EC:3.1.4.1 - FACTA Search

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)

Dipyridamole is a potent inhibitor of tritiated thymidine incorporation by PHA-stimulated human lymphocytes. This effect is unrelated to the length of culture, to the level of response in untreated cultures, or to the proliferative index. This suggests that dipyridamole principally effects the membrane transport of thymidine. Dipyridamole inhibits sheep-erythrocyte-capping by E-rosettes. This effect cannot be mimicked by theophylline or cyclic nucleotides and cannot be reverted by adenosine. Pharmacological studies with colchicine and cytochalasin B suggest interference with cytoskeletal functions, probably of microtubules. This could be another site of action of dipyridamole beyond phosphodiesterase inhibition and adenosine metabolism.
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PMID:Effect of dipyridamole upon thymidine incorporation and capping in human lymphocytes. 380 35

The biochemistry of platelets is surprisingly complex, and offers the opportunity for numerous platelet-aggregation inhibiting ("antiplatelet") drugs to interfere with different aspects of their metabolism and function. Thus, aspirin inhibits platelet aggregation by irreversibly inactivating cyclo-oxygenase, a key enzyme in platelet prostaglandin metabolism, while the other nonsteroidal anti-inflammatory drugs and sulphinpyrazone cause reversible and dose-dependent inhibition of the same enzyme. Dipyridamole can inhibit both platelet adhesion and aggregation by raising the platelet cyclic AMP level through phosphodiesterase inhibition. The use of aspirin, sulphinpyrazone, and dipyridamole as antithrombotic agents has now been extensively evaluated. In general, treatment with these drugs has been more likely to prevent arterial than venous thromboembolism, and aspirin or the combination of aspirin and dipyridamole has been more effective in this respect than has sulphinpyrazone. Recent evidence strongly suggests that aspirin reduces the risk of non-fatal myocardial infarction in patients with unstable angina, and that the administration of aspirin in combination with dipyridamole significantly improves graft patency after aortocoronary bypass. Aspirin also appears to reduce the likelihood of stroke or death in men with transient cerebral ischaemic attacks.
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PMID:Aspirin and other platelet-aggregation inhibiting drugs. 388 Aug 61

Adenosine (Ado, 10 microM) did not inhibit ADP-induced human platelet aggregation in whole blood. However, if the blood was preincubated with dipyridamole (10 microM), a potent inhibitor of the erythrocytic nucleoside transport system (NTS), Ado acted as a strong inhibitor of platelet aggregation. Similarly, Ado inhibited platelet aggregation in whole blood in the presence of other potent NTS inhibitors, dilazep (1 microM) and p-nitrobenzylthioinosine (NBMPR, 1 microM). RA 233 (10 microM), an analog of dipyridamole which is a potent inhibitor of platelet cAMP phosphodiesterase (PDE), did not evoke the Ado effect in whole blood. However, in platelet-rich plasma (PRP), RA 233 potentiated strongly Ado-mediated inhibition, whereas dipyridamole, dilazep and NBMPR were without activity. 5'-Methylthioadenosine (MTA), an Ado receptor antagonist, reversed the inhibition produced by a nucleoside transport system inhibitor plus Ado in whole blood. Dipyridamole (10 microM), dilazep (1 microM) or NBMPR (1 microM) blocked [14C]Ado (10 microM) uptake by blood cells in whole blood, whereas RA 233 (10 microM) was not effective. The combination of 2'-deoxycoformycin (dCF, 5 microM), a tight-binding inhibitor of adenosine deaminase (ADA), plus 5-iodotubercidin (ITu, 10 microM), a potent inhibitor of adenosine kinase (Ado kinase), gave comparable Ado-mediated inhibition of platelet aggregation in whole blood as was obtained when the blood was pretreated with dilazep. These studies suggest that the in vivo antiplatelet actions of drugs such as dipyridamole and dilazep result from their abilities to block erythrocytic Ado uptake and subsequent metabolism, thus elevating the extracellular steady-state concentration of the physiologically occurring, antiplatelet agent, Ado.
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PMID:Role of adenosine uptake and metabolism by blood cells in the antiplatelet actions of dipyridamole, dilazep and nitrobenzylthioinosine. 406 70

