Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.1.4.1 (phosphodiesterase)
 18,767 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The activities of phosphatidylinositol 4,5-bisphosphate (PIP2) phosphodiesterase (PDE) and inositol 1,4,5,-trisphosphate (IP3) phosphatase in the particulate and cytosol fractions prepared from porcine coronary artery smooth muscles were examined using 32P-labelled PIP2 and IP3 as substrates, respectively. The activity of PIP2 PDE, as assessed from the production of IP3, in the cytosol fraction was about 10-fold higher than that in the particulate fraction. In the absence of MgCl2, the activity of PIP2 PDE in both fractions showed no causal relation to the free Ca2+ concentration in the physiological range of 10(-7)-10(-5) M, but was enhanced remarkably by 10(-4) M free Ca2+. The addition of 1 mM-MgCl2 to the assay medium markedly inhibited the activity of PIP2 PDE in both fractions in the presence of free Ca2+ (10(-8)-10(-5) M). In the absence of MgCl2, 10(-5)M-acetylcholine (ACh) produced IP3, and this action was blocked by 3 X 10(-6) M-atropine. The ACh-induced activation of PIP2 PDE ceased in the presence of 1 mM-MgCl2; however, the reactivation occurring on the addition of 10 microM-guanosine 5'-[gamma-thio]triphosphate did not depend on the free Ca2+ concentrations (10(-7)-10(-5)M). The activities of IP3 phosphatase, determined from decrease in the amount of IP3 in the particulate and cytosol fractions, had much the same potency in both fractions. The activity of IP3 phosphatase in the cytosol fraction was enhanced by MgCl2 in a concentration-dependent manner, the maximal value occurring at 1 mM-MgCl2, and was also enhanced in the presence of physiological concentrations of free Ca2+ (10(-7)-10(-6) M). These findings suggest that the activation of PIP2 PDE which occurs with application of ACh in the presence of guanine nucleotides and 1 mM-MgCl2 is independent of the free Ca2+ concentration, and that the hydrolysis of IP3 by phosphatase increases, depending on the concentration of free Ca2+.
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PMID:Dependence on Ca2+ of the activities of phosphatidylinositol 4,5-bisphosphate phosphodiesterase and inositol 1,4,5-trisphosphate phosphatase in smooth muscles of the porcine coronary artery. 300 Mar 51

Rhodopsin kinase was extracted into a buffer containing 200 mM KCl and no MgCl2. The activity of the enzyme was stabilized with the use of a mixture of protease inhibitors, aprotinin, benzamidine, leupeptin, and pepstatin. The extract consisted of three major proteins of molecular weight (Mr) 65,000, 56,000, and 37,000, of which the Mr 65,000 protein was identified with the kinase activity since preparations containing the other proteins had no kinase activity and the Mr 65,000 protein was phosphorylated when the extract was incubated with ATP. A reconstituted cGMP phosphodiesterase (PDE) system consisting of peripheral protein-depleted rod disk membranes (RDM), GTP binding protein (G-protein), and PDE was used to test the effectiveness of the rhodopsin kinase preparation in mediating the ATP-dependent quench of light activation of PDE. In the absence of kinase, light-activated PDE activity lasted several minutes. In its presence, ATP and to a lesser extent GTP quenched the activation about as rapidly as in rod disk membranes. The influence of kinase was unaffected by increasing G-protein or PDE content of the reconstituted system but was slowed down by brighter flashes, showing that quench was caused by the inactivation of bleached rhodopsin and not of PDE or G-protein.
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PMID:Rhodopsin kinase prepared from bovine rod disk membranes quenches light activation of cGMP phosphodiesterase in a reconstituted system. 302 91

The adrenal medulla contains an enzyme which catalyzes the hydrolysis of 2',3'-cAMP to 2'-AMP. For the parameters which have been examined, the adrenal medulla 2',3'-cAMP phosphodiesterase appears to be similar to brain 2',3'-cyclic nucleotide 3'-phosphodiesterase (also commonly referred to as CNPase). The apparent Km of the adrenal medulla CNPase for 2',3'-cAMP is 0.88 mM. The enzyme activity is unaltered by either EDTA, MgCl2 or CaCl2 in the presence or absence of calmodulin. The apparent molecular weight is 102,500 daltons. The function of the enzyme in either the brain or the adrenal medulla is, at the present time, unknown.
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PMID:Identification of 2',3'-cyclic nucleotide 3'-phosphodiesterase in bovine adrenal medulla. 370 18

