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)

Magnesium-dependent ATPase (MgATPase) activity is associated with many E1-E2 or P-type transport ATPases including the sarcoplasmic reticulum (SR) calcium ATPase. The SR isolated from rat heart has a MgATPase activity which is 6-12 times faster than the MgATPase activity of the SR isolated from dog heart. To determine the origin of the high MgATPase activity of rat heart SR, we compared and contrasted cardiac SR isolated from both species. The preparations were similar in the following ways: (i) contamination by other organelles; (ii) the comigration of MgATPase activity with calcium-dependent ATPase (CaATPase) activity through a sucrose gradient; (iii) a similar ATPase activity sensitivity to pH and ATP concentration; (iv) the high and similar of sensitivity of ATPase activity to detergent; and (v) a similar protein profile. In both preparations, a single protein in the 105,000-Da region of polyacrylamide gels was phosphorylated by ATP, and the phosphorylated species was an acylphosphate formed in the presence and absence of calcium. Dimethyl sulfoxide, which slows acylphosphoenzyme breakdown, markedly inhibited both CaATPase and MgATPase activities of both preparations but not other enzyme activities. Importantly, the specific inhibitor of the SR calcium pump, thapsigargin, completely inhibited the CaATPase activity with an I50 of 6-7 nM; however, a higher concentration (I50 of 2 microM) was required to inhibit the MgATPase activity of the rat cardiac SR. These results provide evidence that the MgATPase activity of rat cardiac SR is part of the enzyme cycle of the calcium ATPase protein.
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PMID:The MgATPase activity of rat cardiac sarcoplasmic reticulum is a function of the calcium ATPase protein. 144 68

The sarcoplasmic reticulum (SR) Ca(2+)-ATPase is a member of the 'P-type' class of cation transport ATPases which form a covalent phosphorylated intermediate. It has been proposed that during ion transport, these proteins cyclically adopt two major enzymatic states E1 and E2, that are related to two essential conformations of the protein. By the use of especially sensitive circular dichroism (CD) instrumentation it is shown here that Ca2+ addition induces 5% or 2.5% increases in Ca(2+)-ATPase ellipticity at 225 nm in the absence or in the presence of Mg2+, respectively. Furthermore, a 2% change in the same direction was observed when the enzyme was phosphorylated with Pi in the absence of Ca2+. These results suggest that the E1----E2 transition and the E2-P formation are associated with structural changes of the polypeptide backbone structure of the calcium pump protein.
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PMID:Ellipticity changes of the sarcoplasmic reticulum Ca(2+)-ATPase induced by cation binding and phosphorylation. 153 Sep 22

We investigated the effect of the local anesthetic procaine on the activity of the calcium pump protein of sarcoplasmic reticulum (SR) vesicles. Procaine slowed down the rate of calcium uptake by SR vesicles without enhancing the vesicles' passive permeability. This slowing of the unidirectional pumping rate was reflected by the inhibition of the maximal rate of the transport-coupled Ca(2+)-ATPase activity. The inhibition was dependent on Mg2+ concentration; at optimal (i.e. low) concentrations of magnesium, half-maximal inhibition occurred with procaine concentrations close to 15-20 mM. Inhibition of ATPase was not mediated by a change in the properties of the bulk lipid phase. Procaine moderately reduced the true affinity of ATPase for ATP, whereas equilibrium binding of calcium to ATPase in the absence of ATP was virtually not modified by procaine. In fast-kinetics studies, we explored the various intermediate steps in the ATPase catalytic cycle, in order to determine which of them were targets for inhibition by procaine. We found that procaine slowed down ATPase dephosphorylation, an effect which is at least partly responsible for the observed inhibition of overall ATPase activity. In contrast, procaine accelerated the calcium-induced transconformation of unphosphorylated ATPase in the absence of ATP, and altered neither the rate of the Ca(2+)-dependent phosphorylation of ATPase, nor the rate of the dissociation of Ca2+ from phosphorylated ATPase towards the SR lumen, a critical step, the rate of which was measured by a novel fast-filtration method. These results are discussed with respect to the possible site(s) of binding of this amphiphile on the ATPase, and in relation to the contribution of individual steps in the catalytic cycle to the rate limitation of unperturbed SR ATPase activity.
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PMID:Kinetic characterization of the normal and procaine-perturbed reaction cycles of the sarcoplasmic reticulum calcium pump. 166 34

