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)

A clinical study was conducted to evaluate the role of PGs (prostaglandins) and cyclic AMP in the regulation of the contractility and pharmacologic reactivity of guinea pig and human ovaries in vitro. Ovarian contractility results with the various substances tested are graphed. Imidazole, acetylcholine, phenylephrine PGF2alpha, and methyl PGF2alpha increased ovarian contractility of guinea pig and human ovaries in vitro. Aminophylline suppressed this effect. Indomethacin inhibited ovarian contractions. PGF2alpha and its methyl derivative reversed this inhibitory effect of indomethacin. PGE2 decreased the amplitude and frequency of the spontaneous and PGF2alpha-induced contractions. The effect of certain of the substances was dose-dependent. The study results show that aminophylline, a phosphodiesterase inhibitor, is a potent relaxant of guinea pig ovary contraction in vitro. This inhibitory effect is probably caused by the accumulation of cyclic AMP. The ovarian activation caused by imidazole, on the other hand, is probably caused from an increased rate of cyclic AMP destruction. Thus, compounds interfering with cyclic AMP and PG metabolism effect ovarian contractility in vitro.
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PMID:Effects of aminophylline, imidazole and indomethacin on spontaneous and prostaglandin induced ovarian contractions in vitro. 0 82

The metabolic effects of imidazole were tested in rat renal cortex. Imidazole enhanced the activity of renal cortical phosphodiesterase in vitro. Imidazole inhibited glucose production in a dose-dependent fashion from a variety of substrates in the gluconeogenic pathway proximal to the triose phsophates. The stimulation in renal gluconeogenesis resulting from isoproterenol and parathyroid hormone was inhibited by imidazole. These changes correlated with an inhibition of the augmented levels of renal cortical cyclic AMP levels produced by these hormones. These studies indicate that imidazole is an effective activator of phosphodiesterase in intact renal cells and lend further support to the suggestion that the stimulation of renal gluconeogenesis produced by isoproterenol and parathyroid hormone is mediated by a release of cyclic AMP.
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PMID:Effect of imidazole on renal gluconeogenesis. 1 Sep 72

The effects of various agents on the newly identified cyclic CMP phosphodiesterase (C-PDE) in crude extracts of a number of rat tissues and on the enzyme partially purified from the rat liver were examined. Papaverine and 1-methyl-3-isobutylxanthine were without effects on C-PDE at concentrations that inhibited up to 90% of cyclic AMP phosphodiesterase (A-PDE) and cyclic GMP phosphodiesterase (G-PDE) activities. When assayed using 1 micron substrates, theophylline inhibited C-PDE to a lesser extent than A-PDE and G-PDE. 2'-Deoxy cyclic AMP (specific A-PDE inhibitor) and 2'-deoxy cyclic GMP (specific G-PDE inhibitor) were relatively poor and non-specific inhibitors for C-PDE. Imidazole, while augmenting the high Km A-PDE and G-PDE from the liver but not from the heart, was without effect on the liver C-PDE but stimulated the heart C-PDE. Potassium phosphate was more specific in inhibiting C-PDE than A-PDE and G-PDE. The present findings suggest that C-PDE represents a potential site of specific pharmacological regulations, and that C-PDE may be a separate enzyme distinguishable from the purine cyclic nucleotide class of phosphodiesterases.
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PMID:Effects of phosphodiesterase inhibitors, imidazole and phosphate on cyclic CMP phosphodiesterase are different from those on cyclic AMP and cyclic GMP phosphodiesterases. 8 41

The total cyclic adenosine 3':5'-monophosphate (cAMP) phosphodiesterase activities as well as the activities of the low- and high-K-m enzyme forms were investigated in homogenates, 100,000 X g supernatants, and plasma membrane fractions of rat liver and Morris hepatoma 5123tc(h); the responsiveness of hepatoma and liver plasma membrane (low-K-m) phosphodiesterases to imidazole (40 mM) and theophylline (5mM) were also compared at cAMP concentrations of 1 and 7.5 muM. The total cAMP phosphodiesterase activities of tumor homogenates and 100,000 X g supernatant fractions were found to be less than one-half those of liver; kinetic studies of homogenates indicated that this finding was largely due to a substantial reduction (53%) in activity of the hepatoma high-K-m enzyme. In contrast, low-Km cAMP phosphodiesterase activities for tumor homogenate and plasma membrane fractions were significantly (50%) higher than liver; this was particularly evident when cAMP concentrations were between 0.5 and 2 muM. Since these concentrations are in the range of basal physiological levels of cAMP in hepatocytes, the present results suggest that the reduced levels of cAMP, previously observed in hepatoma 5123tc (h), are primarily due TO An increased rate of cAMP metabolism by low-Km cAMP phosphodiesterase in plasma membranes of the tumor. Imidazole increased the activity of the low-K-m cAMP phosphodiesterase of liver plasma membranes by 22 (1 muM cAMP) and 38% (7.5 muM camp); tumor activity was enhanced 35 and 50%, respectively, at 1 and 7.5 muM cAMP. Theophylline inhibited the plasma membrane phosphodiesterase activity of liver 79 and 53% at cAMP concentrations of 1 and 7.5 muM, respectively; hepatoma activity was inhibited 82 (1 muM cAMP) and 62% (7.5 muM cAMP).
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PMID:Increased activity of low-Km cyclic adenosine 3':5'-monophosphate phosphodiesterase in plasma membranes of Morris hepatoma 5123tc (h). 16 86

