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)

AMP and NaF each taken separately were shown to activate DNA polymerization catalyzed by Klenow fragment of DNA polymerase I by means of interaction of AMP or NaF with 3'----5'-exonuclease center of the enzyme. In the presence of NaF which is a selective inhibitor of 3'----5'-exonuclease center, AMP is an inhibitor of polymerization competitive with respect to dATP. Ki values and the pattern of inhibition with respect to dATP were determined for AMP, ADP, ATP, carboxymethylphosphonyl-5'-AMP, Pi, PPi, PPPi, methylenediphosphonic acid and its ethylated esters, phosphonoformic acid, phosphonoacetic acid and its ethylated esters as well as for some bicarbonic acids in the reactions of DNA polymerization catalyzed by Klenow fragment of DNA polymerase I (in the presence of NaF) and DNA polymerase alpha from human placenta in the presence of poly(dT) template and r(pA)10 primer. All nucleotides and their analogs were found to be capable of competing with dATP for the active center of the enzyme. Most of the analogs of PPi and phosphonoacetic acid are inhibitors of Klenow fragment competitive with respect to dATP. Nowever these analogs display a mixed-type inhibition in the case of human DNA polymerase alpha. We postulated a similar mechanism of interaction for dNTP with both DNA-polymerases. It is suggested that each phosphate group of PPi makes equal contribution to the interaction with DNA polymerases and that the distance between the phosphate groups is important for this interaction. beta-phosphate of NTP or dNTP is suggested to make negligible contribution to the efficiency of the formation of enzyme complexes with dNTP. beta-phosphate is likely to be an essential point of PPi interaction with the active center of proteins during the cleavage of the alpha-beta-phosphodiester bond of dNTP in the reaction of DNA polymerization.
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PMID:[Interaction of dNTP-binding sites of human DNA polymerase alpha and The Klenow fragment of Escherichia coli DNA polymerase I with nucleotides, pyrophosphate and their analogs]. 216 89

Previous studies have suggested that the platelet glycoprotein complex GPIIb-IIIa, which is the putative fibrinogen receptor, regulates Ca2+ influx into platelets, possibly operating as a Ca2+ channel. We have used RGD-peptides (peptides containing the sequence Arg-Gly-Asp; disintegrins), isolated from snake venoms, that have a high affinity and specificity for the fibrinogen-binding site of GPIIb-IIIa to address the question of whether blocking this site inhibits Ca2+ movement from the extracellular medium to the cytosol. Using fura-2-loaded human platelets, we found that neither disintegrins nor a monoclonal antibody (M148) to the GPIIb-IIIa complex altered the level of cytosolic Ca2+ obtained when the cells were stimulated with various agonists in the presence of either nominal or 1 mM extracellular Ca2+. In the presence of Mn2+, an ion that quenches fura-2 fluorescence, fura-2-loaded platelets were stimulated with thrombin or ADP. Neither disintegrins nor the monoclonal antibody altered the kinetics or the amount of quenching of fura-2 fluorescence by Mn2+. These data indicate that the binding of ligands to the fibrinogen receptor is not associated with an inhibition of Ca2+ movement through a receptor-operated channel. Furthermore, the disintegrins have no effect on platelet cyclic AMP metabolism in either the presence or the absence of phosphodiesterase inhibitors.
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PMID:Ligands to the platelet fibrinogen receptor glycoprotein IIb-IIIa do not affect agonist-induced second messengers Ca2+ or cyclic AMP. 216