Disruption of calcium homeostasis, leading to a sustained increase in cytosolic calcium level, has been associated with cytotoxicity in response to a variety of agents in different cell types. We have observed that a single high dose or multiple lower doses of ochratoxin A administered to rats resulted in an increase in renal endoplasmic reticulum calcium pump activity. The increase was very rapid, being evident within 10 min of ochratoxin A administration and remained elevated for at least 6 h thereafter. Ochratoxin A also decreased renal mitochondrial state-3 respiration and calcium uptake. The latter may lead to an increase in cytosolic calcium level, and the increase in microsomal calcium uptake activity may be an attempt to restore calcium homeostasis. Repeated moderate doses of ochratoxin A led to an eventual decrease in microsomal calcium pump activity, and this could lead to even higher cytosolic calcium levels. Changes in the rate of microsomal calcium uptake correlated with changes in the steady-state levels of the phosphorylated Mg2+/Ca(2+)-ATPase intermediate, indicating that this enzyme is responsible for the calcium pump activity.
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PMID:Alterations in calcium homeostasis as a possible cause of ochratoxin A nephrotoxicity. 166 70

The effects of somatostatin-14 and its biologically active analogs, RC-160 and SMS 201-995, on (Ca,Mg)ATPase activity in vitro were studied in homogenates of anterior pituitary cells. It was found that somatostatin inhibited the (Ca,Mg)ATPase activity in the anterior pituitary and somatostatin analogs exerted slight biphasic effects on the calcium pump activity. The effects of specific brain (Ca,Mg)ATPase inhibitors, VOSO4 and LaCl3, were also studied in vitro. Neither VOSO4 nor LaCl3 enhance the inhibition of calcium pump activity caused by somatostatin. It is suggested that somatostatin may mediate its action in pituitary cells, among others, by the regulation of (Ca,Mg)ATPase activity.
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PMID:Effects of somatostatin-14 and its analogs on the (Ca,Mg)ATPase in the rat anterior pituitary. 167 1

Previous studies from our laboratory have indicated that chlordecone (Kepone CD), an organochlorine insecticide, inhibited cardiac sodium pump activity and catecholamine uptake suggesting that CD may interfere with cardiac function. Sarcoplasmic reticulum (SR) calcium pump has an important role in myocardial contraction and relaxation, besides Na+ transport. Since CD interferes with cardiac Na+ ion translocases, we have studied CD effects on cardiac SR calcium pump activity. Experiments were carried out both in vitro and in vivo. SR was isolated from heart ventricles of male Sprague-Dawley rats. Cardiac SR Ca2(+)-ATPase. 45Ca-uptake and cAMP as well as calmodulin (CaM) dependent protein phosphorylation were measured. Ca2(+)-ATPase was differentiated into low affinity and high affinity forms by measuring the activity using 50 and 0.7 microM free Ca2(+)-respectively. CD in vitro inhibited 45Ca-uptake by SR in a concentration dependent manner with an IC50 value of 7 microM and SR 45Ca-uptake was totally inhibited at 20-30 microM CD. In agreement with this, both high affinity and low affinity Ca2(+)-ATPases, which are involved in Ca2+ transport across membranes, were also inhibited by CD in a concentration dependent manner with IC50 values of 0.7 and 3.2 microM respectively. Both Ca2(+)-ATPase and 45Ca-uptake by cardiac SR were significantly lower in rats treated with CD (25, 50 or 75 mg/kg) when compared to control rats. cAMP as well as CaM significantly elevated the 32P-binding to SR proteins in vitro to about 70-80%. In the presence of CD, this 32P-binding was reduced, however, not concentration dependent.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Effect of chlordecone (Kepone) on calcium transport mechanisms in rat heart sarcoplasmic reticulum. 170 52

Plasma membrane fractions from normal, regenerating liver and the AS-30D ascites hepatocarcinoma exhibited a high degree of enrichment when a set of plasma membrane enzyme markers were studied in comparison to the ones associated to the mitochondrial and cytosolic compartments. While the (Ca2+, Mg2+)-ATPase observed for the plasma membrane fraction isolated from normal liver showed an activity of 1.2 mumoles/mg/min, the regenerating liver and the AS-30D plasma membrane fractions presented a much lower ATPase activity (0.3 and 0.22 mumoles/mg/min respectively). Despite the differences in ATPase activity observed between models, the plasma membrane fraction from the AS-30D hepatocarcinoma presented a calcium transport activity similar to the value observed for the normal system (5.9 and 5.5 nmoles Ca2+/mg/10 min, respectively). Interestingly, the ATP in equilibrium with Pi exchange experiments carried out with the different plasma membrane fractions revealed that the (Ca2+, Mg2+)-ATPase contained in the plasma membrane from the AS-30D cells shows an exchange activity of 26 nmoles ATP in equilibrium with Pi/mg/min, similar to the one observed fo the enzyme from normal liver (30 nmoles ATP in equilibrium with Pi/mg/min). Our results suggest that the plasma membrane from the transformed model presents a more efficient mechanism to regulate the movement of calcium through the calcium pump, with an optimum expenditure of energy.
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PMID:Altered coupling states between calcium transport and (Ca2+, Mg2+)-ATPase in the AS-30D ascites hepatocarcinoma plasma membrane. 182 60

