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)

A plasma membrane Ca(2+)-pump ATPase preparation purified from porcine aorta was incubated with cGMP-dependent protein kinase (G-kinase) under the conditions under which dose-dependent stimulation of the enzyme by G-kinase was observed. Several proteins were phosphorylated, but two isoforms of plasma membrane Ca(2+)-pump ATPase with molecular masses of 135- and 145-kDa were not phosphorylated. The protein that was phosphorylated by G-kinase and identified in our previous study as the 135-kDa isoform of Ca(2+)-pump ATPase, on the basis of its almost identical mobility on SDS-PAGE, was found to be another protein with a molecular mass of 138 kDa. Fractionation of the enzyme preparation after incubation with G-kinase by a newly developed calmodulin affinity chromatographic method resulted in the separation of all the G-kinase substrates from the two isoforms of plasma membrane Ca(2+)-pump ATPase. These results suggest that the direct phosphorylation of the Ca(2+)-pump ATPase does not occur in association with the stimulation of the plasma membrane Ca(2+)-pump ATPase by G-kinase.
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PMID:Plasma membrane Ca(2+)-pump ATPase is not a substrate for cGMP-dependent protein kinase. 132 92

The regulation of the guinea-pig pancreatic acinar plasma membrane Ca2+ pump by protein kinase A, protein kinase C and calmodulin was investigated. The results were compared with the effects of these regulators on the high affinity Ca(2+)-ATPase found in this membrane preparation. The catalytic subunit of cyclic AMP-dependent protein kinase stimulated Ca2+ transport 2-fold, but had no effect on Ca(2+)-dependent ATPase activity. Purified protein kinase C, the phorbol ester 12-O-tetradecanoyl phorbol-13-acetate and diacylglycerol derivative, 1-stearoyl-2-arachidonoyl-sn-glycerol, failed to stimulate the Ca(2+)-uptake but augmented the Ca(2+)-dependent ATPase activity. Exogenously added calmodulin failed to stimulate either activity. In addition, two antagonists of calmodulin activity, trifluoperazine and compound 48/80 produced a concentration-dependent inhibition of Ca(2+)-transport. These data suggest the presence of endogenous calmodulin within guinea-pig pancreatic acinar plasma membranes. Both calmodulin antagonists failed to influence the Ca(2+)-dependent ATPase activity. The ability of boiled extracts from guinea-pig pancreatic acinar plasma membranes to stimulate the Ca(2+)-ATPase activity in calmodulin-depleted erythrocyte plasma membranes confirmed the presence of endogenous calmodulin. Our results imply a role for calmodulin and cAMP-dependent protein kinase, but not protein kinase C, in the regulation of Ca2+ efflux from pancreatic acinar cells. These results also provide further evidence suggesting that the high affinity Ca(2+)-ATPase does not catalyze the plasma membrane Ca(2+)-transport activity observed in pancreatic acini.
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PMID:Regulation of calcium transport in pancreatic acinar plasma membranes from guinea pig. 132 90

An ATP-dependent Ca2+ uptake system from rat renal cortical basolateral membranes was solubilized with Triton X-100 and reconstituted into liposomes with lecithin. In the presence of Mg2+, Ca2+ uptake in the reconstituted vesicles was time and ATP dependent and was inhibited by vanadate. Ca2+ uptake in basolateral membrane vesicles depleted of endogenous calmodulin was enhanced by exogenous calmodulin and depressed by R-24571. This sensitivity to calmodulin and R-24571 was lost upon reconstitution in the presence and absence of leupeptin. Vesicles containing Ca2+ uptake activity were separated by gradient centrifugation after Ca2+ was taken up and accumulated as calcium phosphate in the vesicles. This resulted in Ca2+ uptake activity that was enriched 25 times. However, Ca(2+)-dependent adenosinetriphosphatase (ATPase) activity was not enriched significantly. This Ca(2+)-ATPase had two kinetic forms for Ca2+: one was a high-affinity low-capacity form; the other had a low affinity and high capacity. The Ca(2+)-ATPase activity also had two kinetic forms for ATP. All kinetic forms were inhibited by Mg2+. Vanadate, calmodulin, and R-24571 had no effects on Ca(2+)-ATPase activity. A protein doublet of Ca(2+)-dependent hydroxylamine-sensitive phosphorylated intermediates was demonstrated at 125 and 136 kDa in the purified vesicles. This doublet was not altered by addition of leupeptin throughout the purification.
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PMID:Reconstitution and partial purification of calcium transport activity from rat kidney cortex. 132 4