Studies conducted in our laboratory have demonstrated that activated immune cells produce a soluble inhibitor(s) of cardiac myocyte contractile and cyclic AMP (cAMP) responses to beta-adrenergic stimulation. To examine the mechanism of this effect, metabolic assays were conducted on cultured rat cardiac myocytes incubated in the presence and absence of supernatants harvested from rat activated splenocyte cultures. Intracellular cAMP accumulation in response to isoproterenol was inhibited by up to 74% in a dose-dependent fashion by conditioned media containing soluble cytokines from activated immune cells. By use of myocyte cultures in which contaminating nonmyocyte proliferation was inhibited by nonlethal irradiation, this phenomenon was shown to be independent of mitogenic effects. Isobutylmethylxanthine, a phosphodiesterase inhibitor, did not ablate cytokine-induced inhibition of cAMP accumulation. Parameters of beta-adrenergic receptor binding and affinity were also unaffected. cAMP suppression was maintained after cholera toxin stimulation of cAMP production via stimulatory G protein ADP-ribosylation. cAMP inhibition was not apparent when cells were stimulated with forskolin, a direct adenylate cyclase activator. Importantly, pertussis toxin treatment significantly ablated cytokine-induced cAMP inhibition. Thus, interference with agonist-occupied beta-adrenergic receptor coupling to adenylate cyclase to produce cAMP and subsequent contractile responses is induced by a factor(s) elaborated by activated immune cells. This interference occurs at the level of signal transduction across the membrane, can be overridden by pertussis toxin, and may involve changes in the coupling of the stimulatory/inhibitory G proteins to adenylate cyclase. These results demonstrate a novel mechanism of cytokine-induced myocyte dysfunction and may have important pathophysiological ramifications in immune-mediated myocardial diseases.
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PMID:Mechanism of cytokine inhibition of beta-adrenergic agonist stimulation of cyclic AMP in rat cardiac myocytes. Impairment of signal transduction. 216 17

Octimibate inhibited ADP- and collagen-induced platelet aggregation in human, rabbit and rat platelet-rich plasma. Washed human platelets treated with octimibate had elevated cyclic AMP (cAMP) levels and cAMP-dependent protein kinase activity. When whole platelets were incubated with radiolabeled phosphate, octimibate produced an increase in the phosphorylation of platelet proteins with relative molecular weights of 22, 26, 50 and 80 kilodaltons. This pattern of protein phosphorylation is identical to that observed when the platelets were treated with forskolin, phosphodiesterase inhibitors or other compounds that elevate platelet cAMP levels. Octimibate also inhibited the rise in intracellular Ca++ caused by thrombin, as measured using Fura-2-loaded platelets, which is consistent with octimibate's ability to elevate platelet cAMP levels. When isolated platelet plasma membranes were treated with octimibate, adenylate cyclase activity was stimulated, reaching maximal activation at 1 microM octimibate. (The maximal activation of adenylate cyclase observed with octimibate is 70-75% of that observed with 10 microM PGE1.) This stimulation of platelet adenylate cyclase activity was enhanced by GTP. Octimibate competed for radiolabeled prostaglandin E1 and lloprost binding to isolated platelet membranes at submicromolar concentrations, but did not compete with radiolabeled prostaglandin D2 binding. These studies suggest that octimibate inhibits platelet aggregation by activating platelet adenylate cyclase through stimulation of platelet prostacyclin receptors.
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PMID:Octimibate inhibition of platelet aggregation: stimulation of adenylate cyclase through prostacyclin receptor activation. 217 92

The inhibitors of the cGMP-inhibited, low-Km cAMP phosphodiesterase--milrinone and OPC 3911--and an inhibitor of a non-cGMP-inhibited low-Km cAMP phosphodiesterase--rolipram--were used to evaluate the functional importance of the two cAMP phosphodiesterase activities in vascular smooth muscle and in platelets. Vinpocetine, an inhibitor of a calcium-calmodulin-dependent phosphodiesterase was also studied. OPC 3911 and milrinone relaxed the contracted rat aorta, inhibited ADP-induced platelet aggregation and also enhanced isoprenaline-induced relaxation as well as the antiaggregatory effects of adenosine. In platelets, OPC 3911 and milrinone increased cAMP levels, but in the rat aorta the increase was significant only for milrinone (OPC 3911 P = 0.062). In both tissues OPC 3911 and milrinone enhanced the increase in cAMP caused by activators of adenylate cyclase (isoprenaline/adenosine). Rolipram had no effects on aggregation or cAMP levels in platelets and no overadditive effects in combination with adenosine. Rolipram had little effect on relaxation and cAMP levels, did not alter isoprenaline-induced relaxation of guanfacin-contracted rat aorta, but showed synergistic effects with isoprenaline in raising cAMP levels. In PGF2 alpha-contracted aorta rolipram enhanced relaxation caused by isoprenaline. Vinpocetine had a relaxant effect without affecting cAMP levels, but had no effect on platelets. These results support the concept that the cGMP-inhibited phosphodiesterase is an important modulator of vascular smooth muscle tone and platelet function. The role of the non-cGMP-inhibited phosphodiesterase in these tissues is less obvious.
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PMID:Effects of isozyme-selective phosphodiesterase inhibitors on rat aorta and human platelets: smooth muscle tone, platelet aggregation and cAMP levels. 217 33

