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)

The role of lipid-protein interaction in the regulation of the brain Na-pump by different neurotropic agents (prostaglandin E2, middle molecules from blood plasma of uremic patients, neuropeptide galanin, the oligopeptide fraction from brain) was investigated. We established a definite correlation between the lipid status (the peroxidativity of the lipids, the phospholipids and cholesterol content) of the Na,K-ATPase enzyme preparation (plasma membrane fragments) and the influence of the neurotropic agents. Besides, after the treatment with delipidative agents (phospholipase A2, SDS) the inhibitory effects of these neurotropic agents, were diminished significantly. These facts do not contradict our previous suggestion that the lipid-protein interactions underlay the regulative action mechanism of the natural bioactive ligands.
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PMID:Lipid-protein interactions in neurotropic Na-pump regulation. 128 Mar 97

Recently, one of the authors (K.I.) and other investigators reported that myosin light chain (MLC) of smooth muscle (gizzard, arterial and tracheal) was diphosphorylated by myosin light chain kinase (MLCK) and that diphosphorylated myosin showed a marked increase in the actin-activated myosin ATPase activity in vitro and ex vivo. In this study, we prepared myosin, actin, tropomyosin (human platelet), MLCK (chicken gizzard) and calmodulin (bovine brain) and demonstrated diphosphorylation of MLC of platelet by MLCK in vitro. Our results are as follows. (1) Platelet MLC was diphosphorylated by a relatively high concentration (greater than 20 micrograms/ml) of MLCK in vitro. As a result of diphosphorylation, the actin-activated myosin ATPase activity was increased 3 to 4-fold as compared to the monophosphorylation. (2) Both di- and monophosphorylation reactions showed similar Ca2+, KCl, MgCl2-dependence. Maximal reaction was seen at [Ca2+] greater than 10(-6) M, 60 mM KCl and 2 mM MgCl2. This condition was physiological in activated platelets. (3) Di- and monophosphorylated myosin showed similar Ca2+, KCl-dependence of ATPase activity but distinct MgCl2-dependence. Diphosphorylated myosin showed maximal ATPase activity at 2 mM MgCl2 and monophosphorylated myosin showed a maximum at 10 mM MgCl2. (4) The addition of tropomyosin stimulated actin-activated ATPase activity in both di- and monophosphorylated myosin to the same degree. (5) ML-9, a relatively specific inhibitor of MLCK, inhibited the aggregation of human platelets induced by thrombin ex vivo in a dose-dependent manner. Moreover, this drug also partially inhibited both di- and monophosphorylation reactions and actin-activated ATPase activity. On the other hand, H-7, a synthetic inhibitor of protein kinase C, had little effect on the aggregation of human platelets induced by thrombin ex vivo. From these results, we conclude that diphosphorylation of platelet myosin by MLCK may play an important role in activated platelets in vivo.
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PMID:Diphosphorylation of platelet myosin by myosin light chain kinase. 153 1

Calmodulin (CaM) mediates the Ca(2+)-dependent activation of many enzyme systems in accordance with its cellular localization. We have described previously a muscarinic receptor-mediated translocation of CaM from membranes into the cytosol of SK-N-SH human neuroblastoma cells. To explore the potential targets (CaM-binding proteins, CaMBP) for CaM upon translocation, a photoreactive CaM derivative was introduced into living SK-N-SH cells using a scrape-loading technique. Scrape-loading incorporated rhodamine isothiocyanate-labeled CaM with an efficiency of 38%. CaM-diazopyruvamide (CaM-DAP), a Ca(2+)-dependent and CaM-specific probe, was also introduced into the cells. The muscarinic agonist carbachol stimulated a translocation of CaM from membranes into cytosol in CaM-DAP-loaded SK-N-SH cells. Upon photochemical cross-linking, cross-linked adducts of CaM-CaMBP were detected by immunoblotting with anti-CaM antibody. Carbachol stimulated increased photoaffinity labeling of three proteins with relative adduct molecular masses of 70, 120, and 180 kDa. The time course of labeling for the 70- and 120-kDa adducts showed maximal increased by 15-30 min. The 180-kDa adduct displayed a slower time course of maximal labeling, with increases maintained for 2-4 h. Subtracting the molecular mass of CaM, carbachol stimulated binding to CaMBPs of 55, 105, and 163 kDa. Predominant cellular CaMBP were identified using a biotinylated CaM overlay procedure. Western blot analysis indicated the expression of specific CaM-dependent enzymes such as calcineurin, phosphodiesterase, the beta-isoform (rat brain) of CaM kinase II, and Ca(2+)-ATPase. Numerous cytoskeletal CaMBP were expressed such as microtubule-associated protein-2, spectrin, tubulin, caldesmon, adducin, and neuromodulin. Of the CaMBP expressed, phosphodiesterase, calcineurin, caldesmon, and adducin cross-linked with CaM-DAP in the loaded SK-N-SH cells. Carbachol stimulated the time-dependent CaM-DAP labeling of calcineurin and adducin. This study demonstrates the novel incorporation of a photoreactive CaM derivative into living cells, as well as muscarinic receptor-activated CaM-DAP interaction with several cellular CaMBP. We postulate that carbachol-stimulated CaM translocation in SK-N-SH cells may affect the activity of CaM-dependent enzymes and may alter aspects of cytoskeletal function.
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PMID:Carbachol stimulates binding of a photoreactive calmodulin derivative to calmodulin-binding proteins in intact SK-N-SH human neuroblastoma cells. 155 1