The action of two antiarrhytmic drugs, moracizine (MOR, CAS 31883-05-3) and ethacizine (ETHA, CAS 33414-33-4) on receptors of potential-operated CA-channels has been investigated. ETHA binding to verapamil receptors was more effective than that of MOR (IC50 = 0.53 +/- 0.08 mumol/l, respectively). The Hill coefficient for ETHA binding was similar to that of verapamil (0.64 +/- 0.09 and 0.60 +/- 0.10, respectively). Interaction of ETHA and MOR with dihydropyridine receptors in concentrations up to 10 mumol/l was similar that of verapamil, however, MOR was less potent. MOR and ETHA did not interact with calmodulin and troponin C at concentrations up to 100 mumol/l. The influence of MOR and ETHA on enzymes dependent on Ca-binding proteins (phosphodiesterase and actomyosin ATPase) was not observed up to 100 mumol/l. Comparison of clinical and electrophysiological data with these results allows the conclusion that ETHA exerts Ca-blocking effects by the interaction with verapamil receptors on potential-operated Ca-channels.
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PMID:Effect of moracizine and ethacizine on receptors of potential-operated calcium channels and calcium-binding proteins. 132 68

1. Two distinct patterns of Ca(2+)-mediated activation of Ca(2+)-ATPase were identified in calmodulin-depleted membranes. 2. In membranes showing no activation (type A), preincubation with micromolar concentration of cyclic AMP and ATP made possible stimulation of the enzyme while in membranes already exhibiting activation (type B), preincubation with cyclic AMP and ATP abolished the activation. 3. ATPase stimulation in type A membranes was suppressible by leupeptin. 4. Triton extractable inhibitor isolated from type A membranes was as active as that derived from type B membranes only after preincubating the membranes with cyclic AMP and ATP. 5. The inhibitor could be inactivated by alkaline phosphatase.
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PMID:Variations in Ca(2+)-mediated activation of Ca(2+)-ATPase and its associated inhibitor in erythrocyte membrane. 132 91

The initial studies on the plasma membrane (PM) Ca(2+)-transport ATPases were made in the erythrocyte, a structure that can not be taken as representing a typical eukaryotic cell. In other cell types however, the study of the PM Ca(2+)-transport ATPase is complicated by the simultaneous expression of related Ca(2+)-pumps in intracellular stores. Whereas there are as yet no known specific inhibitors for the PM Ca(2+)-transport ATPase, a number of selective inhibitors for the endo(sarco)plasmic reticulum Ca2+ pumps have been described: thapsigargin, cyclopiazonic acid and 2,5-di-(tert-butyl)-1,4-benzohydroquinone. With the recent introduction of the molecular biological approach, it became quickly obvious that a family of at least 5 different PM Ca(2+)-transport ATPase genes govern the tissue-dependent expression of PM Ca2+ pumps. Moreover alternative splicing of the primary gene transcripts was found to further enhance the number of pump variants. The PM Ca(2+)-transport ATPase are subject to modulatory control by calmodulin, by acidic phospholipids, and by the known families of protein kinases. Each of the ensuing effects are mutually related and interdependent. The wide variety PM Ca2+ pump isoforms and their regulation by such an intricate modulatory network allows the distinct tissues to adapt most adequately to the prevailing tissue and stimulus specific requirements.
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PMID:The Ca(2+)-transport ATPases from the plasma membrane. 132 77