Dipyridamole was initially introduced as a coronary vasodilator. The exact mechanism of action of dipyridamole on the coronary vasculature is unknown, but proposed mechanisms of action include inhibition of adenosine uptake, increased myocardial prostacyclin production and inhibition of phosphodiesterase activity. The purpose of our study was to examine the electrophysiological effects of dipyridamole on guinea-pig papillary muscles and canine cardiac Purkinje fibers to determine whether similar mechanisms might account for the electrophysiological effects of this compound. Conventional microelectrode techniques were used to record transmembrane action potentials from either guinea-pig papillary muscles or canine cardiac Purkinje fibers. Dipyridamole produces a dose-dependent prolongation of action potential duration with a threshold concentration of approximately 5 X 10(-7) M in tissues from either species. Dipyridamole (10(-5) M) increases action potential amplitude (124 +/- 1 to 127 +/- 1 mV), increases action potential duration (119 +/- 6 to 146 +/- 5 msec) and produces hyperpolarization of the resting potential (-85 +/- 1 to -87 +/- 1 mV) in guinea-pig papillary muscles (n = 27, P less than .05). Dipyridamole (10(-5) M) increases action potential duration (276 +/- 5 to 293 +/- 5 msec) in canine cardiac Purkinje fibers (n = 21, P less than .05). The effects of dipyridamole (5 X 10(-7) M) are neither accentuated by adenosine (10(-4) M) nor attenuated by adenosine deaminase (1 U/ml) Pretreatment with indomethacin (10(-5) M) does not block these effects. Dipyridamole (10(-5) M) produces a negative chronotropic response in canine Purkinje fibers, increases mean escape intervals from 4.9 +/- 0.9 to 7.8 +/- 1.4 sec (n = 8, P less than .05) and fails to suppress slow response action potentials in 22 mM K+ depolarized tissues.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Adenosine and prostacyclin independent electrophysiological effects of dipyridamole in guinea-pig papillary muscles and canine cardiac Purkinje fibers. 609 2

The ability of theophylline and other phosphodiesterase inhibitors to alter contractile responses to cholinergic nerve stimulation was investigated in isolated longitudinal muscle of the guinea pig ileum. Theophylline in low concentrations (10-100 microM), having no or little effect on measured phosphodiesterase activity, antagonized inhibitory effects of exogenous adenosine. In higher concentrations (0.1-10 mM), shown to be effective in inhibiting phosphodiesterase, theophylline as well as a "pure" cAMP phosphodiesterase inhibitor, ZK 62, 711, inhibited contractile responses. Dipyridamole and dilazep, inhibitors of adenosine inactivation, and also selective inhibitors of cAMP and cGMP phosphodiesterase, respectively, were found to enhance effects of exogenous adenosine and to cause a marked leftward shift to adenosine threshold dose. When dipyridamole and dilazep by themselves had inhibitory effects these could be antagonized by theophylline, suggesting an action through increased levels of endogenous adenosine. As a further indication of endogenous adenosine modulating neurotransmission low concentrations of theophylline enhanced responses to transmural stimulation. Endogenous purine concentrations in tissues and bath media were measured by HPLC. Because of tissue and microbial adenosine inactivation direct estimates of extracellular adenosine concentration could not be obtained. However, adenosine levels increased during transmural stimulation, and during inhibition of adenosine inactivation were sufficient, even in the bath medium, to interfere with the cholinergic neurotransmission.
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PMID:Theophylline interferes with the modulatory role of endogenous adenosine on cholinergic neurotransmission in guinea pig ileum. 627 57

Dipyridamole appears to act in vivo by synergistically modifying several biochemical pathways, including: a) inhibition of platelet cAMP-phosphodiesterase; b) potentiation of adenosine inhibition of platelet function by blocking reuptake by vascular and blood cells, and subsequent degradation of adenosine; and possibly, c) potentiation of PGI2 antiaggregatory activity and enhancement of PGI2 biosynthesis. These independent processes inhibit platelet function by increasing platelet cAMP through both a reduction in enzymatic cAMP-degradation, and stimulation of cAMP formation via activation of adenylcyclase by adenosine and possibly PGI2. Only the inhibition of cAMP phosphodiesterase appears to be involved in the dipyridamole inhibition of isolated platelets in vitro, since adenosine and PGI2 originate in vivo from tissues other than platelets and any blood concentrations existing in vivo will disappear before platelet-rich plasma has been prepared for in vitro platelet studies. The antithrombotic effects of dipyridamole in a baboon model of arterial thromboembolism are unaffected by simultaneous administration of dazoxiben, a specific thromboxane synthetase inhibitor, but are optimally potentiated by the simultaneous addition of aspirin in doses of 20 mg/kg/day. Since this dose of aspirin has no detectable antithrombotic effects when used alone, but blocks vascular PGI2 synthesis, the antithrombotic effects of dipyridamole, at least in this model, appear to be independent of prostacyclin.
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PMID:Mechanism of action of dipyridamole. 635 65

The synthesis of prostacyclin by human venous tissue in vitro and the effects of aspirin and dipyridamole thereon were investigated. Dipyridamole significantly stimulated prostacyclin production in a concentration range of 25 to 100 microM. Dipyridamole significantly attenuated the inhibitory effect of 0.1 mM aspirin in a concentration range of 12.5 to 100 microM. Isobutylmethylxanthine 0.1 mM, an unrelated inhibitor of phosphodiesterase, had similar effects to dipyridamole. Cyclic AMP 3.0 mM had an inhibitory effect on prostacyclin synthesis in the presence of dipyridamole. Adenosine 0.1 mM and nitrobenzylthioguanosine 0.1 mM, an inhibitor of adenosine uptake, did not significantly influence prostacyclin synthesis in this system. We conclude that the stimulation of prostacyclin synthesis by dipyridamole is unrelated to the ability of this drug to block the high-affinity uptake of adenosine by endothelial cells and that the effect may also be independent of changes in the concentration of cAMP induced by the drug.
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PMID:A study of the stimulation of human venous prostacyclin synthesis by dipyridamole. 675 83

