EC:3.1.4.1 - FACTA Search

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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)

Phosphodiesterase activator protein and troponin-C have been purified from rat testis and rabbit skeletal muscle, respectively. The two proteins appear to be structurally distinct since the activator protein migrates faster than troponin-C on sodium dodecyl sulfate-polyacrylamide gels. Each of the calcium-binding proteins will, however, substitute for the other in their respective biological systems. Testis activator protein forms a complex with rabbit muscle troponin subunits TnI and TnT soluble in low salt. This hybrid complex (AIT) can regulate rabbit skeletal muscle actomyosin ATPase activity. AIT regulation, although influenced by free Aa2+ levels, is distinct from that of native troponin. Likewise, muscle troponin-C can substitute for activator protein in the stimulation of cyclic nucleotide phosphodiesterase. Troponin-C will fully stimulate phosphodiesterase although its affinity is 600-fold lower than that of activator protein. Ca2+ regulation studies demonstrate that both proteins require micormolar levels of free Ca2+ to induce phosphodiesterase activation. Activator protein requires 1.2 x 10(6) M and troponin-C, 1.9 X 10(6) M free Ca2+ for half-maximal stimulation of phosphodiesterase. The biological cross-reactivity of these proteins supports the sequence homology recently reported by Watterson et al. (Watterson, D.M., Harrelson, W.G., Keller, P.M., Sharief, F., and Vanaman, T.C. (1976) J.Biol. Chem. 251, 4501-4513). In addition, this preliminary study suggests that this nonmuscle troponin-C-like protein potentially may function in other Ca2+-regulated cellular events in addition to its moculation of cyclic nucleotide levels.
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PMID:Biological cross-reactivity of rat testis phosphodiesterase activator protein and rabbit skeletal muscle troponin-C. 19 60

1. A phosphodiesterase, active at an alkaline pH, is present in the outer cortex of rat kidney and hydrolyses glycerylphosphorylinositol into glycerol and phosphorylinositol. Some inositol cyclic phosphate can also be formed indicating that the enzyme can act as a cyclizing phosphotransferase. 2. The enzyme is stimulated by Ca2+(2-3mM) whereas Mg2+ is inhibitory. 3. The activity is markedly stimulated by low concentrations of thiol reagents (1-2mM) such as cysteine or dithiothreitol. 4. The properties of the enzyme have been compared with glycerylphosphinicocholine diesterase (EC 3.1.4.2), which is also present in the isolated enzyme complex, and it is concluded that the enzymes have separate identities.
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PMID:A phosphodiesterase in rat kidney cortex that hydrolyses glycerylphosphorylinositol. 19 16

On guinea-pig heart we investigated whether cyclic AMP serves as a messenger for H1 - and/or H2-mediated responses to histamine. (1) On papillary muscle histamine elicited positive inotropic responses which were antagonized by burimamide but not by promethazine. The stimulation of H2-receptors was not only associated with an increase in contractility but also with an increase in cAMP. As shown by the time course of effects for 10(-5) M histamine, the maximal increase in cAMP preceded the maximum in contractility. The mechanical and biochemical responses to histamine were potentiated by the phosphodiesterase inhibitor papaverine, but antagonized by burimamide. (2) On the left guinea-pig atrium containing H1-receptors the inotropic response to histamine (10(-5) M) was not accompanied by increases in cAMP at stimulation frequencies of 0.5 and 2 Hz, respectively. In addition, in the presence of papaverine (3 X 10 (-5) M) no change in the cyclic AMP level occurred after application of histamine. Papaverine by itself, however, concomitantly increased contractility and cyclic AMP at a stimulation frequency of 0.5 Hz. In contrast, at 2 Hz papaverine increased only cAMP leaving the contractility unchanged. At this frequency the well-known Ca2+-antagonistic effect comes into prominence, thus masking the positive inotropic effect attributable to the inhibition of the phosphodiesterase. (3) On the right guinea-pig atrium the mediation of the positive chronotropic response to histamine by H2-receptors which is partly involved in the inotropic effect via the frequency-force relationship does not lead to a concomitant increase in cAMP. Also, in the presence of papaverine, histamine had no influence on the cAMP. However, papaverine potentiated the cardioacceleration produced by histamine. Although it is very likely that the cAMP in the sinus node rises, we were not able to detect an increase in cAMP in the whole atrial tissue. From the present results the conclusion can be drawn that the mediation of the inotropic effect due to stimulation of H2-receptors by histamine is associated with an increase of cyclic AMP, whereas that of H1-receptors is not. The view that cAMP may be the second messenger in the chronotropic action of histamine needs further elucidation by experiments on sino-atrial cells.
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PMID:H1 - and H2-receptor mediated responses to histamine on contractility and cyclic AMP of atrial and papillary muscles from guinea-pig hearts. 19 83

