Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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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)

ATP-diphosphohydrolase (or apyrase) hydrolyses nucleoside di- and triphosphates in the presence of millimolar concentration of divalent cations. It is insensitive towards sulfhydryl and aliphatic hydroxyl-selective reagents and to specific inhibitors of ATPases. We present further evidence that ATPase and ADPase activities present in rat mammary gland correspond to apyrase. Two kinetic approaches have been employed, competition plot and chemical modification with group-selective reagents. The M(r) of these activities was determined by 60Co radiation-inactivation. The kinetic approaches employed, competition plot (which discriminate whether competitive reactions occur at the same site) and chemical modification, point to the presence of a single protein which hydrolyses ATP and ADP. The similar M(r) values of ATPase and ADPase activities also support this proposal. ATPase and ADPase activities of mammary gland show a similar sensitivity or insensitivity towards several chemical modifiers. These results suggest that this enzyme is ATP-diphosphohydrolase, also known as apyrase. The results obtained are compared with the ones obtained by us and other authors with the enzyme isolated from other sources.
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PMID:Characterization of ATP-diphosphohydrolase from rat mammary gland. 862 46

The effect of different detergents on the ATPase and ADPase activities from synaptic plasma membrane were investigated. Triton X-100, deoxycholate, CHAPS, Nonidet, N-octylglucoside and C12E8, which is commonly used to solubilize plasma membrane proteins, easily inactivated the ATPase and ADPase activities, while digitonin was not harmful to the enzyme. Treatment of the synaptic plasma membrane from rat brain with 0.5% digitonin solubilizes 80% of the proteins and 50% and 60% of ATPase and ADPase, respectively, with the following characteristics: stimulation by Ca2+ in the millimolar range, insensitivity to ATPase inhibitors (ouabain, olygomicyn, orthovanadate), inhibition with sodium azide and NEM and broad substrate specificity for the hydrolysis of nucleoside di- and triphosphate. To further characterize the enzyme solubilized, polyclonal antibodies specific for ATP diphosphohydrolase from potato tuber were tested. Western blot showed that two electrophoretic bands with a molecular mass close to 60-70 kDa had cross-immunoreactivity with antibodies against potato apyrase. The results presented here demonstrate for the first time the solubilization of ATPase and ADPase activities with characteristics of a true ATP diphosphohydrolase from synaptic plasma membrane from rat brain and with cross-immunoreactivity with antibodies against potato apyrase.
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PMID:Solubilization and characterization of an ATP diphosphohydrolase (EC 3.6.1.5) from rat brain synaptic plasma membranes. 867 3

It has been shown previously that ATP is released into extracellular space from pre- and postsynaptic sources in peripheral synapses. The extracellular metabolism of ATP is likely to affect nucleotide- and nucleoside-mediated regulation of neurotransmission. The enzymes responsible for ATP breakdown are nucleotidases whose active site faces the extracellular space. ATPase and ADPase Ca(2+)-dependent activities were characterized in presynaptic plasma membrane preparation from the electric organ of Torpedo. Features described were in accordance with the presence of an ATP-diphosphohydrolase (apyrase EC 3.6.1.5) in this fraction. Active site studies using the affinity label 5'-fluorosulfonylbenzoyladenosine were performed on Torpedo apyrase. ATPase and ADPase Ca(2+)-dependent activities were inhibited with 5'-fluorosulfonylbenzoyladenosine. From this study it is concluded: (1) 5'-fluorosulfonylbenzoyladenosine binds specifically to the active site of apyrase. (2) Divalent cations accelerate the apyrase inactivation rate. (3) Divalent cations are not required for the binding of either the substrate or the inhibitor to the active site. (4) The apyrase active site is more specific for highly phosphorylated nucleotides. The results presented may be extrapolated to apyrases from other sources. The importance of this enzyme and its regulation are discussed.
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PMID:Inhibition of ATP-diphosphohydrolase(apyrase) of Torpedo electric organ by 5'-p-fluorosulfonylbenzoyladenosine. 867 55

Ecto-nucleotidases may have a role in the regulation of purinoceptor-mediated responses. ATP-diphosphohydrolase or apyrase has been described as an ecto-nucleotidase, which is characterized by a low specificity for its substrates and bivalent cations. The aim of this work was to demonstrate the presence of apyrase as an ecto-enzyme in the rat kidney. ATPase-ADPase activities of the renal microvillar membrane preparation, which correspond to "right side out' membranes, were characterized. The detection of ATP-diphosphohydrolase in the renal vasculature was done through perfusion of isolated rat kidney. ATPase-ADPase activities of the microvillar membrane preparation and apyrase share similar kinetic properties. These include: low substrate and bivalent metal specificities and insensitivity towards inhibitors like: oligomycin, ouabain, verapamil, levamisole and Ap5A. The M(r) or native ATPase and ADPase activities was determined by the 60Co irradiation-inactivation technique being around 65 kDa for both hydrolytic activities. Immunowestern blot analysis also supports the presence of apyrase in microvilli. Perfusion of isolated rat kidney with ATP and ADP, in the presence or absence of different inhibitors or apyrase antibodies indicated the existence of this enzyme in the vascular endothelium. The identification of ATP-diphosphohydrolase as an ecto-enzyme both in microvilli and vasculature support the proposal that the enzyme may have an important role in the extracellular metabolism of nucleotides.
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PMID:ATP-diphosphohydrolase activity in rat renal microvillar membranes and vascular tissue. 869 4