Treatment of the solubilized and purified Ca(2+)-translocating ATPase (Ca(2+)-ATPase) (136 kDa) from human erythrocyte plasma membranes with endoproteinase Glu-C from Staphylococcus aureus strain V8 (V8 protease) yielded transient fragments of 96 kDa and 76 kDa and more stable fragments of 60 kDa and 37/36 kDa (doublet). The presence of calmodulin did not alter the fragmentation pattern. The 60 kDa fragment contains the protein kinase C (bovine brain) phosphorylation site(s), which we previously localized in the C-terminal region [Wang, Wright, Machan, Allen, Conigrave & Roufogalis (1991) J. Biol. Chem. 266, 9078-9085]. On the other hand, the 37/36 kDa fragments possess the ability to form an acyl-phosphate intermediate. Furthermore, the presence of the 60 kDa and 37/36 kDa fragments together results in expression of calmodulin-sensitive Ca(2+)-ATPase activity. However, further degradation of the 60 kDa fragment was coupled with the appearance of calmodulin-independent activity, whereas the 37/36 kDa fragment doublet remained stable. It was concluded that the 60 kDa and the 37/36 kDa fragments: (a) together represent the C-terminal two-thirds of the enzyme, which is functional as an Ca(2+)-ATPase, (b) were produced by a single cleavage near the C-terminal side of the cytosolic catalytic domain, and (c) probably remain physically and functionally associated even after cleavage has occurred. At the C-terminus, the basic calmodulin-binding domain is flanked by two highly acidic regions (domains A and B). Our results indicate that domains A and B, despite containing many Asp and Glu residues, were not readily cleaved by V8 protease, which is known to cleave selectively peptide bonds at the C-terminal side of Asp and Glu. However, if the Ca(2+)-ATPase were pre-digested with calpain I from human erythrocytes, which removed its calmodulin-binding domain (along with domain B), multiple cleavages by V8 protease in domain A were then readily observed. We propose that the calmodulin-binding domain is closely associated with the acidic domains A and B and that these acidic domains might help to co-ordinate the stimulation of the enzyme by calmodulin.
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PMID:Structure--function relationship of the human erythrocyte plasma membrane Ca(2+)-ATPase revealed by V8 protease treatment. 183 79