Enzymatic activity which hydrolyzes diadenosine 5',5"'-P1,P4-tetraphosphate (Ap4A) yielding ADP has been identified in extracts of eubacteria, Escherichia coli and Acidaminococcus fermentans, and of a highly thermophilic archaebacterium, Pyrodictum occultum. Specific Ap4A (symmetric) pyrophosphohydrolase from Escherichia coli K12 has been purified almost 400-fold. The preparation was free of phosphatase, ATPase, phosphodiesterase, AMP-nucleosidase, and adenylate kinase. The Ap4A pyrophosphohydrolase molecular weight estimated by gel filtration is 27,000 +/- 1,000. Activity maximum is at pH 8.3. The Km value computed for Ap4A is 25 +/- 3 microM. The sulfhydryl group(s) is essential for enzyme activity. Metal chelators, EDTA, and o-phenanthroline, inhibit Ap4A hydrolysis; I0.5 values are 3 and 50 microM, respectively. Co2+ is a strong stimulator with an almost 100-fold increase in rate of Ap4A hydrolysis and a plateau in the range of 100-500 microM Co2+, when compared with the nonstimulated hydrolysis. Other transition metal ions, Mn2+, Cd2+, and Ni2+, stimulate by factors of 8, 3.5, and 3.5, respectively, with optimal concentrations in the range 200-500, 2-5, and 4-8 microM, respectively. Zn2+, Cu2+, and Fe2+, up to 30 microM, are without effect and they inhibit at higher concentrations. Mg2+ or Ca2+, in the absence of other divalent metal ions, are weak stimulators (1.5-fold stimulation occurs at 1-2 mM concentration), but act synergistically with Co2+ at its suboptimal concentrations. Stimulation in the presence of 10 microM Co2+ and either 1 mM MgCl2 or CaCl2 increases up to 75-fold. The same degree of synergy is found at 10 microM Co2+ and either 2-5 mM spermidine or 0.5-1.5 mM spermine. Besides Ap4A, bacterial Ap4A pyrophosphohydrolase hydrolyzes effectively Ap5A and Gp4G, and, to some extent, p4A, Ap6A, and Ap3A yielding in each case corresponding nucleoside diphosphate as one of the products.
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PMID:Catabolism of diadenosine 5',5"'-P1,P4-tetraphosphate in procaryotes. Purification and properties of diadenosine 5',5"'-P1,P4-tetraphosphate (symmetrical) pyrophosphohydrolase from Escherichia coli K12. 631 72

The intracellular site of vasopressin-induced phosphoinositide breakdown in rat hepatocytes was investigated. After 45 s of vasopressin treatment of hepatocytes prelabeled with 32Pi, the levels of 32P-labeled phosphatidylinositol 4-phosphate (PI-P) and phosphatidylinositol 4,5-bisphosphate (PI-P2) in the plasma membrane decreased by approximately 40%, then gradually returned to near control levels after 10 min of treatment. Only small changes in the levels of [32P] PI-P and [32P]PI-P2 were observed in the other subcellular fractions, and were attributed to contamination of these fractions by plasma membranes. The level of 32P-labeled phosphatidylinositol in the plasma membrane decreased by 15% after 45 s of vasopressin treatment and then increased above control levels at later times while 32P-labeled phosphatidic acid levels in the plasma membrane gradually increased to 2-fold greater than control after 5 min of treatment. Using 32P-labeled plasma membranes obtained from prelabeled hepatocytes, it was found that PI-P and PI-P2 were rapidly degraded by a calcium-dependent polyphosphoinositide-specific phosphodiesterase. The enzyme was activated by physiological concentrations (200 nM) of free calcium when assayed at low ionic strength, but the calcium requirement shifted to micromolar concentrations under isosmotic, intracellular-like, ionic conditions. Addition of vasopressin (200 nM) to the 32P-labeled plasma membranes stimulated the breakdown of 20% of the [32P]PI-P2 present in the plasma membranes in 1 min when assayed under isosmotic conditions in the presence of 2 nM MgCl2 and approximately 200 nM free calcium. This suggests that the phosphoinositide-specific phosphodiesterase is not active under normal cellular conditions, but is activated upon the addition of vasopressin to the intact cell.
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PMID:Subcellular site and mechanism of vasopressin-stimulated hydrolysis of phosphoinositides in rat hepatocytes. 633 70

