EC:3.1.3.1 - FACTA Search

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Query: EC:3.1.3.1 (alkaline phosphatase)
47,916 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A 100 000 X g soluble, supernatant fraction obtained from the hemolysate of rat reticulocytes was studied for its effect upon catecholamine-sensitive adenylate cyclase activity in reticulocyte membranes. The supernatant material, devoid of adenylate cyclase activity itself, amplified isoproterenol-dependent activity in responsive membranes and was an essential requirement for the expression of hormone sensitivity in membranes rendered unresponsive to isoproterenol alone. The increment in catecholamine-associated activity conferred upon reticulocyte membranes by the supernatant material was beta-adrenergic because it did not affect basal or fluoride-related activity and was completely inhibited by propranolol. Guanine nucleotides were present in the supernatant but could account for only a fraction of the total activity because the supernatant was able to cause greater stimulation than maximal concentrations of GTP and when specified concentrations of exogenous GTP were compared with equivalent nucleotide concentrations in the supernatant, the supernatant always led to greater activity. The supernatant was resolved into protein-and nucleotide-containing components by ion-exchange chromatography. Each component was approximately one-half as active in amplifying catecholamine-dependent adenylate cyclase as the unresolved, crude supernatant material. The activity eluted in the first peak of the DEAE chromatogram was resistant to alkaline phosphatase, sensitive to trypsin, not dialyzable and contained no detectable concentrations of GTP or GDP. In contrast, the activity eluted the second peak of the DEAE chromatogram was sensitive to alkaline phophatase, resistant to trypsin, completely dialyzable and contained both GTP (30 microM) and GDP (10 microM) in significant concentrations. Neither the crude supernatant nor its two active components affected the binding of [125I]-iodohydroxybenzylpindolol to reticulocyte membranes. These observations establish in rat reticulocytes the presence of protein and guanine nucleotide constituents which have independent influences upon the catecholamine-responsive adenylate cyclase of reticulocyte membranes.
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PMID:Regulation of catecholamine-responsive adenylate cyclase activity in rat reticulocyte membranes by endogenous factors: general characteristics and resolution into protein and nucleotide components. 741 6

1. To clarify the nature of the inhibition of whole-cell inwardly rectifying K+ current (IK1) by isoprenaline (Iso) and its antagonism by acetylcholine (ACh), we studied the effects of Iso and ACh and their surrogates on single channel currents (iK1) carried by inwardly rectifying K+ channels in cell-attached and excised inside-out patches obtained from guinea-pig ventricular myocytes. 2. Bath application of Iso suppressed iK1 channel activity in cell-attached patches. This was inhibited by propranolol. Bath-applied forskolin or dibutyryl cAMP mimicked the effect of bath-applied Iso. 3. Exposure of the cytosolic face of inside-out patches to purified catalytic subunit of the cAMP-dependent protein kinase (PKA) also suppressed iK1 channel activity, mimicking the effect of bath-applied Iso on iK1 recorded from cell-attached patches. 4. When applied directly to cell-attached patches via the patch pipette solution, ACh antagonized Iso-induced (1 microM applied via the bath) suppression of iK1 channels. In contrast, bath-applied ACh (10 microM) partially antagonized the effect of low concentrations of Iso (e.g. < 50 nM) on iK1 channels in cell-attached patches but had no detectable effect when 1 microM or more Iso was used. 5. In myocytes pretreated with pertussis toxin (PTX), ACh failed to antagonize Iso-induced suppression of iK1 channels. When inside-out patches were used, bath-applied preactivated exogenous inhibitory G protein subunit, G1 alpha, antagonized the suppression of iK1 channels induced by bath-applied catalytic subunit of PKA (PKA-CS), suggesting that a PTX-sensitive G1 alpha mediates ACh-induced antagonism of Iso-induced suppression of iK1. 6. Neither GTP gamma S nor G1 alpha antagonized the suppression of iK1 produced by bath-applied PKA-CS in inside-out patches when okadaic acid was present in the bath. In addition, bath application of alkaline phosphatase also reactivated iK1 channels suppressed by PKA-CS. 7. Findings in guinea-pig ventricular myocytes suggest that iK1 can be suppressed by a PKA-mediated phosphorylation of the iK1 channel occurring in response to Iso-induced beta-adrenergic receptor activation and that ACh can antagonize the suppression by mechanisms that involve both intracellular and membrane-delimited pathways. The membrane-delimited pathway appears to involve M2-cholinergic receptors, their associated G protein, G1, and a protein phosphatase, all located in the sarcolemma in close proximity to the involved iK1 channels.
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PMID:Beta-adrenergic and cholinergic modulation of inward rectifier K+ channel function and phosphorylation in guinea-pig ventricle. 747 27