Nuclei from purified human peripheral lymphocytes were prepared by incubations with Triton X-100 to disrupt the cells, followed by sucrose-density gradient centrifugation. The nuclei were pure as judged by phase-contrast microscopy and had low contents of non-nuclear marker enzymes. In addition, nuclei prepared from lymphocytes surface-labelled with 125I had only 2-7% of the radioactivity bound to intact lymphocytes. At 3.3 mM-Ca2+ and 100 micronM-ATP a fluoride-sensitive adenylate cyclase was demonstrated in nuclei prepared in 0.2% Triton X-100 or 0.33% Triton X-100. There was linear accumulation of cyclic AMP for 10 min in both preparations. The apparent Km for ATP was 90 micronM. Adenylate cyclase activity was augmented by 1.0 mM-Mn2+ and inhibited at higher concentrations. Ca2+ showed two peaks of stimulation, at 1.0-2.5 mM- and above 10 mM-Ca2+. Mg2+ was inhibitory at all concentrations. EDTA OR EGTA only slightly decreased adenylate cyclase activity, suggesting that another metal ion may be necessary for activity. Adenylate cyclase activity was stimulated by 10mM-isoproterenol and 10 micronM-adrenaline in the presence of a phosphodiesterase inhibitor. Phytohaemagglutinin and prostaglandin E1 alone or in combination with isoproterenol had no effect on nuclear adenylate cyclase activity in either nuclei preparation. These results indicate that human lymphocyte nuclei contain one or several adenylate cyclases which differ from adenylate cyclases found in other subcellular fractions of these cells with regard to their bivalentcation requirements and responsiveness to pharmacological agents.
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PMID:Adenylate cyclase activity in lymphocyte subcellular fractions. Characterization of a nuclear adenylate cyclase. 19 78

In various parts of the guinea pig gastrointestinal tract the calcium antagonist N-(2-benzhydryl-ethyl)-N-(1-phenyl-ethyl)-amine hydrochloride (fendiline, Sensit) decreases the smooth muscle tone elevated by K+-induced depolarisation. This effect is antagonized by addition of extra-Ca++. The muscle relaxation is dos-dependent and amounts to 45-90% after 1-5 microng/ml fendiline. Proportionally to this effect the tissue concentration in cGMP is decreased whereas cAMP remains unchanged. After 54 micron/ml theophylline the cAMP level in the terminal ileum is increased significantly whereas cGMP does not change. Theophylline has no influence on the relaxing effect of 1 microng/ml fendiline. By contrast, the increase in cAMP after theophylline is prevented by fendiline. These findings are explained by the antagonistic effect of fendiline to Ca++, which activates the guanylate cyclase and inhibits the adenylate cyclase. Furthermore, fendiline seems to prevent the binding of theophylline to guinea pig ileal phosphodiesterase. It is discussed that cGMP plays a physiological role in controlling the intestinal smolth muscle tone and motility.
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PMID:The influence of the calcium antagonist fendiline on tone and motility of the guinea pig gut smooth muscle and the cAMP and cGMP concentrations of the isolated terminal ileum. 19 4

Brain cytoplasmic cyclic 3':5'-nucleotide phosphodiesterase (EC 3.1.4.17) requires an endogenous Ca2+-binding protein for ful activity. We now show that lysophosphatidylcholine also effectively enhances activator-deficient phosphodiesterase activity. Stimulation by both ligands was immediate and reversible; both rendered the enzyme more thermally labile, decreased the energy of activation, and increased the Vmax of phosphodiesterase without affecting its apparent Km for adenosine 3'5'-monophosphate. However, the cofactor requirements of the two ligands were different. Although the protein activator gave a greater stimulation than lysophosphatidylcholine, the simultaneous presence of the two gave a stimulation comparable to lysophosphatidylcholine, suggesting that the effect of the latter was predominant. Phosphodiesterase was also stimulated by oleic acid, cardiolipin, and phosphatidylinositol, albeit to a less extent.
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PMID:Cyclic 3':5'-nucleotide phosphodiesterase. Stimulation of bovine brain cytoplasmic enzyme by lysophosphatidylcholine. 19 98

