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

Numerous drugs and chemicals affect the function of human blood platelets. The mechanism of action of some medications is partly understood. Aspirin is the most frequently involved drug. It appears to interfere with the platelet release reaction by acetylation of a platelet membrane protein which may be involved in the synthesis of prostaglandins. Other anti-inflammatory drugs, including indomethacin, phenylbutazone, ibuprophen (Motrin) and clonixin, also interfere with the release reaction but have a shorter acting course than aspirin. Some drugs stimulate adenylcyclase (gliclazide) or block phosphodiesterase, (dipyridamole, caffeine) both of which actions lead to an increase in adenosine cyclic 3':5' monophosphate (cAMP) and decrease aggregation by adenosine diphosphate (ADP). These interactions should be known to clinical scientists since patients using these medicaments may manifest abnormal platelet function tests in the laboratory and mild hemorrhagic syndromes in the clinic.
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PMID:Effects of drugs on platelet function. 18 70

Human platelets generate diglyceride within 5 s of exposure to thrombin. Production of diglyceride is transient. 15 s after the addition of thrombin, the levels of diglyceride have increased up to 30-fold, but decrease thereafter. Prior incubation of platelets with 2 mM dibutyryl cyclic AMP prevents both the generation of diglyceride and the secretion of serotonin. Acetylsalicylic acid (100 microgram/ml), which completely inhibits prostaglandin endoperoxide synthesis, does not block diglyceride production and serotonin secretion induced by thrombin. Based on studies examining the incorporation of [3H]arachidonic acid into diglyceride of prelabeled platelets exposed to thrombin, it is concluded that neither phosphatidic acid nor triglyceride is the source of the diglyceride. Phosphatidylinositol appears to be the most likely source, both because its loss of radiolabel is sizable and rapid enough to account for the appearance of radiolabel in diglyceride, and because a phosphatidylinositol-specific phosphodiesterase, described in this report, exists in platelets. The phosphatidylinositol-phosphodiesterase, which produces diglyceride and inositol phosphate, requires Ca+2 and shows optimal activity at pH 7. The enzyme does not act upon phosphatidylcholine, phosphatidylethanolamine, or phosphatidylserine.
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PMID:Production of diglyceride from phosphatidylinositol in activated human platelets. 22 Feb 79

Because platelets are so important in thrombus formation, drugs which inhibit platelet function (the 'antiplatelet drugs') have considerable potential as antithrombotic agents. Among the antiplatelet drugs, only aspirin, sulphinpyrazone, dipyridamole, hydroxychloroquine, and clofibrate have had wide clinical trial. Their effects on platelet metabolism differ. Aspirin prevents platelet prostaglandin synthesis by acetylating and irreversibly inactivating platelet prostaglandin synthetase, while sulphinpyrazone is a reversible inhibitor of the same enzyme. Both aspirin and sulphinpyrazone impair the platelet release reaction and reduce platelet aggregation, but neither prevents platelet adhesion to the subendothelium or to foreign surfaces. On the other hand, dipyridamole reduces platelet adhesion as well as aggregation, probably by inhibiting phosphodiesterase and so raising platelet cyclic AMP levels. The effects of hydroxychloroquine and clofibrate have been less well defined. As the antiplatelet drugs form a diverse group of substances with differing effects on platelet function, it is hardly surprising that every potential clinical application of each antiplatelet drug or drug combination has had to be tested separately, and that these drugs have not proved to be equally effective. One or more antiplatelet drugs have now been evaluated in each of the following situations.
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PMID:Antiplatelet drugs: clinical pharmacology and therapeutic use. 39 30

Acetylsalicylic acid (ASA) and three structurally related benzoic acid derivatives, 2-acetylbenzoic acid (ABA), 3-methylphthalide (3-MP), and 3-hydroperoxy-3-methylphthalide (3-HMP), were tested for inhibitory effects on three human blood platelet cyclic nucleotide phosphodiesterase (PDE) activities. 3-MP caused a dose-dependent inhibition of the high and low affinity cyclic AMP PDE activities and the cyclic GMP PDE activity. 3-HMP had some inhibitory effects but only on the low affinity cyclic AMP PDE activity. ASA and ABA had no effects. This study shows that progressive structural changes in the ASA molecule can shift the pharmacological profile from a cyclooxygenase inhibitor (ASA) to an inactive compound (ABA) to a PDE inhibitor (3-MP) and back again to a cyclooxygenase inhibitor (3-HMP). It is proposed that the potent anti-inflammatory effects of 3-MP, which differ from those of ASA, are mediated through the inhibition of the cyclic nucleotide PDE system.
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PMID:Cyclic nucleotide phosphodiesterase inhibition by a benzoic acid derivative. 242 Jan 62