In mixed membrane vesicles prepared from human platelets, the presence of two distinct calcium pump enzymes (molecular mass 100 and 97 kDa) was demonstrated by 32P autoradiography, immunoblotting, and thapsigargin inhibition. Both the 100- and 97-kDa membrane proteins showed calcium-dependent phosphoenzyme formation and reacted with a polyclonal anti-sarcoplasmic reticulum calcium pump antiserum, while only the 100-kDa protein reacted with the antiserum specific for the sarco-endoplasmic reticulum-type calcium transport ATPase 2b isoform. Thapsigargin, inhibiting active calcium transport in platelet membrane vesicles, predominantly blocked the phosphoenzyme formation of the 100-kDa isoform and of the tryptic calcium pump fragments of 55 and 35 kDa, while lanthanum specifically increased the phosphoenzyme formation of the 97-kDa enzyme and of the tryptic fragment of 80 kDa. These results indicate the presence of the sarco-endoplasmic reticulum-type calcium transport ATPase 2b isoform and of a yet unidentified, 97-kDa calcium pump protein in human platelet membranes.
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PMID:Demonstration of two forms of calcium pumps by thapsigargin inhibition and radioimmunoblotting in platelet membrane vesicles. 183 May 88

The energy-filtering electron microscopical modes of electron energy-loss spectroscopy (EELS) and electron spectroscopic imaging (ESI) have been applied to the cytochemical detection of Ca(2+)-ATPase activity in synaptic terminals in the brain of a cichlid fish. Using a recently developed modification of an enzyme-histochemical method, cerium phosphate was precipitated as a marker of high-affinity Ca(2+)-ATPase activity. This is considered to be a marker for the plasmalemma-bound calcium pump, an enzyme which plays a crucial role in the regulation of the cytoplasmic calcium concentrations and therefore of the reactivity of nerve cells. High-affinity Ca(2+)-ATPase activity is located preferentially at the inner side of synaptic plasma membranes and enables a discrimination of different types of synapse. It is only by using EELS and ESI that the very small amounts of high-affinity Ca(2+)-ATPase reaction product can be analysed reliably and located precisely. These new electron microscopical techniques offer powerful tools for cytochemical studies.
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PMID:The application of energy-filtering electron microscopy for the cytochemical localization of Ca(2+)-ATPase activity in synaptic terminals. 183 Dec 35

We used Mn2+ as an analogue for Mg2+ to examine the minimum requirement of divalent cations for the rapid turnover of the sarcoplasmic reticulum ATPase. We measured the binding of Ca2+ and Mn2+ to the purified Ca(2+)-ATPase during steady-state hydrolysis of MnATP at 2 degrees C and pH 7. In the presence of 20 microM Ca2+, Mn2+ was as effective as Mg2+ in stimulating ATPase activity and the maximal activation of ATP hydrolysis was observed at 0.1 mM MnCl2. Under these conditions, 2 mol of Ca2+ were bound per mol of the ADP-sensitive phosphoenzyme, whereas no Ca2+ was bound to the ADP-insensitive phosphoenzyme. On the other hand, the stoichiometry for ATP-dependent binding of Mn2+ to these intermediates was about 1. We found that Mn2+ remained bound to the ADP-insensitive phosphoenzyme even in the presence of added chelator. In the absence of ATP, we detected a low level of Mn2+ binding, which reached 0.4 mol per mol of the phosphorylation site at 0.1 mM free Mn2+. We present evidence that this extra Mn2+ binding did not affect the rate of decomposition of the ADP-sensitive phosphoenzyme, which was the rate-limiting step for ATP hydrolysis under the conditions used.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Activation of sarcoplasmic reticulum Ca(2+)-ATPase by Mn2+: a Mn2+ binding study. 183 13

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