We have purified different membrane and soluble forms of alkaline phosphatase from human placenta and bovine intestine. The enzymes will be used as markers in immunoconjugates and/or as model for membrane enzyme studies. The membrane form of alkaline phosphatase extracted from bovine intestine was purified on Q-Sepharose and on L-histidyldiazobenzyl-phosphonic acid-agarose columns to remove phosphodiesterase activity. The purified enzyme had a molecular mass of 61 kDa, Km of 1208 microM, and Vmax 240 mumol pNP/min when assayed in 1 M diethanolamine, 0.5 mM MgCl2 buffer, pH 9.8, containing 10 to 2250 microM of pNPP at 37 degrees C. In the present investigation we studied the effect of salts and inositol derivatives on this enzyme activity, which was found to depend on 0.5 mM Mg2+, and to be fully inhibited by 1.2 mM Hg2+. Vanadate (0.5 mM) and Zn2+ (0.5 mM) reduced the Km value by 43% and 84%, respectively. Inositol (2 mM) and inositol-2-monophosphate (2 mM) reduced the activity by 23% and 17%. Inositol-1-monophosphate (0.5 mM) and cyclic-inositol-(1:2)-monophosphate (0.5 mM) enhanced their Km value by at least 30% compared to p-nitrophenylphosphate.
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PMID:Kinetic studies on the membrane form of intestinal alkaline phosphatase. 755 5

The single-turn GTP hydrolysis by isolated and soluble transducin has been time-resolved using a rapid flow filtration technique which takes advantage of the GTP-requiring detachment of transducin alpha-subunits (T alpha) from photoactivated rhodopsin (R*). Illuminated rod outer segment (ROS) fragments to which holo-transducin is tightly bound are retained on a syringe filter that is washed continuously with a buffer containing no GTP. When the flow is switched to a buffer with GTP, T alpha GTP is specifically eluted and injected into a cuvette where GTP hydrolysis is monitored via the associated change in the T alpha intrinsic tryptophan fluorescence. Low concentrations of GTP elute the complete pool of T alpha from the filter-retained ROS fragments in less than 1 s. This directly demonstrates that, upon GTP loading, T alpha becomes instantly soluble in physiological buffers (120 mM KC1 and 2 mM MgCl2). When all alone, T alpha hydrolyzes its bound GTP in 21 +/- 1 s (1/e time at 25 degrees C). Replacing chloride by other anions increases the GTPase rate by 2-fold. The K50 for chloride inhibition of GTPase is approximately 2 mM. Slower GTP hydrolysis is observed for cholera-toxin-modified transducin or when GTP alpha S (Sp) replaces GTP in the eluting buffer. No signal is observed when GTP gamma S is used. The GTPase rate is unaffected when T alpha GTP binds to the inhibitory subunit (PDE gamma) of the cGMP phosphodiesterase (PDE), although this binding is fast and of high affinity.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:GTP hydrolysis by purified alpha-subunit of transducin and its complex with the cyclic GMP phosphodiesterase inhibitor. 839 13

An artifact of procedure has been detected in the adaptation of the cAMP-radioimmunoassay to the analysis of adenyl cyclase activity. When reaction mixtures containing ATP and MgCl2 were boiled to terminate the enzyme assay, a cAMP-like decrease in antigen-binding was found. This decrease was dependent upon the presence of ATP, was linear to at least 5 min of boiling time, and could be destroyed with the addition of commercial phosphodiesterase. As significant levels of the nonenzymatically formed product resulted only when samples were boiled, alternative methods of terminating cyclase reactions are suggested.
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PMID:An artifact produced by boiling adenyl cyclase reaction mixtures prior to the cyclic AMP-radioimmunoassay. 976 55

Cyclic diguanylate (c-di-GMP) is essential for Yersinia pestis biofilm formation, which is important for flea-borne blockage-dependent plague transmission. Two diguanylate cyclases (DGCs), HmsT and HmsD and one phosphodiesterase (PDE), HmsP are responsible for the synthesis and degradation of c-di-GMP in Y. pestis. Here, we systematically analyzed the effect of various environmental signals on regulation of the biofilm phenotype, the c-di-GMP levels, and expression of HmsT, HmsD, and HmsP in Y. pestis. Biofilm formation was higher in the presence of non-lethal high concentration of CaCl2, MgCl2, CuSO4, sucrose, sodium dodecyl sulfate, or dithiothreitol, and was lower in the presence of FeCl2 or NaCl. In addition, we found that HmsD plays a major role in biofilm formation in acidic or redox environments. These environmental signals differentially regulated expression of HmsT, HmsP and HmsD, resulting in changes in the intracellular levels of c-di-GMP in Y. pestis. Our results suggest that bacteria can sense various environmental signals, and differentially regulate activity of DGCs and PDEs to coordinately regulate and adapt metabolism of c-di-GMP and biofilm formation to changing environments.
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PMID:Differential Regulation of c-di-GMP Metabolic Enzymes by Environmental Signals Modulates Biofilm Formation in Yersinia pestis. 2737 63


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