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

According to a pathogenetic concept originally presented by Moncada in 1977 a therapeutic combination of a low-dose cyclooxygenase inhibitor with a phosphodiesterase inhibitor might help in restoring a disturbed hemostatic balance, as thromboxane synthesis in the platelets should be inhibited to a greater extent than the prostacyclin synthesis of the endothelium. Therefore, we evaluated the influence of a therapeutic combination of cyclooxygenase inhibitors in different dosages (sulfinpyrazone, acetylsalicylic acid) with a phosphodiesterase inhibitor (dipyridamole) on platelet sensitivity and plasma factor in comparison to placebo treatment. We examined 76 males with peripheral vascular disease (PVD) stage IIa according to Fontaine in a double-blind randomized study over a 3 months period. Patients were divided into 4 groups and the different drugs were randomized as follows: I. 75 mg sulfinpyrazone and 75 mg dipyridamole, II. 150 mg ASA and 75 mg dipyridamole, III. 330 mg ASA and 75 mg dipyridamole, IV. placebo. Clinical symptoms as well as the plasma factor and the diminished platelet sensitivity to prostacyclin in patients with PVD remained unchanged throughout the whole observation period. Our findings suggest that no improvement in hemostatic dysregulation can be obtained by this combined treatment.
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PMID:Plasma factor and platelet sensitivity to prostacyclin in patients with peripheral vascular disease before and after treatment with a combination of a cyclooxygenase and a phosphodiesterase inhibitor. 643 32

The present study was designed to compare the effects of enoximone and R 80122, a highly selective phosphodiesterase (PDE) III inhibitor, on left ventricular hemodynamics and myocardial blood flow and metabolism in patients with coronary artery disease. Twenty male, anesthetized patients, ASA physical status III, were studied before they underwent coronary artery bypass grafting (CABG) surgery. They were allocated randomly to receive either 0.3 mg/kg R 80122 (Group 1) or 1 mg/kg enoximone (Group 2) intravenously (IV). All patients were taking maintenance doses of either beta-receptor antagonists or calcium-channel-blocking drugs and nitrates. After receiving flunitrazepam, 2 mg orally, anesthesia was induced with fentanyl, midazolam, and pancuronium IV. Following control measurements after the induction of anesthesia, the PDE III inhibitor was infused over 2 min and measurements were repeated 5, 30, and 60 min after drug administration. There were no external stimuli to the patients during any of the measurement periods. R 80122 and enoximone decreased mean arterial pressure (MAP) by 20% and systemic vascular resistance (SVR) by 36% and 38%, respectively, while cardiac index (CI) increased by 27% and 30%, respectively. There were increases in heart rate (HR) by 10% and 19%, respectively, and in contractility (dp/dtmax) by 18% and 38%, respectively. Coronary perfusion pressure (CPP) decreased by 23% and 22%, respectively, and coronary vascular resistance (CVR) by 38% and 21%, respectively. Myocardial blood flow (MBF) and myocardial oxygen uptake (MVO2) increased in both groups, the increase in MBF being statistically significant (+34%) only in Group 1, whereas the changes in myocardial metabolism were not significant in either group.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Effects of enoximone and R 80122, a new selective phosphodiesterase III inhibitor, on hemodynamics and myocardial energetics in patients with ischemic heart disease. 797 27