Extracts of A. niger could catalyze sequential hydrolysis of the three phosphate moieties of the ATP molecule optimally at pH 2 and at pH 8. At pH 2 the hydrolysis was effected by an ATPase followed by acid phosphatase while at pH 8 alkaline phosphatase was the only involved enzyme. Separation of these three phosphate-hydrolyzing enzymes was achieved by Sephadex G-100 column chromatography. The A. niger ATPase seems to have two unique features. First, it was easily solubilized in distilled water and second it had optimum activity at pH 2. The activity of this enzyme was not affected on addition of Na+, K+ or Ca2+ to the assay reaction mixture. It was neither inhibited by sodium azide nor by potassium nitrate but inhibited by orthovanadate, DES, DCCD, Mg2+ and Pi. The substrate concentration-activity relationship was of the hyperbolic type. The enzyme had high specificity for ATP, was inert with ADP and its activity with GTP represented about 6% only of that obtained with equimolar amount of ATP.
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PMID:Participation of a proton-translocating plasma membrane ATPase, acid phosphatase and alkaline phosphatase in ATP degradation by Aspergillus niger extracts. 754 49

Internal administration of the G protein activator, guanosine-5'-o-(3-thiotriphosphate) (GTP gamma S) or aluminum fluoride (AIF) complex, produced an inward nonselective cation current (INS) at -55 mV. This current was rapidly diminished under conditions of high intracellular Mg2+ ([Mg2+] = 979 microM), the half decay time (T1/2) being 80 to 100 s. As [Mg2+] in AlF solutions decreased from 400 to 12 microM, the maximum amplitude of AlF-induced INS became larger and the current was diminished more slowly. The AlF INS in the presence of 12 microM Mg2+ reversed polarity at about +9 mV, irrespective of the extent of decline. Bath application of muscarine produced a sustained INS in the absence of AlF complex, but in its presence, the overall current comprising a spontaneously developed INS and muscarine-induced INS was rapidly diminished. Addition of vanadate (0.5 mM) to 979 microM Mg2+ -containing AlF solution mimicked the effects of low Mg2+ solution. Inversely, addition of alkaline phosphatase (40 units/ml) to 12 microM Mg2+ AlF solution reproduced the effects of high Mg2+ solution. It is suggested that AlF complex deactivates INS through facilitating an apparent activity of Mg2+ -dependent phosphatase.
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PMID:Mg2+-dependent phosphatase as an inhibitory mediator of the nonselective cation current induced by aluminum fluoride in guinea-pig chromaffin cells. 758 6

Treatment of HL-60 with phorbol myristate acetate (PMA) for 30 min, or all-trans retinoic acid (RA) for 60 min, results in hyperphosphorylation (3-5x) of topoisomerase II (p170, topo II) in vivo. RA and PMA activate a coprecipitating kinase, respectively inducing 1.6 and 2.7-fold increases in phosphorylation of topo II in immunoprecipitates. The activity of the co-precipitating kinase is inhibited by heparin and unlabelled GTP suggesting that casein kinase II (CKII) is, at least in part, responsible for the topo II hyperphosphorylation in response to differentiation signals. Although following dephosphorylation of the enzyme with alkaline phosphatase there was virtual abrogation of activity, the differentiation associated hyperphosphorylation had little impact on the decatenation activity of topo II in nuclear extracts. There were, however detectable changes in topo II function in vivo which affected the formation of the etoposide stabilised cleavable complex, but only after PMA treatment. PMA resulted in a rapid reduction in etoposide induced cleavage, 30 min treatment with PMA reducing cleavage by 20%. However, treatment with RA for 1 or 2 h when hyperphosphorylation was maximal did not affect cleavage. Immunoband depletion assays suggested that differentiation associated changes in chromatin structure rather than alterations in the enzyme per se are responsible for the reduction in cleavable complex formation following PMA treatment. Etoposide cytotoxicity was significantly reduced following just 30 min PMA treatment, but not reduced and even possibly enhanced by retinoic acid treatment. These findings are relevant not only to the dissection of the role of topo II in differentiation but also to its exploitation as a therapeutic target.
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PMID:Retinoic acid and phorbol ester induced hyperphosphorylation of topoisomerase II-alpha is an early event in HL-60 human leukaemia cell differentiation: effect on topoisomerase activity and etoposide sensitivity. 764 27

