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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 effect of various metals and regucalcin, a calcium-binding protein isolated from rat liver cytosol, on (Ca(2+)-Mg2+)-ATPase activity in the plasma membranes of rat liver was investigated. Of various metals (Zn2+, Cu2+, Ni2+, Mn2+, Co2+ and Al3+; 100 microM as a final concentration), Mn2+ and Co2+ increased markedly (Ca(2+)-Mg2+)-ATPase activity, while other metals had no effect. When Ca2+ was not added into enzyme reaction mixture, Mn2+ and Co2+ (25-100 microM) did not significantly increase the enzyme activity, indicating that heavy metals act on Ca(2+)-stimulated phosphorylation of the enzyme. Meanwhile, regucalcin (0.25-1.0 microM) caused a remarkable elevation of (Ca(2+)-Mg2+)-ATPase activity. This increase was not inhibited by the presence of 100 microM vanadate, although the effects of Mn2+ and Co2+ (100 microM) were inhibited by vanadate. Also, the inhibition of the Mn2+ and Co2+ effects by vanadate was not seen in the presence of regucalcin. Moreover, regucalcin (0.5 microM) increased significantly the enzyme activity in the absence of Ca2+. This effect of regulcalcin was not altered by increasing concentrations of Ca2+ added, indicating that the regucalcin effect does not depend on Ca2+. The present results suggest that regucalcin activates directly (Ca(2+)-Mg2+)-ATPase in liver plasma membranes, and that the activation is not involved in the Ca(2+)-dependent phosphorylation of the enzyme.
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PMID:Regulatory effect of regucalcin on (Ca(2+)-Mg2+)-ATPase in rat liver plasma membranes: comparison with the activation by Mn2+ and Co2+. 823 87

Primary cultures of rabbit cortical collecting duct (CCD) cells demonstrated accumulation of Ca at the basolateral (BL) side when cultured on either impermeable or permeable supports. Cell monolayers cultured on impermeable plastic surfaces absorbed Ca with such avidity that hydroxyapatite crystals formed. When cultured on a permeable difference. A steady-state BL/A [Ca] ratio of 120 developed across monolayers in 24 h on days 6 through 8 postseeding. Initial rates of unidirectional 45Ca fluxes on days 6 through 8 indicated a negligible BL to A flux (5.4 +/- 2.6 nmol.h-1 x cm-2) compared with A to BL 45Ca flux (99.4 +/- 19.4 nmol.h-1 x cm-2). Parathyroid hormone applied to the BL side had no significant effect on either unidirectional 45Ca flux, but the second messenger analog, 8-bromoadenosine cyclic monophosphate, increased the A to BL flux by 65%. Inhibiting the Na(+)-K+ ATPase with ouabain (10(-4) M) reduced the A to BL flux by 77%; however, a significant net A to BL flux still remained. Apical addition of amiloride (2 x 10(-5) M) did not affect either unidirectional 45Ca flux. In addition, the inorganic Ca channel blockers Ni2+ (100 microM and 1 mM), La3+ (100 microM and 1 mM), and Cd2+ (20 and 50 microM) did not significantly inhibit either unidirectional 45Ca flux. These results demonstrate that CCD monolayers actively absorb Ca and this can be stimulated by cyclic AMP, raising the possibility that apical Ca entry does not involve amiloride-sensitive channels, or typical Ca channels.
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PMID:Active calcium absorption in primary cultures of cortical collecting duct cells. 824 83

The sarcoplasmic reticulum (SR) membranes of rabbit skeletal muscle were allowed to react with N-(3-pyrene)maleimide (PMI) at pH 7 at 30 degrees C. The Ca(2+)-transporting activity of the SR membranes was reduced to 20% when PMI was bound to the extent of 1 mol/mol of Ca(2+)-transporting ATPase. The ATPase and the E-P forming activities were not affected by the binding of PMI up to 2 mol/mol ATPase, indicating that PMI somehow uncoupled Ca(2+)-transport from ATP splitting. Permeability of the SR membranes to Ca2+ ions was increased in parallel with the loss of the Ca(2+)-transporting activity. Of several components of the SR membranes which are reactive with PMI, the ATPase protein was the only one whose modification by PMI was directly related to the loss of the Ca(2+)-transporting activity. Similar results were obtained with the light SR membrane fraction, which lacks the ryanodine receptor, a well-recognized Ca2+ channel. These results indicated that a Ca2+ channel that would have been latent or properly regulated in native ATPase somehow escaped from the normal control mechanism as a result of modification of its SH groups by PMI and went into runaway operation. The activated channel was specific for alkaline earth metal ions, so permeability to other solutes including Co2+, Ni2+, and sucrose remained unchanged after treatment with PMI.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Uncoupling of ATP splitting from Ca(2+)-transport in Ca(2+)-transporting ATPase of the sarcoplasmic reticulum as a result of modification by N-(3-pyrene)maleimide: activation of a channel with a specificity for alkaline earth metal ions. 826