Most (85% or more) of the cyclic nucleotide phosphodiesterase (3' :5' -cyclic-AMP 5'-nucleotidohydrolase, EC 3.1.4.17) activity of pig coronary arteries was found in the 40 000 times g supernatant fraction of homogenates of the intima plus media layer. Chromatography of the soluble fraction of this layer on DEAE-cellulose resolved two phosphodiesterase activities and a heat stable, non-dializable activator. Peak I activity had apparent Km values of 2-4 muM for cyclic GMP and 40-100 muM for cyclic AMP. Peak II activity was relatively specific for cyclic AMP and exhibited apparent negatively cooperative behavior. Peak I but not peak II activity could be stimulated 3-8-fold by the addition of the boiled activator fraction or a boiled crude supernatant fraction. Cyclic AMP hydrolysis by peak I or peak II was more rapid in the presence of Mn-2+ than Mg-2+, but the latter promoted hydrolysis of cyclic GMP by peak I more effectively than did Mn-2+ in the presence of activator. In the absence of added metals, ethylene bis(oxyethylenenitriol)tetra-acetic acid (EGTA) and EDTA both inhibited hydrolysis of cyclic AMP and cyclic GMP by phosphodiesterase activities in the supernatant fraction and in peak I, but EDTA produced more complete inhibition at lower concentrations than did EGTA. Imidazole (1 muM to 10 mM) had virtually no effect on the hydrolysis of cyclic AMP or cyclic GMP catalyzed by either of the two separated peaks or by total phosphodiesterase activities in crude supernatant or particulate fractions.
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PMID:Cyclic nucleotide phosphodiesterase activities of pig coronary arteries. 16 19

Imidazole (0.73-15.9mM) was found to increase both tension developed Td and the maximum rats of rise of tension, dT/dtmax, in the isolated hemidiaphragm of the rat during indirect stimulation. Similar effects were obtained during direct stimulation and in the presence of d-tubocurarine. Imidazole (0.73-22 mM) antagonized the action of d-tubocurarine. This effect was particularly pronounced in preparations pretreated with imidazole. Propranolol did not significantly change the action of imidazole on Td and dT/dtmax during direct stimulation. Similarly, propranolol did not affect the action of low concentrations of imidazole during indirect stimulation. When present in the bath for periods of time longer than 15 min, propranolol significantly depressed the effect of even high concentrations of imidazole on Td and dT/dtmax during indirect stimulation. Histamine (0.18-0.91 mM) did not affect either Td or dT/dtmax. In the experiments in vivo, imidazole (12.5-100 mg/kg) produced a small increase both in Td and dT/dtmax of the gastrocnemius muscle during sciatic nerve stimulation. The available evidence indicates that the action of imidazole on Td and dT/dtmax is not connected with its action on phosphodiesterase, but it is most probably due to a direct action on the muscle.
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PMID:The effect of imidazole on the isometric contractility of the isolated hemidiaphragm of the rat. 17 19

Methylxanthines (10(-5) to 10(-3)M) were found to increase the amplitude of contractions of guinea-pig ileum induced by transmural stimulation but to inhibit those induced by acetylcholine or histamine. The order of the abilities of methylxanthines to augment the contractile responses was theobromine greater than caffeine greater than theophylline. When the contractions were completely suppressed by reduction of the calcium content in the medium or by addition of cyclic AMP, methylxanthines restored the responses effectively, just as does addition of calcium. Methylxanthines also accelerated the release of acetylcholine from the ileum associated with stimulation. Imidazole (3 X 10(-5) to 10(-3) M) had an essentially similar effect to methylxanthines in potentiating the contractile responses and in augmenting the release of acetylcholine. The present results indicate that the potentiating effects of methylxanthines and imidazole are due to an action on the nerve terminals, not on the postsynaptic membranes or contractile elements. Therefore, it si concluded that theit potentiating actions are due to facilitation of the movement of calcium in the nerve terminals on excitation, resulting in increased release of acetylcholine, and are not due to the effect of cyclic AMP formed as a result of their inhibitory actions on phosphodiesterase.
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PMID:Effects of methylxanthines and imidazole on the contractions of guinea-pig ileum induced by transmural stimulation. 17 36