Acetylcholine (Ach) activates the muscarinic K+ current in atrial cells via the inhibitory GTP binding protein. After activation, the whole-cell K+ current decreases rapidly (rapid desensitization) to approximately half of the initial current within approximately 20 seconds. The mechanism of this rapid desensitization was investigated in adult rat and guinea pig atrial cells. Whole-cell voltage-clamp and patch-clamp techniques were used to study the K+ current. In voltage-clamped whole cells, ACh activated a K+ current that desensitized rapidly during the initial approximately 20 seconds followed by a slower decrease over several minutes. The rapid K+ current desensitization (a rapid decrease in channel open probability) was also observed at the single-channel level in cell-attached patches and was associated with a progressive shortening of the channel open time and prolongation of the closed time. These changes in channel current and kinetics were abolished by removal of the cytoplasm (by forming inside-out patches) and were partially inhibited by phosphatase inhibitors, suggesting an involvement of cytosolic phosphatase(s) in K+ current desensitization. In inside-out patches with ACh in the pipette and GTP in the bath, the open time of muscarinic K+ channels and channel open probability were increased by 1 mM Mg(2+)-ATP (but not by the nonhydrolyzable analogue, adenylylimidodiphosphate) and decreased by alkaline phosphatase. These results suggest that the rapid K+ current desensitization in adult rat or guinea pig atrial cells is produced by changes in the gating kinetics of the K+ channel, possibly mediated via membrane-associated protein kinase and cytosolic phosphatase(s).
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PMID:Mechanism of rapid desensitization of muscarinic K+ current in adult rat and guinea pig atrial cells. 768 54

Short-term treatment of rat submandibular tissues with 10 microM isoproterenol (IPR) resulted in reduction of mucin secretion in response to the agonist during further incubation, and in increases in EC50 values. This IPR-induced reduction of secretion was coupled with selective decreases in the number of beta-adrenoceptors in the tissues and in their affinity for agonists, as assessed by measurement of the specific binding of [3H]dihydroalprenolol. Treatment of the tissues with IPR caused a 30% decrease in IPR-stimulated adenylate cyclase activity and a 25% increase in the GTP binding capacity of inhibitory G proteins (Gi proteins). This IPR treatment triggered a 60% increase in the ability of pertussis toxin (IAP) to catalyze ADP-ribosylation of Gi proteins in the tissue membranes. Enhanced function of stimulatory G proteins (Gs proteins) was observed only during the first incubation of the tissues with IPR. The IAP-catalyzed ADP-ribosylation of Gi proteins in tissues treated with IPR was decreased by prior treatment with cyclic AMP dependent protein kinase, but was increased markedly by prior treatment with alkaline phosphatase. Neither IPR-induced desensitization of protein secretion nor increase in the IAP-catalyzed ADP-ribosylation of Gi proteins was observed in the tissues pretreated with 0.25 microM okadaic acid. These findings suggest that the regulation of Gi protein phosphorylation plays an important role in the IPR-induced heterologous desensitization of mucin secretion from rat submandibular glands.
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PMID:Mechanism of isoproterenol-induced heterologous desensitization of mucin secretion from rat submandibular glands. Regulation of phosphorylation of Gi proteins controls the cell response to the subsequent stimulation. 769 46

Studies were designed to find the molecular basis for previous observations that lipolysis is less active and A1 adenosine receptor signaling is more active in adipocytes from obese than from lean Zucker rats. With quantitative immunoblot procedures for detection, Gi alpha 1 and Gs alpha 45 levels were found anomalously low in obese compared with lean membranes (50 and 30%, respectively), but other G alpha subunit levels were normal. However, the sensitivity of the receptor-Gi protein to GTP was about 5- to 10-fold higher in obese compared with lean membranes when assessed from 1) the ability of GTP to inhibit forskolin-stimulated adenylyl cyclase in the presence of an adenosine receptor agonist and 2) the ability of a nonhydrolyzable guanine nucleotide analogue to alter A1 adenosine receptor agonist binding. Alkaline phosphatase treatment of isolated adipocyte membranes from obese but not lean animals decreased guanine nucleotide sensitivity of agonist binding. Surprisingly, solubilized adipocyte A1 adenosine receptors from all animals exhibited the same high sensitivity to guanine nucleotides as that of intact obese membranes, and this high sensitivity could be decreased 20-fold by treatment with alkaline phosphatase. These data suggest that protein phosphorylation may regulate coupling of the A1 adenosine receptor in rat adipocyte membranes.
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PMID:Evidence for regulated coupling of A1 adenosine receptors by phosphorylation in Zucker rats. 773 69