1. The interaction of Ca2+ transport in the plasmalemma and the sarcoplasmic reticulum (SR) was investigated in smooth muscle of the rabbit inferior vena cava. We tested the possibility of direct refilling of the SR with extracellular Ca2+ and of the existence of a vectorial Ca2+ extrusion pathway from the SR lumen to the extracellular space suggested by earlier results. 2. After depletion with caffeine the SR was loaded with Ca2+ to increasing levels by incubation in a high potassium 1.5 mM Ca2+ solution and a 10 mM Ca2+ zero Na+ solution, respectively. Thapsigargin, 2 microM, (a specific SR Ca(2+)-ATPase blocker) completely blocked refilling of the SR in either of the above solutions, indicating that the SR Ca(2+)-ATPase is essential for this process. 3. Three different agents, caffeine, ryanodine and thapsigargin, which inhibit Ca2+ accumulation by the SR, increased the steady state intracellular Ca2+ concentration in the rabbit inferior vena cava. 4. Measurements of Mn2+ induced quenching of the intracellular fura-2 signal during pharmacological manipulation of the SR content showed that these three agents did not stimulate divalent cation entry. 5. On the other hand, stimulation with noradrenaline caused a marked increase in Mn2+ influx, which was blocked by 2 mM Ni2+. Mn2+ entry stimulated by high K+ solution was blocked by 1 microM diltiazem. 6. We conclude that the SR refilling has to be mediated by the SR Ca(2+)-ATPase. Inhibition of Ca2+ accumulation by the SR causes an increase in the steady state intracellular Ca2+ concentration. This observation cannot be explained by an increase in Ca2+ influx into the smooth muscle cells of the rabbit inferior vena cava. Alternatively these results suggest the existence of a continuous vectorial release of Ca2+ from the SR lumen to the extracellular space.
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PMID:The superficial buffer barrier in venous smooth muscle: sarcoplasmic reticulum refilling and unloading. 835 39

In the present investigation, intracellular sodium ([Na+]i) levels were determined in GH4C1 cells using the fluorescent probe SBFI. Fluorescence was determined by excitation at 340 nm and 385 nm, and emission was measured at 500 nm. Intracellular free sodium ([Na+]i) was determined by comparing the ratio 340/385 to a calibration curve. The ratio was linear between 10 and 60 mM Na+. Resting [Na+]i in GH4C1 cells was 26 +/- 6.2 mM (mean +/- SD). In cells incubated in Na(+)-free buffer [Na+]i decreased to 3 +/- 3.6 mM. If Na+/K+ ATPase was inhibited by incubating the cells with 1 mM ouabain, [Na+]i increased to 47 +/- 12.8 mM in 15 min. Stimulating the cells with TRH, phorbol myristyl acetate, or thapsigargin had no effect on [Na+]i. Incubating the cells in Ca(2+)-free buffer rapidly increased [Na+]i. The increase was not inhibited by tetrodotoxin. Addition of extracellular Ca2+, nimodipine, or Ni2+ to these cells immediately decreased [Na+]i, whereas Bay K 8644 enhanced the influx of Na+. In cells where [Na+]i was increased the TRH-induced increase in intracellular free calcium ([Ca2+]i) was decreased compared with control cells. Our results suggest that Na+ enters the cells via Ca2+ channels, and [Na+]i may attenuate TRH-induced changes in [Ca2+]i in GH4C1 cells.
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PMID:Intracellular free sodium concentrations in GH4C1 cells. 838 12