Carp parvalbumin has been shown to activate rat brain phosphodiesterase in a Ca2+-dependent manner. The concentration of Ca2+ required for half-maximal stimulation is 1.4 X 10(-7) M, whereas rat testis Ca2+-dependent regulator (CDR) of phosphodiesterase required 1.2 X 10(-6) M Ca2+. The difference in the slopes of the two curves demonstrated that the activation induced by parvalbumin was not the result of a small contamination by CDR. In addition, it has been shown that Ca2+ binding to parvalbumin parallels its activation of phosphodiesterase. These data suggest that Ca2+ must bind to a single specific metal binding site before phosphodiesterase can be fully activated.
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PMID:Ca2+-dependent regulation of cyclic-AMP phosphodiesterase by parvalbumin. 19 56

The effects of perfusate epinephrine, 1-methyl-3-isobutylxanthine, calcium, and filling pressure were investigated in the perfused working rat heart. Epinephrine produced a rapid increase in cAMP, in the protein kinase activity ratio, and in active phosphorylase. These effects preceded the increase in contractile force produced by the hormone. There was good correlation between protein kinase activation and the increase in force. Epinephrine and the phosphodiesterase inhibitor 1-methyl-3-isobutylxanthine were synergistic in their stimulatory effects on cAMP, protein kinase activity, active phosphorylase, and contractile force. When an increase in the force of contraction was produced either by increasing the filling pressure of the heart or by increasing the perfusate Ca2+ concentration, there was no change in either cAMP levels or protein kinase activity. These data suggest that the effect of beta-adrenergic catecholamines on contractile force is due, at least in part, to cAMP-dependent protein kinase activation. The increase in contractile force produced either by increasing the filling pressure (Frank-Starling phenomenon) or by increasing the perfusate Ca2+ concentration is apparently not mediated by cAMP or the protein kinase.
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PMID:Involvement of cAMP-dependent protein kinase in the regulation of heart contractile force. 19 11

Islets microdissected from ob/ob-mice were exposed to 3mM pentobarbital in media which were normal or deficient in Ca2+. This treatment resulted in marked decrease of the islet content of cyclic AMP recorded in the presence of the phosphodiesterase inhibitor 3-isobutyl-1-methylxanthine. Pentobarbital had a dual effect on insulin release. In addition to being a potent inhibitor of glucose-stimulated insulin release in media containing 2.56 mM Ca2+ it increased the amounts of insulin released in high glucose media deficient in Ca2+. There was a transient stimulation with ordinary concentrations of Ca2+ and 3mM glucose whtn the media also contained 3-isobutyl-1-methylxanthine. The stimulatory effect of pentobarbital persisted after replacing part of the Ca2+ in the beta-cell membrane with lanthanum ions and it could not be mimicked by lowering the oxygen tension of the incubation medium. It is suggested that pentobarbital stimulation of insulin release is the result of a specific action of the drug on the distribution of Ca2+ within the pancreatic beta-cells.
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PMID:Calcium and pancreatic beta-cell function. I. Stimulatory effects of pentobarbital on insulin release. 19 66

The effects of phenytoin on the motor nerve terminal were evaluated on the in vivo cat soleus nerve muscle preparation. Phenytoin, 10 mg/kg, reduced the repetitive aftercharges in motor nerve endings due to tetanic conditioning. It also reduced the repetitive activity due to adenylate cyclase activation with NaF, or to exogeneous dibutyryl cyclic AMP. These effects of phenytoin could be reversed by administering theophylline, a phosphodiesterase inhibitor, or by increasing the extracellular concentration of calcium. The effects of phenytoin could also be reversed by 3-aminopyridine, but not by tetraethylammonium chloride. Verapamil, a calcium current antagonist, produced effects that were identical to phenytoin. It is concluded that phenytoin blocks a cyclic nucleotide-mediated calcium influx that is associated with transmitter release. This calcium flux also appears to control a slow potassium current that is responsible for post-tetanic hyperpolarization.
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PMID:Effects of phenytoin on the cyclic nucleotide system in the motor nerve terminal. 19 43

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