The mechanism of G protein-mediated inhibition of an inwardly rectifying K+ current (IIR) in adrenal chromaffin cells was investigated using the whole-cell version of the patch clamp technique. In case of recording with use of ATP-containing patch solution, the IIR was well maintained; otherwise, it ran down within 15 min. This run down was not prevented by replacement with adenylyl-imidodiphosphate, a nonhydrolysable analogue of ATP, but was markedly reduced by the addition to the ATP-free solution of 1 microM calyculin A, a specific inhibitor of serine/threonine phosphatase 1 (PP1) and 2A (PP2A). The addition of alkaline phosphatase to the ATP-containing solution facilitated run down of the current, and application of 100 microM H-7, a general kinase inhibitor, reversibly suppressed IIR. These results taken together suggest that inwardly rectifying K+ channels are under the influence of kinase and phosphatase without external signals. Infusion of nonhydrolysable analogues of GTP, guanosine-5'-O-(3-thiophosphate) (GTP gamma S) or guanylyl-imidodiphosphate, through the pipette produced little inward current at -55 mV, but completely inhibited IIR within approximately 5 or 6 min in all cells tested in the presence of 12 microM Mg2+ inside the cell. In contrast, infusion of aluminum fluoride (AlF) complex, another GTP binding (G) protein activator, consistently produced large inward currents, but did not alter IIR noticeably for 15 min in 17% of the cells tested. In the other cells, the inhibition of IIR developed slowly after long latent periods. This inhibitory potency of AlF was not enhanced by an increase in Mg2+ concentrations. Subtraction of the current-voltage relationship before from that noted during the generation of inward current by AlF complex revealed that the inward current diminished progressively with hyperpolarizations, as is the case with a nonselective cation current (INS) induced by a muscarinic agonist. Thus, AlF complex seems to be potent with the generation of INS, but not with IIR inhibition. The addition of 3 microM calyculin A significantly retarded the IIR inhibition by GTP gamma S, whereas that of 1 microM okadaic acid, another inhibitor of PPI and PP2A, markedly prevented the decline of IIR by AIF complex. Our observations suggest that the low potency of AlF complex in inhibiting IIR may be due to interference with phosphatase activity and that the activation of G protein suppresses IIR, probably by enhancing the apparent activity of phosphatase, which may explain run down of the current.
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PMID:Phosphatase is responsible for run down, and probably G protein-mediated inhibition of inwardly rectifying K+ currents in guinea pig chromaffin cells. 776 18

Ecto-ATPase activity of Xenopus oocytes was studied by measuring the production of inorganic phosphate (Pi) from the breakdown of extracellular ATP. Enzyme activity involved Ca2+/Mg(2+)-dependent and Ca2+/Mg(2+)-independent dephosphorylation of ATP. Ca2+/Mg(2+)-dependent ecto-ATPase was active over a limited range of 0.01-1.0 mM ATP, while Ca2+/Mg(2+)-independent ATPase activity was active over a range of 0.1-30 mM ATP. Total enzyme activity was insensitive to changes in buffer pH (pH 7.0-9.0), but increased in a relatively linear manner with: (1) time of reaction (0-90 min), (2) number of cells (1-20 oocytes), and (3) temperature (10-37 degrees C). Ecto-ATPase activity was unaffected by ouabain (100 microM), sodium azide (100 microM), and oligomycin (5 micrograms/ml) (as inhibitors of endo-ATPases) and beta-glycerophosphate (10 mM) and p-nitrophenyl phosphate (10 mM) (as inhibitors of non-specific alkaline phosphatase). Total ecto-ATPase activity was reduced significantly in defolliculated oocytes, suggesting that the enzyme was located mainly on the enveloping follicle cell layer. The range order of preferential substrates was: ATP>GTP, ITP, UTP, CTP, TTP, 2-methylthioATP>ADP, 2-methylthioADP, AMP>>alpha, beta-methylene ATP, beta, gamma-methylene ATP, in the presence of divalent ions (where G is guanosine, I is inosine, U is uridine, C is cytidine and T is ribosylthymine). The P2-purinoceptor antagonist suramin [8-(3-benzamido-4-methylbenzamido)napthalene-1,3,5-trisul phonic acid), 100 microM] significantly inhibited total ecto-ATPase activity; this inhibition was competitive for the Ca2+/Mg(2+)-dependent enzyme.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Characteristics of ecto-ATPase of Xenopus oocytes and the inhibitory actions of suramin on ATP breakdown. 892 22

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