Stimulated influx of Ca2+ across the plasma membrane of T lymphocytes is an essential triggering signal for T-cell activation by antigen. Regulation of the T-cell Ca2+ conductance is not understood; conflicting evidence supports direct activation by inositol 1,4,5-trisphosphate (IP3) or by a signal generated by the depletion of intracellular Ca2+ stores. We have used the perforated-patch recording technique to compare the biophysical properties of Ca2+ currents activated by T-cell receptor stimulation and by thapsigargin, a Ca(2+)-ATPase inhibitor that depletes intracellular stores without generating IP3. Both currents are blocked by Ni2+, are inwardly rectifying, are highly Ca(2+)-selective, and exhibit voltage-independent gating with a unitary chord conductance of approximately 24 fS in isotonic Ca2+. Fluctuation analysis suggests that the underlying Ca2+ transporter is a channel rather than an iron carrier. Thus, in terms of ion permeation, gating, and unitary conductance, the Ca2+ current activated by thapsigargin is indistinguishable from the elicited by crosslinking of T-cell receptors. Moreover, the unitary Ca2+ conductance is > 100-fold smaller than that of previously described IP3-gated, Ca(2+)-permeable channels in T cells [Kuno, M. & Gardner, P. (1987) Nature (London) 326, 301-304]. These results demonstrate that mitogen-activated Ca2+ influx is controlled by the state of intracellular Ca2+ stores rather than by the direct action of IP3 on Ca2+ channels in the plasma membrane.
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PMID:Mitogen-regulated Ca2+ current of T lymphocytes is activated by depletion of intracellular Ca2+ stores. 839 95

Helicobacter pylori urease belongs to a family of highly conserved urea-hydrolyzing enzymes. A common feature of these enzymes is the presence of two Lewis acid nickel ions and a reactive cysteine residue in the active site. The H+/K(+)-ATPase inhibitor omeprazole is a prodrug of a sulfenamide which covalently modifies cysteine residues on the luminal side of the H+/K(+)-ATPase of gastric parietal cells. Omeprazole and eight analogues were selected based on their chemical, electronic, and kinetic properties, and each was incubated with viable H. pylori in phosphate-buffered saline at pH 7.4 for 30 min, after which 100 mM urea was added and the amount of ammonia formed analyzed after a further 10 min. Inhibition between 0% and 100% at a 0.1 mM concentration was observed for the different analogues and could be expressed as a function of the pKa-value of the pyridine, the pKa-value of the benzimidazole, the overall lipophilicity, and, most importantly, the rate of sulfenamide formation, in a quantitative structure-activity relationship. The inhibition was potentiated by a lower pH (favoring the formation of the sulfenamide) but abolished in the presence of beta-mercaptoethanol (a scavenger of the sulfenamide). Structural analogues incapable of yielding the sulfenamide did not inhibit ammonia production. Treatment of Helicobacter felis-infected mice with 230 mumol/kg flurofamide b.i.d. for 4 weeks, known to potently inhibit urease activity in vivo, as a means of eradicating the infection, was tested and compared with the effect of 125 mumol/kg omeprazole b.i.d. for 4 weeks. Neither treatment proved efficacious.
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PMID:Structure-activity relationship of omeprazole and analogues as Helicobacter pylori urease inhibitors. 852 4

The kinetic properties of Mg(2+)-ATPase (EC 3.6.1.3) from myometrium cell plasma membranes have been studied. Under conditions of enzyme saturation with ATP (0.5-1.0 mM) or Mg2+ (1.0-5.0 mM) the initial maximal rates of the Mg(2+)-dependent enzymatic ATP hydrolysis, V0 ATP and V0 Mg, are 27.4 +/- 3.3 and 25.2 +/- 4.1 mumol Pi/hour/mg of protein, respectively. The apparent Michaelis constant, Km, for ATP and of the apparent activation constant, K alpha, for Mg2+ are equal to 28.1 +/- 2.6 and 107.0 +/- 26.0 microM, respectively. The bivalent metal ions used at 1.0 mM suppress the Mg(2+)-dependent hydrolysis of ATP whose efficiency decreases in the following order: Cu2+ > Zn2+ = Ni2+ > Mn2+ > Ca2+ > Co2+. Alkalinization of the incubation medium from pH 6.0 to pH 8.0 stimulates the Mg(2+)-dependent hydrolysis of ATP. It has been found that Mg(2+)-ATPase has the properties of an H(+)-sensitive enzymatic sensor which is characterized by a linear dependence between the initial maximal rate of the reaction, V0, and the pH value. The feasible role of plasma membrane Mg(2+)-ATPase in some reactions responsible for the control of proton and Ca2+ homeostasis in myometrium cells has been investigated.
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PMID:[Kinetic uniformity of the ATP hydrolysis reaction catalyzed by Mg2+-ATPase in smooth muscle cell membrane]. 856 53