Fragments of sarcoplasmic reticulum from rabbit sceletal muscles sedimented within the range from 2000 g to 8000 g (heavy fraction) and 8000 g to 40000 g (light fraction) and washed with 0.6 M KCl, were practically free of adenylatecyclase activity. Phosphodiesterase cAMP was not found in the light fraction, while its activity in the heavy fraction was 500 pmol of cAMP/min per mg of protein. Both fractions contain bound cAMP (1-2 pmol/mg of protein) and specific sites of cAMP binding, the binding constant being approximately 10(6)M-1. The number of binding sites is 60 pmol/mg of protein for the heavy and 30 pmol/mg of protein for the light fractions. The level of phosphodiesterase activity in the heavy fraction correlates with its sensitivity to imidazole, anserine and caffeine. Imidazole and anserine increase in 1.5-1.8 times the value of Ca2+/ATP in the heavy fraction and produce no effect on Ca2+ transport by the light fraction. Caffeine decreases almost twice the Ca2+/ATP value in the heavy fraction and has practically no effect on Ca2+ absorption by enzymes of the light reticulum fraction. Imidazole and anserine activate membrane-bound phosphodiesterase, while caffeine inhibits it. It is suggested that structural rearrangements of membrane-bound phosphodiesterase under the effect of caffeine, imidazole and anserine are responsible for changes in the efficiency of Ca2+ transport by fragments of the heavy reticulum fractions.
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PMID:[Concentration of components of the adenylate system in heavy and light fractions of the sarcoplasmic reticulum of skeletal muscles and sensitivity of these fractions to the effects of imidazole-containing compounds and caffeine]. 18 55

The effect of 24 imidazol derivatives on the activity of phosphodiesterase (3', 5'-AMP-phosphohydrolase; KF3.1.4.1) was studied in the experiments with the homogenates of the rat brain and of the Rana temporaria skeletal muscles. Imidazol derivatives could produce both the activating and inhibitory influence on the enzyme. Imidazol and seven of its alkyl-substituted derivatives activated the phosphodiesterase. TTFB (tetrachloro-2-trifluoromethylbenzimidazol) produced the greatest inhibitory effect among the inhibitors on the phosphodiesterase activity.
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PMID:[Effect of imidazole compounds on the activity of adenosine-3', 5'-monophosphoric acid phosphodiesterase]. 18 38

This research explored the possibility that cyclic nucleotides are part of the excitation-secretion sequence in mammalian motor nerve terminals. A series of reagents known to react with the enzymes that synthesize and degrade cyclic nucleotides or that are effectors of cyclic nucleotide actions were administered to in vivo cat soleus nerve-muscle preparations. The reagents were administered by rapid close intra-arterial injection while electrical activity in single motor axons and contractile activity of the muscle were monitored. NaF, an activator of adenylate cyclase, evoked bursts of action potentials in unstimulated axons and caused stimulus-bound repetitive activity in stimulated axons. It evoked vigorous asynchronous activity in the muscle and potentiated the force of muscle contraction. These effects are identical with those of cyclic N6-2'-O-dibutyryl adenosine 3':5'-monophosphate (dibutyryl cAMP). Prostaglandin E1 produced similar effects. Dithiobisnitrobenzoic acid and alloxan, inhibitors of adenylate cyclase, impaired neuromuscular transmission and prevented the effects of NaF, but they did not change the responses to dibutyryl cAMP. Theophylline, an inhibitor of phosphodiesterase, caused axons to respond repetitively to stimulation, but this activity had a different pattern from that produced by dibutyryl cAMP or NaF. Pretreatment with theophylline enhanced the responses to dibutyryl cAMP and NaF. Imidazole, an activator of phosphodiesterase, impaired neuromuscular transmission and prevented the effects of dibutyryl cAMP and NaF. Adenosine, an inhibitor of protein kinase, or verapamil, which inhibits calcium flux, impaired neuromuscular transmission and prevented the responses to dibutyryl cAMP, NaF and theophylline. These results are compatible with the hypothesis that cAMP is involved in the regulation of calcium flux and transmitter secretion in mammalian motor nerve terminals.
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PMID:A role of cyclic nucleotides in neuromuscular transmission. 18 85

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