Studies of mitotic spindle elongation in vitro using populations of diatom spindles visualized with immunofluorescence microscopy have shown that the two interdigitating half-spindles are driven apart by an ATP-dependent process that generates force in the zone of overlap between half-spindles. To characterize further the system responsible for spindle elongation, we observed spindle elongation directly with polarized light or phase-contrast video-microscopy. We report that the kinetics of spindle elongation versus time are linear. A constant rate of spindle elongation occurs despite the continuous decrease in length of the zone of overlap between half-spindles. The average rate of spindle elongation varies as a function of treatment, and rates measured match spindle elongation rates measured in vivo. When spindles elongated in the presence of polymerizing tubulin (from bovine brain), the extent of elongation was greater than the original zone of half-spindle overlap, but the rate of elongation was constant. No component of force due to tubulin polymerization was found. The total elongation observed in the presence of added tubulin could exceed a doubling of original spindle length, matching the elongation in the intact diatom. The linear rate of spindle elongation in vitro suggests that the force transducer for anaphase B is a mechanochemical ATPase, analogous to dynein or myosin, and that the force for spindle elongation does not arise from stored energy, e.g. in an elastic matrix in the midzone. Additionally, on the basis of observations described here, we conclude that the force-transduction system for spindle elongation must be able to remain in the zone of microtubule overlap during the sliding apart of half-spindles, and that the transducer can generate force between microtubules that are not strictly antiparallel.
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PMID:Kinetic analysis of mitotic spindle elongation in vitro. 225 93

The oligomeric state of canine renal NA+/K+ -ATPase solubilized by octaethylene glycol n-dodecyl ether (C12E8) was studied by means of low-angle laser light scattering photometry coupled with high-performance gel chromatography (HPGC). At around 0 degree C the solubilized enzyme was separated into the (alpha beta)2-diprotomeric and alpha beta-protomeric protein components with Mr values of 302,000 +/- 10,000 and 156,000 +/- 4,000, respectively, in approximately equal quantities. As the temperature of chromatography was increased toward 20 degrees C, the two protein components converged into a single major component. The Mr of this component depended on the monovalent cation included in the elution buffer, and was 255,000 or 300,000 in the presence of 0.1 M NaCl or 0.1 M KCl, respectively. A computer simulation technique showed that the solubilized enzyme was in a dissociation-association equilibrium of 2 protomers = diprotomer at 20 degrees C, and the difference in apparent Mr of the solubilized enzyme between the two species of monovalent cation was interpreted by an association constant (Ka) in the presence of 0.1 M KCl that was about 50-fold larger than in the presence of 0.1 M NaCl. In order to measure ATPase activity and Mr of the solubilized enzyme simultaneously, a TSKgel G3000SW column had been equilibrated and was eluted with an elution buffer containing 0.30 mg/ml C12E8 and 60 microgram/ml phosphatidylserine (bovine brain) as well as the ligands necessary for the enzyme to exhibit the activity at pH 7.0 and 20 degrees C. The solubilized enzyme was always eluted as a single protein component irrespective of the the amount of the protein applied to the column, ranging between 240 and 10 microgram. The Mr of the protein component, however, decreased from 214,000 and 158,000 with the decrease of the protein amount. The specific ATPase activity, however, remained constant at a level of 64 +/- 4% of that of the membrane-bound enzyme even in the range of protein concentration sufficiently low as to allow the enzyme to exist only in the protomeric form. Thus, the alpha beta-protomer is concluded to be the minimum functional unit for the ATPase activity. The value of Ka obtained from the concentration-dependent dissociation curve was 5 . 10(5) M-1 for the enzyme turning over, and 1.1 . 10(7) M-1 for the enzyme inhibited with ouabain. It was discussed, based on the values of Ka obtained, that the enzyme would exist as the diprotomer or the higher oligomer in the membrane.
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PMID:Minimum enzyme unit for Na+/K+-ATPase is the alpha beta-protomer. Determination by low-angle laser light scattering photometry coupled with high-performance gel chromatography for substantially simultaneous measurement of ATPase activity and molecular weight. 254 48