ATP diphosphohydrolase from tegumental membranes of Schistosoma mansoni was solubilized with Triton X-100 plus deoxycholate and separated by preparative nondenaturing polyacrylamide gel electrophoresis. Two isoforms with ATP-hydrolytic activity were identified and excised from nondenaturing gels. For each of the active bands, two protein bands (63 and 55 kDa) were detected with Coomassie Blue staining, following sodium dodecyl sulfate-polyacrylamide gel electrophoresis. Western blots developed with polyclonal anti-potato apyrase antibody revealed a single protein of 63 kDa, either with samples excised from active bands or with total S. mansoni tegument. Anti-potato apyrase antibody immobilized on Sepharose-Protein A depleted over 95% of ATPase and ADPase activities from detergent-solubilized tegument. Confocal laser scanning microscopy showed anti-potato apyrase antibody on the outer surface of S. mansoni tegument. A different antibody against a fusion protein derived from recently cloned Toxoplasma gondii nucleoside triphosphate hydrolase (Bermudes, D., Peck, K. R., Afifi, M. A., Beckers, C. J. M., and Joiner, K. A. (1994) J. Biol. Chem. 269, 29252-29260) revealed the same 63-kDa band in Western blots of S. mansoni tegument. Since anti-potato apyrase antibodies exhibited cross-reactivity with S. mansoni ATP diphosphohydrolase, we decided to gain further information on the primary structure of potato apyrase by sequencing the protein. Three novel peptides were obtained: amino-terminal sequence and two internal sequences from tryptic fragments. Eight sequences recently deposited in the data bank, including that of T. gondii nucleoside triphosphate hydrolase, have considerable homologies to potato apyrase suggesting a new family of nucleoside triphosphatases which contains a conserved motif (I/V)(V/M/I)(I/L/F/C)DAGS(S/T) near the amino-terminal. Antibody cross-reactivities in the present work suggest that conserved epitopes from S. mansoni ATP diphosphohydrolase are present in this family of nucleotide-splitting enzymes.
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PMID:Partial purification and immunohistochemical localization of ATP diphosphohydrolase from Schistosoma mansoni. Immunological cross-reactivities with potato apyrase and Toxoplasma gondii nucleoside triphosphate hydrolase. 870 25

Salivary gland homogenates of Culicoides variipennis, the primary vector of bluetongue (BLU) viruses in North America, were analyzed for apyrase activity. Apyrase (ATP diphosphohydrolase, EC 3.6.1.5) is an anti-hemostatic and anti-inflammatory salivary enzyme of most hematophagous arthropods. The enzyme activity was measured by the release of orthophosphate using ATP, ADP, and AMP as substrates with Ca2+ as the divalent cation. ATPase (11.5 +/- 1 mU/pair of glands), ADPase (7.3 +/- 0.7 mU/pair of glands), and insignificant (P < 0.05) AMPase (0.07 mU/pair of glands) activities were detected in female salivary glands. Male salivary glands contained lower amounts of ATPase and ADPase activity (P < 0.05). The ATPase and ADPase activities were greatest at pH 8.5, and were similarly activated by Mg2+. Molecular sieving HPLC of salivary gland homogenates generated a single peak which coincided with ATPase and ADPase, but no AMPase, activity; the protein has an estimated molecular mass of 35,000 Da. ATPase and ADPase activity, and total protein concentration, were reduced (P < 0.05) in the salivary glands of females after taking a blood meal from a sheep. Salivary gland homogenates also inhibited ADP-induced platelet aggregation in vitro. It is concluded that the salivary ATPase and ADPase activities of C. variipennis reside in one enzyme, and that this enzyme is likely an apyrase. The apyrase activity is thought to be responsible for the inhibition of ADP-induced platelet aggregation, as indicated by the apparent discharge of apyrase from salivary glands into the host during blood feeding. This suggests that apyrase is one of the salivary proteins present in C. variipennis acting as antigens in the development of Culicoides hypersensitivity in ruminants and horses. Apyrase may inhibit an inflammatory response at the feeding site through the subsequent degradation of its end-product, AMP, to adenosine, a potent anti-inflammatory substance, by the ecto-5' nucleotidase activity of neutrophils.
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PMID:Apyrase activity and adenosine diphosphate induced platelet aggregation inhibition by the salivary gland proteins of Culicoides variipennis, the North American vector of bluetongue viruses. 872 May 70