We have investigated the circulatory effects of halothane and isoflurane in the presence of the phosphodiesterase inhibitor, enoximone, in 20 patients, ASA class III, aged 40-70 yr, undergoing coronary artery bypass grafting. After induction of anaesthesia (midazolam, fentanyl, etomidate and pancuronium) all patients received enoximone 0.5 mg kg-1, followed, 10 min later, by either halothane 1 MAC (group I; n = 10) or isoflurane 1 MAC (group II; n = 10). Haemodynamic variables were measured and blood samples (arterial and mixed venous) were obtained before (control, t0), 5 (t1) and 10 (t2) min after the injection of enoximone and immediately (t3) and 5 (t4) min after steady state conditions with halothane or isoflurane, as verified by the end-expiratory concentration. Heart rate, mean arterial pressure (MAP), mean pulmonary artery pressure, pulmonary capillary wedge pressure and right atrial pressure were recorded. Cardiac (CI) and stroke volume indices, systemic (SVR) and pulmonary vascular resistance, oxygen availability (QO2), oxygen consumption and oxygen extraction rate were calculated using standard formulae. MAP decreased significantly in both groups after bolus injection of enoximone (group I: 11%; group II: 7%). Under steady state conditions with the volatile anaesthetics, a further significant decrease in MAP was observed (group I: 12%; group II: 12%). Enoximone produced a significant increase in CI (group I: 25%; group II: 27% compared with control). After administration of isoflurane, CI remained essentially unchanged, while halothane decreased CI significantly by 20%. In both groups, SVR decreased significantly after administration of enoximone (group I: 26%; group II: 24%).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Haemodynamic changes produced by inhalation anaesthetics in the presence of phosphodiesterase inhibition. 849 3

Anti-platelet drugs are used in clinical medicine to prevent thromboembolic complications of cardiovascular diseases. Among anti-platelet drugs, very little is known of their possible effects on megakaryocytes. ASA is the only compound for which it has clearly been demonstrated that its mechanism of action involves acetylation of the Ser 529 residue in cyclo-oxygenase in platelets and megakaryocytes. Because megakaryocytes possess membrane receptors for ADP, the thienopyridine metabolites of ticlopidine and clopidogrel may modify these receptors as in platelets and hence prevent ADP binding and further activation. Megakaryocytes also have GPIIb-IIIa receptors for the adhesive protein fibrinogen and may be accessible in vivo to GPIIb-IIIa antagonists such as the monoclonal antibody abciximab. Drugs such as heparin or the phosphodiesterase inhibitor anagrelide can either inhibit or stimulate megakaryocytopoiesis and platelet production, while cytokines such as thrombopoietin affect megakaryocytopoiesis, platelet production and platelet function by potentiating the activation of platelets by other agonists.
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PMID:Anti-platelet drugs: do they affect megakaryocytes? 915 21

Although antiplatelet therapy with a specific inhibitor of phosphodiesterase-3 cilostazol improves stent patency compared with use of aspirin (ASA) alone, the specific role of cilostazol on platelet aggregation in patients with acute myocardial infarction (AMI) is less well understood. Thirty-six patients with AMI who were successfully treated with primary angioplasty were randomized to 3 antiplatelet regimens: ASA alone (n = 12), ASA + ticlopidine (n = 12), and ASA + cilostazol (n = 12). We measured shear stress-induced platelet aggregation (SIPA) using a modified cone-plate viscometer on admission and on day 7, and evaluated the inhibitory effects of combination therapy with ASA + cilostazol on SIPA. Compared with cases of stable coronary artery disease, significant increases in SIPA and plasma von Willebrand factor activity were observed in patients with AMI before they received antiplatelet therapy. On day 7 after primary angioplasty, ASA did not inhibit SIPA (65 +/- 15% vs 57 +/- 11%, p = 0.086), whereas both combination therapies of ASA + ticlopidine and ASA + cilostazol significantly inhibited SIPA in patients with AMI (ASA + ticlopidine: 61 +/- 15% vs 45 +/- 13%, p <0. 0001; ASA + cilostazol: 64 +/- 14% vs 43 +/- 9%, p <0.005). There was a significant correlation of SIPA with adenosine diphosphate (ADP)-induced platelet aggregation (r = 0.412, p = 0.003) and with plasma von Willebrand factor activity (r = 0.461, p = 0.0008). These data suggest that patients with AMI have increased platelet aggregability in response to high shear stress. Combined antiplatelet therapy with ASA + cilostazol appears to be as effective as therapy with ASA + ticlopidine for reducing SIPA in patients with AMI who are undergoing primary angioplasty.
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PMID:Increased platelet aggregability in response to shear stress in acute myocardial infarction and its inhibition by combined therapy with aspirin and cilostazol after coronary intervention. 1078 51


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