The ATP-hydrolyzing portion of the proton pump from clathrin-coated vesicles (isolated from calf brain) was solubilized with three nondenaturing detergents (cholate, octyl glucoside, and Triton X-100). The hydrodynamic properties of the solubilized (Mg2+)-ATPase were then determined by sedimentation analysis in H2O and D2O and gel filtration on Sepharose 4B. The coated vesicle (Mg2+)-ATPase migrated under all conditions as a single peak of activity. In cholate, the sedimentation coefficient (S20,w), Stokes radius (a), and partial specific volume (vc) were 8.25 (+/- 0.20) S, 68 (+/- 2) A, and 0.71 (+/- 0.03) cm3/g, respectively. In octyl glucoside and Triton X-100 these values were respectively 7.90 (+/- 0.20) and 7.45 (+/- 0.20) S, 68 (+/- 3) and 101 (+/- 5) A, and 0.74 (+/- 0.03) and 0.75 (+/- 0.03) cm3/g. Application of the Svedberg equation to these data gave a molecular weight for the protein-detergent complex of 217,000 +/- 21,000 (cholate), 234,000 +/- 26,000 (octyl glucoside), and 337,000 +/- 40,000 (Triton X-100). Assuming the protein binds one micelle of detergent, these values correspond to a protein molecular weight of 215,000 +/- 21,000 (cholate), 226,000 +/- 26,000 (octyl glucoside), and 247,000 +/- 40,000 (Triton X-100). The cholate-solubilized, gradient-purified (Mg2+)-ATPase, when combined with a 100,000 g pellet fraction, could be reconstituted by dialysis into phospholipid vesicles which displayed ATP-dependent proton uptake.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Structural characterization of the ATP-hydrolyzing portion of the coated vesicle proton pump. 287 30

We examined the patterns of cyclic AMP-dependent protein phosphorylation in membranes prepared from rat cortical synaptosomes following gel electrophoresis and autoradiography. We determined the optimum pH (6.2), time (20 s), Mg2+ concentration (10 mM) and cyclic AMP concentration (5 microM) for the reaction. We also found that the detergents Triton X-100 and gramicidin S enhanced cyclic AMP-dependent protein phosphorylation. Inhibitors of the Na+, K+ ATPase (ouabain, NaF, vanadate) enhanced protein phosphorylation. This effect occurred in the presence but not in the absence of detergent. The addition of purified bovine brain cyclic AMP-dependent protein kinase catalytic subunit enhanced membrane protein phosphorylation. The addition of homogeneous neural (bovine brain) and non-neural (bovine skeletal muscle) cyclic AMP-dependent protein kinase type II regulatory subunit partially inhibited protein phosphorylation. Both neural and non-neural regulatory subunits behaved similarly. In addition to cyclic AMP-dependent phosphorylation, the alpha-subunit of pyruvate dehydrogenase (Mr = 41,000) is phosphorylated in a cyclic AMP-independent fashion. We also examined the phosphorylation pattern of membranes prepared from rat heart and found that the number of acceptor substrates was much less than that from the nervous system.
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PMID:Characterization of cyclic AMP-dependent phosphorylation of neuronal membrane proteins. 608 38

The development and regional distribution of deoxyuridine 5'-triphosphatase (dUTPase) in rabbit brain was studied. After partial purification of the dUTPase activity, newborn brain and liver activities fell from Vmax values of 1.0 and 6.9 nmol/mg protein/min, respectively, to adult levels of 0.1 (brain) and less than 0.01 (liver). The dUTPase activity was evenly distributed throughout the entire adult rabbit brain, and there was no difference in the Km of dUTPase in newborn and adult brain (0.1 microM). The low level of dUTPase in adult brain and the lack of activity in adult liver were not due to inhibitors or phenylmethylsulfonyl fluoride-sensitive proteases. dUTPase in brain, as in other tissues, probably inhibits the misincorporation of uracil into DNA.
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PMID:Development and regional distribution of deoxyuridine 5'-triphosphatase in rabbit brain. 613 16

Maternal ethanol consumption produces a reduction in postnatal growth. We have studied especially changes of liver and brain. This reduction is more marked if the alcoholic offspring are maintained with their biological mothers than if they are kept with surrogate mothers. Rats exposed prenatally to alcohol show a marked accumulation of fat in the liver and a significant proliferation of liver endoplasmic reticulum. No change in the postnatal development of liver alcohol (ADH) and acetaldehyde dehydrogenases (ALDH) (high and low Km) is observed in offspring from alcoholic mothers, with the exception of slightly higher ALDH (low Km) for the offspring that remain with alcoholic mothers. The postnatal development of the liver (Na+-K+) ATPase is also similar in control and alcoholic groups. However, in the case of the enzyme from the brain, a lower ATPase activity is observed in the group derived from alcoholic mothers. Interestingly, at 20 days of postnatal period, an induction of the ATPase (from liver and brain) was observed when the group of offspring from alcoholic mothers were kept on an alcohol diet.
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PMID:Effects of prenatal and postnatal exposure of rats to alcohol: changes in (Na+-K+) ATPase. 629 87

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