Apyrase activity has been found in tissue of all investigated plant species. Seedlings soluble fractions accounted for 45-75% of the cell apyrase activity, whereas the apyrases isolated from microsomes accounted for 0.2-7% of the total homogenate activity. The ratio of the rate of ATP hydrolysis to the rate of ADP hydrolysis, Ksh, divides the apyrases into two groups: of Ksh > 1 (enzymes from most of monocot plants and bovine tissues) and of Ksh < 1 (enzymes from dicot plants). Triflupromazine strongly decreased the activity of wheat and bovine apyrases (first group) and does not inhibit the activity of the enzyme from potato (second group). Analysed apyrases reveal a significant antigenic diversity. Antibodies developed against soluble potato apyrase have no affinity to apyrase from microsomes of wheat seedlings. Immunological analysis confirmed that ATPase and ADPase activities of potato apyrase were associated with one protein. Apyrases, including animal ones, are insensitive to ATPases inhibitors and reagents of SH groups, whereas sodium deoxycholate inhibits all of the studied enzymes. NaF decreases activity plant enzymes, whereas erythrosine B and NaN3 only decreases bovine apyrases.
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PMID:Comparative studies on animal and plant apyrases (ATP diphosphohydrolase EC 3.6.1.5) with application of immunological techniques and various ATPase inhibitors. 882 8

Extracellular nucleotides interact with specific receptors on the cell surface and are locally metabolized by ecto-nucleotidases. Biochemical characterization of the ATPase and ADPase activities detected in rat heart sarcolemma, under conditions where mitochondrial ATPase and adenylate kinase were blocked, supports our proposal that both activities correspond to a single enzyme, known as ATP-diphosphohydrolase or apyrase. The physiological function of this enzyme could be dephosphorylation of the nucleotides present in the interstitial heart compartment acting together with 5'-nucleotidase. Both hydrolytic activities have similarities in: sarcolemma localization, bivalent metal ion dependence, optimum pH, effect of several amino acid residue modifiers, competitive inhibition of nucleotide analogs, and broad nucleoside di-and triphosphate specificity. The ATPase activity could not be separated from the ADPase either through isoelectrofocusing or electrophoresis under acid conditions.
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PMID:ATP-diphosphophydrolase activity in rat heart tissue. 886 7

Recovery of cell volume in response to osmotic stress is mediated in part by increases in the Cl- permeability of the plasma membrane. These studies evaluate the hypothesis that ATP release and autocrine stimulation of purinergic (P2) receptors couple increases in cell volume to opening of Cl- channels. In HTC rat hepatoma cells, swelling induced by hypotonic exposure increased membrane Cl- current density to 44.8 +/- 7.1 pA/pF at -80 mV. Both the rate of volume recovery and the increase in Cl- permeability were inhibited in the presence of the ATP hydrolase apyrase (3 units/ml) or by exposure to the P2 receptor blockers suramin and Reactive Blue 2 (10-100 microM). Cell swelling also stimulated release of ATP. Hypotonic exposure increased the concentration of ATP in the effluent of perfused cells by 170 +/- 36 nM in the presence of a nucleotidase inhibitor (P < 0.01). In whole-cell recordings with ATP as the charge carrier, cell swelling increased membrane current density approximately 30-fold to 16.5 +/- 10.4 pA/pF. These findings indicate that increases in cell volume lead to efflux of ATP through opening of a conductive pathway consistent with a channel, and that extracellular ATP is required for recovery from swelling. ATP may function as an autocrine factor that couples increases in cell volume to opening of Cl- channels through stimulation of P2 receptors.
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PMID:Autocrine signaling through ATP release represents a novel mechanism for cell volume regulation. 887 55

Ca2+ efflux from frog muscle sarcoplasmic reticulum (SR) vesicles was studied by measuring external free [Ca2+] using Fluo-3 fluorescence. Light SR vesicles were preloaded with Ca2+ in the presence of ATP and inorganic phosphate (Pi). Calcium pump reversal was activated by either depletion of the medium ATP by apyrase in the presence of 20 mM Pi, or resuspending preloaded vesicles in an ATP-free solution containing 1 mM ADP and 20 mM Pi. Cyclopiazonic acid (CPA) and thapsigargin (TG), at concentrations of 2.5 microM, which completely inhibit Ca2+ uptake, both inhibited the pump reversal efflux almost completely. When active Ca2+ uptake was stopped by either ATP-depletion or addition of CPA, a leak efflux of 6-7 nmole/mg/min was recorded. TG (2.5 microM) reduced this leak by over 50%, suggesting that TG, but not CPA, can slow the passage of calcium ions through the Ca(2+)-ATPase passive channel.
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PMID:Ca2+ effluxes from the sarcoplasmic reticulum vesicles of frog muscle: effects of cyclopiazonic acid and thapsigargin. 893 55


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