The effects of some phosphodiesterase (PDE) inhibitors (dipyridamole, theophylline, papaverine and SH-869) on prostacyclin (PGI2) production have been studied in vitro and in vivo. PGI2 was bioassayed by Vane's superfusion technique. In rabbit aortic rings, only dipyridamole in concentrations from 1 to 12 microM was able to stimulate PGI2 biosynthesis in a dose-dependent manner. This effect was also detected with so-called "exhausted" rabbit aortic rings. The other PDE inhibitors used, both in microM and mM concentration, did not affect PGI2 biosynthesis. Dipyridamole was found to increase PGI2 production in healthy volunteers, when given both by infusion (8 micrograms/kg/min x 2h) and by oral administration (375 mg/day for seven days). Circulating PGI2 and PGI2 production induced by a 3-min period of ischaemia were increased by an average of 137% (p less than 0.001) and 30.8% (p less than 0.001) respectively. Saline and theophylline (as aminophylline) infusions used as controls did not affect PGI2 production.
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PMID:Enhanced prostacyclin production by dipyridamole in man. 703 26

The chronic administration of 10 mg/kg/day of dipyridamole to rats produced 33.7% inhibition of platelet aggregation induced with ADP and a 93% increase in 6-keto-prostaglandin F1 alpha (6-keto-PGF1 alpha) in vascular samples, versus saline-treated rats. Mopidamol, 8.3 mg/kg/day, caused 50.6% inhibition of ADP-induced platelet aggregation, 37.6% inhibition of aggregation induced with arachidonic acid, a 47.6% decrease in serum levels of thromboxane B2 and a 23.7% increase in the vascular production of 6-keto-PGF1 alpha, versus saline-treated rats. Dipyridamole showed a higher in vitro anti-aggregating effect in whole blood (IC50 6.6 microM) than in platelet-rich plasma (PRP) (IC50 210 microM), when ADP was used as inducer, and had no effect in the presence of arachidonic acid. Mopidamol exerted a similar effect in whole blood (IC50 3.7-20 microM, depending on the inducer) and PRP (IC50 11-17.3 microM), and showed a dose-dependent inhibition of platelet aggregation and thromboxane B2 synthesis induced with arachidonic acid (IC50 16.8-22.3 microM). Mopidamol also inhibited enzymatically induced lipid peroxidation) (IC50 89 +/- 5.9 mumol/L) and had no effect on free radical-induced lipid peroxidation. The dose-dependent increase in 6-keto-PGF1 alpha in vascular samples after incubation with dipyridamole showed a negative linear correlation with inhibition of lipid peroxidation (r2 = 0.77). It is concluded that the phosphodiesterase inhibitors, dipyridamole and mopidamol, interfere in a different manner with platelet function. It seems that mopidamol may also exert a selective effect on platelet thromboxane synthesis.
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PMID:Differential effects of the pyrimido-pyrimidine derivatives, dipyridamole and mopidamol, on platelet and vascular cyclooxygenase activity. 830 65

Cyclic nucleotide phosphodiesterases (PDEs) regulate intracellular levels of cAMP and cGMP by hydrolyzing them to their corresponding 5' monophosphates. We report here the cloning and characterization of a novel cAMP-specific PDE from mouse testis. This unique phosphodiesterase contains a catalytic domain that overall shares <40% sequence identity to the catalytic domain of all other known PDEs. Based on this limited homology, this new PDE clearly represents a previously unknown PDE gene family designated as PDE8. The cDNA for PDE8 is 3,678 nucleotides in length and is predicted to encode an 823 amino acid enzyme. The cDNA includes a full ORF as it contains an in-frame stop codon before the start methionine. PDE8 is specific for the hydrolysis of cAMP and has a Km of 0.15 microM. Most common PDE inhibitors are ineffective antagonists of PDE8, including the nonspecific PDE inhibitor 3-isobutyl-1-methylxanthine. Dipyridamole, however, an inhibitor that is generally considered to be relatively specific for the cGMP selective PDEs, does inhibit PDE8 with an IC50 of 4.5 microM. Tissue distribution studies of 22 different mouse tissues indicates that PDE8 has highest expression in testis, followed by eye, liver, skeletal muscle, heart, 7-day embryo, kidney, ovary, and brain in decreasing order. In situ hybridizations in testis, the tissue of highest expression, shows that PDE8 is expressed in the seminiferous epithelium in a stage-specific manner. Highest levels of expression are seen in stages 7-12, with little or no expression in stages 1-6.
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PMID:Cloning and characterization of a cAMP-specific cyclic nucleotide phosphodiesterase. 967 92

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