Isoform 4b of the human plasma membrane Ca2+ pump was expressed in COS cells and in the baculovirus system (Sf9 cells). A 105-kDa pump fragment lacking the first two transmembrane domains and the so-called transduction domain was also expressed. The expression level was 2-4 times the background in COS cells and at least 7 times in the baculovirus system. Tests on membranes from both systems showed that the expressed pump was active. The expressed pump and the 105-kDa fragment were isolated from Sf9 cell membranes by calmodulin affinity chromatography. The pump had Ca(2+)-dependent ATPase activity with a calmodulin stimulation factor of 3, formed a La(3+)-stabilized phosphoenzyme, and had a KM (Ca2+) in the presence of calmodulin of about 1 microM. The 105-kDa fragment, assayed by the phosphoenzyme test on COS or Sf9 cell membranes or by ATPase measurements after isolation from Sf9 cells, proved inactive. Laser confocal microscopy on Sf9 cells showed that both the pump and the 105-kDa fragment were apparently associated with the plasma membrane. The expressed pump in COS and Sf9 cells and the endogenous pump in a number of other cell lines had a slower gel mobility (i.e. a higher apparent molecular mass) than the erythrocyte pump.
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PMID:Expression, purification, and properties of the plasma membrane Ca2+ pump and of its N-terminally truncated 105-kDa fragment. 133 59

The effects of purified protein kinase C (PKC) on the Ca(2+)-pumping ATPase of cardiac sarcolemma were investigated. The addition of PKC to sarcolemmal vesicles resulted in a significant increase in ATP-dependent Ca2+ uptake, by increasing the calcium affinity by 2.8-fold (Km 0.14 vs. 0.4 microM for control) and by increasing Vmax from 5 to 6.8 nmol.mg protein-1.min-1. The addition of PKC also stimulated Ca2+ ATPase activity in sarcolemmal preparations. This activity was increased further upon the addition of calmodulin. These results suggest that PKC stimulates Ca2+ ATPase through a kinase-directed phosphorylation. The addition of PKC to a purified preparation of Ca2+ ATPase in the presence of [gamma-32P]ATP resulted in a 100% increase in phosphorylation that was dependent on the presence of Ca2+, phosphatidylserine, and phorbol 12,13-dibutyrate. These results demonstrate that the Ca2+ ATPase of canine cardiac muscle can be phosphorylated by PKC in vitro, resulting in increased affinity of the Ca2+ ATPase for Ca2+ and increase in the Ca2+ pump pumping rate. The results suggest that the Ca(2+)-pumping ATPase in heart tissue can be stimulated by PKC, thereby regulating the intracellular Ca2+ levels in whole heart.
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PMID:Protein kinase C mediated activation and phosphorylation of Ca(2+)-pump in cardiac sarcolemma. 133 8

This study evaluated the effect of chronic hyperglycemia on erythrocyte membrane Ca and Na/K-ATPase activities in streptozotocin-induced diabetic rats. The activity of Ca-ATPase was significantly lower in diabetic than in normal rats. Good glycemic control by insulin restored the Ca-ATPase activity to normal. By contrast, diltiazem, a calcium entry blocker, had no effect on the enzyme activity. Calmodulin stimulated Ca-ATPase activity in all groups of rats. Na/K-ATPase activity was not altered in diabetic rats, and no effects of either insulin or diltiazem treatments were observed. The results suggest that erythrocyte Ca-ATPase activity is decreased in diabetic rats and is normalized by good glycemic control.
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PMID:Erythrocyte Ca, Na/K-ATPase in long-term streptozotocin diabetic rats. Effect of good glycemic control and a Ca antagonist. 133 57

Nifedipine, a 1,4-dihydropyridine Ca(2+)-channel blocker inhibits calmodulin-stimulated activity of erythrocyte plasma membrane (Ca(2+) + Mg2+)-ATPase. Its inhibition of the basal activity of the enzyme increases on pre-incubation with membranes. The maximum velocity, affinity for ATP and Ca(2+)-sensitivity of pump are reduced by micromolar amounts of the antihypertensive drug. These results suggest that 1,4-dihydropyridines may interact with calcium-binding proteins and calcium-dependent enzymes at their calcium-binding sites.
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PMID:Calmodulin antagonism and inhibition of erythrocyte plasma membrane Ca(2+)-pump by nifedipine, a calcium channel blocker. 133 60

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