The plasma membrane H+-ATPase of corn-root is activated by free Mg2+ at pH 6.0 (Ks = 2.9 mM) but not at pH 7.0. As a result, the pH dependence of the enzyme varies depending on the Mg2+ concentration of the medium. The activation by Mg2+ is promoted by an increase in Vmax with no effect on the apparent Km for Mg.ATP. Different from Mg2+, free Mn2+, Co2+, and Ni2+ do not activate at pH 6.0 and inhibit the H+-ATPase at pH 7.0. The effects of divalent cations on the corn ATPase observed in this report are different from those previously described for the yeast enzyme (Brooker, R.J. and Slayman, C.W. (1983) J. Biol. Chem. 258, 8833-8838), suggesting different mechanisms of regulation for the isoforms of yeast and corn H+-ATPase.
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PMID:Regulation of plasma membrane H+-ATPase from corn-root by Mg2+ and pH. 860 89

Myosin belongs to the family of motor proteins. Its interaction with actin coupled with hydrolysis of ATP is the molecular basis of muscle contraction. The head segment of myosin, called subfragment 1 (S1), contains the distinct binding sites for ATP and actin and responsible for the ATPase activity. The rate-limiting step of the ATP hydrolysis is the dissociation of the S1-MgADP-Pi complex which is accelerated by actin. The substitution of Pi with phosphate analogs (PA), such as vanadate (Vi) or beryllium fluoride (BeF(x)), highly stabilizes the complex. We studied the role of the divalent cations in the ATPase activity and in the formation and decomposition of PA-containing stable complexes by substituting Mg2+ with Fe2+, Mn2+, Ni2+, Co2+, and Ca2+. These metal ions supported the actin activation of S1 ATPase and affected the obtained kinetic parameters, Km and V(max). The ATPase activity of S1 in the absence of actin increased with the increasing ionic radius of the metal (Me) ions. These ions also substituted for Mg2+ in the formation of the stable ternary S1-MeADP-PA complexes, which cannot be generated in the absence of divalent cations. Upon formation of stable ternary complexes, S1 reversibly loses its ability to catalyze the hydrolysis of ATP. The formation of the complexes can be followed by monitoring the disappearance of the ATPase activity. The rate of the complex formation depends on the divalent cation present and decreases in the order Mn > Fe > Ni > Co > Mg and Ca > Mn > Fe > Mg > Co in the Vi- and BeF(x)-containing complexes, respectively. The ATPase activity of S1 is recovered upon addition of actin, which causes the decomposition of the complex. The spontaneous decomposition of the complexes was studied in the presence of ethylenediaminetetraacetic acid (EDTA), which chelates the metal divalent cations released from the complex and prevents its reformation. The rate of decomposition was assessed by monitoring the recovery of the ATPase activity of S1 in the presence of EDTA. The rate of decomposition of the Vi- and BeF(x)-containing complexes follows the order Mn > Fe > Co > Mg > Ni and Ca >> Mn > Fe > Co > Mg, respectively. The rate of decomposition increases with the increasing ionic radius of the metal ions, similarly as observed in the case of ionic radius dependence of the ATPase activity. On the basis of this similarity, it is assumed that the decomposition of the complexes consists of two steps, the first step being the very slow release of PA followed by a rapid dissociation of MeADP from S1. The stability of the complexes has been calculated from the formation and decomposition rates. Except in the case of Mg, the stabilities of the BeF(x) complexes are higher than those containing Vi. The results indicate that the metal cations have a significant role in maintaining the proper structure of the transient state complex in the myosin-catalyzed ATP hydrolysis.
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PMID:Effect of divalent cations on the formation and stability of myosin subfragment 1-ADP-phosphate analog complexes. 860 90


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