the reaction is intensified by adrenaline. Sarcoplasmic reticulum of cardiac and of red skeletal muscle exhibits only relatively weak staining attributable to cyclic AMP formation. These observations are in agreement with the results of tissue fractionation studies according to which the plasma membrane is the chief site of adenylate cyclase in heart and in red, but not white skeletal muscle.
...
PMID:Cytochemical studies on sarcolemma: Na+, K+-adenosine triphosphatase and adenylate cyclase. 13 Jun 56
Human erythrocyte membrane fragments were exposed to O3 over varying lengths of time. Ozone was found to have a deleterious effect on the ouabainsensitive
ATPase
(
EC 3.6.1.3
) in the membrane fragments. After 1 min of exposure to O3, which was generated at a rate of 4.0 mumol/min, ouabain-sensitive
ATPase
activity decreased to 26% of the control.
Ouabain
-insensitive
ATPase
was found to be unaffected by O3 exposure under the test conditions. Additions of ascorbic acid or cysteine, prior to O3 exposure, partially protected the enzyme from inactivation. However, the inactivating effect of O3 could not be reversed by addition of either ascorbic acid or cysteine after exposure. Superoxide dismutase or catalase did not afford significant protection. The enzyme could not be protected by Ellman's reagent. The inactivating effect of O3 on the ouabain-sensitive
ATPase
was also demonstrated in exposure of intact erythrocytes. No detectable change was observed in glycolytic activity in the hemolysate prepared from O3-treated erythrocytes, however. It was postulated that inactivation of the membrane
ATPase
by O3 may be responsible for the destructive effect of O3 on the red cell.
...
PMID:Effect of ozone on erythrocyte membrane adenosine triphosphatase. 13 Sep 35
Diploid human lymphoblastoid cells with altered response to ouabain inhibition of the (Na+ + K+)-dependent
ATPase
transport system, manifest both in whole cells and in purified plasma membrane vesicles, were selected for their resistance to 0.1 muM ouabain.
Ouabain
-resistant (OUA(R)) cells with normal growth at 50 times this dose were recovered at a frequency 1 X 10(-6). This frequency was increased 9-fold after exposure to ethyl methane sulphonate but was decreased by the frameshift mutagen ICR-191, under conditions where both increased the frequency of 8-azaguanine-resistant colonies. The ouabain resistance phenotype was stable after 200 population doublings in the absence of ouabain. OUA(R) clones show showed 30-50% of the wild type amount of 3H-ouabain bound per cell, with the same dissociation constant for ouabain, 0.1 muM at 0.5 mM K+, as observed in wild-type cells. Both the initial rate of uptake of 86Rb+ in OUA(R) cells and the (Na+ + K+)-dependent
ATPase
activity of OUA(R) plasma membranes showed decreased sensitivity to ouabain inhibition. However, growth and transport properties of OUA(R) cells in the absence of ouabain were unchanged compared with wild type cells.
...
PMID:Ouabain-resistant human lymphoblastoid lines altered in the (Na+ + K+)-dependent ATPase membrane transport system. 13 8
The specific binding and inhibitory action of (3H)ouabain were employed to localize transport Na,K-
ATPase
in the euryhaline teleost gill, a NaCl-transporting osmoregulatory tissue in which both enzyme activity and transepithelial transport vary with environmental salinity. In killifish fully adapted to 10%, 100%, or 200% seawater, the gills were internally perfused and externally irrigated in situ. After suitable internal or external exposure to (3H)ouabain, individual gill arches were excised for Na,K-
ATPase
assay, measurement of radiolabel binding, or quantitative high-resolution autoradiography. Internal exposure to 50 muM ouabain resulted in essentially complete enzyme inhibition, and binding paralleled the increases in enzyme activity at higher salinities; in contrast, external exposure gave minimal and erratic results consistent with leakage of external ouabain into interstitial fluid. (3H)
Ouabain
autoradiographs demonstrated that, irrespective of exposure or salinity, most of the gill binding was associated with chloride cell. These cells increased in size and number with salinity and, at the subcellular level, the distribution pattern for bound ouabain was always identical to that for the amplified basal-lateral (tubular system) membrane. The combined physiologicmorphologic results constitute final direct proof that chloride cells are the primary site of gill Na,K-
ATPase
. More important, they provide convincing evidence for unexpected increases in basal-lateral enzyme at higher salinities and thus raise a fundamental objection to the long-postulated role of the Na pump in secretory NaCl transport.
...
PMID:Teleost chloride cell. II. Autoradiographic localization of gill Na,K-ATPase in killifish Fundulus heteroclitus adapted to low and high salinity environments. 13 51
Stomach wall Mg2+-Na+-K+-dependent
ATPase
, ATP, and ADP were studied in rats, at 4, 7, 17, and 24 hr after pylorus ligation, in order to relate H+ secretion and ulcer development. It was observed, in both parts of forestomach and corpus + antrum, that the stomach wall Mg2+-Na+-K+-dependent
ATPase
significantly increased at 4 and 7 hr, while it significantly decreased at 24 hr, after pylorus ligation. Contrary to this, stomach-wall ATP decreased at 4 hr, relatively increased at 7 hr, thereafter significantly decreased in forestomach and corpus + antrum.
Ouabain
inhibited the H+ secretion, ulcer development, and stomach wall Mg2+-Na+-K+-dependent
ATPase
activity. The possible causal interrelationships between the examined parameters are studied.
...
PMID:Examination of stomach wall Mg2+-Na+-K+-dependent ATPase, ATP, and ADP in pylorus-ligated rats. 13 8
Ouabain
-sensitive K+ influx in mammalian erythrocytes exhibits far less temperature sensitivity than the ((Na+ & K+)
ATPase
prepared by hypotonic lysis from the same population of cells. The results are not in accord with lipid phase change as the critical mechanism of cold inhibition of intact pumps.
...
PMID:Temperature dependence of membrane function. Disparity between active potassium transport and (Na+ & K+)ATPase activity. 13 28
Na/K-
ATPase
sites in both the secretory and reabsorptive epithelia of isolated and microperfused human eccrine sweat glands are localized cytologically. Localization was accomplished through autoradiography of bound 3H-ouabain, a specific inhibitor of the enzyme.
Ouabain
binding characteristics were determined to ensure maximum specific binding. Enzyme sites are localized only on the basolateral surface of both epithelia in spite of the fact that sodium transport is reversed, i.e., secretory: blood to lumen and reabsorptive: lumen to blood. In view of these findings and in comparison with other recent observations, the role of Na/K-
ATPase
in secretory electrolyte transport is questioned.
...
PMID:Localization of Na/K-ATPase sites in the secretory and reabsorptive epithelia of perfused eccrine sweat glands: a question to the role of the enzyme in secretion. 13 17
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