The 3',5'-exonuclease center of the Klenow fragment of E. coli DNA polymerase I (FK) was selectively blocked by NaF. The latter was shown to forbid the binding of nucleotides and their analogs to the enzyme exonuclease center. In the presence of poly(dT).r(pA)10 template.primer complex and NaF, we observed AMP, ADP, ATP, PPi and dATP to be competitive inhibitors of the FK-catalyzed DNA polymerization. The interactions of the nucleotides with FK and human DNA polymerase alpha were compared to reveal similarity of binding to the DNA polymerizing centers. Structural components of dNTP and PPi playing key roles in forming complexes with pro- and eukaryotic DNA polymerases were identified.
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PMID:Interaction of dNTP, pyrophosphate and their analogs with the dNTP-binding sites of E. coli DNA polymerase I Klenow fragment and human DNA polymerase alpha. 217 14

Lowering blood pressure is not totally effective in preventing the atherosclerotic complications of systemic hypertension. In hypertensive patients both platelet hyperaggregation and dyslipidemia have been suggested as important risk factors. The effect of 8 weeks' treatment with ketanserin on blood pressure, serum lipid parameters (cholesterol, triglycerides, LDL, HDL-C, apolipoprotein A1 and B) and platelet aggregation, induced by collagen, ADP, arachidonic acid, was evaluated in 10 patients with essential hypertension. Ketanserin was effective in lowering blood pressure in all patients, 6 of whom became normotensive. Both CHOL and TG levels and APO B were significantly reduced, whereas HDL-C and APO A1 were significantly increased after treatment. These results might be attributed to the antagonistic activity of ketanserin on alpha-1 adrenoceptors with a consequent inhibition of phosphodiesterase. Platelet aggregation, after stimulation with collagen and arachidonic acid, was significantly reduced secondary to the inhibition of intraplatelet serotonin synthesis and release. These results suggest that keranserin is effective in reducing blood pressure and in achieving normal serum lipid pattern and platelet aggregation. Therefore, this drug might be helpful in controlling the main risk factors for cardiovascular damage.
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PMID:Effects of ketanserin administration on lipid metabolism and platelet aggregation in hypertensive patients. 227 4

The phenylpropanoid glycosides 1 (4-cinamoylmussatioside), 2 (4-dimethylcaffeoylmussatioside), and 3 (4-p-methoxycinnamoylmussatioside) isolated from the methanolic extract of Mussatia sp. showed inhibitory action on ADP-induced rat platelet aggregation. The order of activity was 1 greater than 2 greater than 3. This antiplatelet effect is likely to be related to the reported inhibition of cAMP-phosphodiesterase. On the other hand, compounds 1-3 had no effect on blood pressure and heart rate, on microbial growth, or on prostaglandin biosynthesis.
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PMID:Pharmacological effects of three phenylpropanoid glycosides from Mussatia. 235 39

The adenylate-cyclase activator forskolin, the guanylate-cyclase stimulator sodium nitroprusside, the phosphodiesterase inhibitor Ro 15-2041, different Ca-entry blockers, as well as various vasodilators, and the atrial natriuretic peptide were tested for antiplatelet activity. Thrombin, vasopressin, ADP, arachidonic acid, and the dihydropyridine Ca agonist CGP 28392 were used as platelet activators. The physiological and biochemical parameters of platelet function studied included shape-change reaction, intracellular free-Ca modulation, and cyclic nucleotide formation. When inhibition of the shape-change response occurred, it was accompanied by inhibition of the increase in intracellular free Ca. Furthermore, the results suggest a possible intracellular site of action of Ca entry blockers in platelets, and confirm the importance of modulation of cyclic nucleotides in the regulation of platelet function, regardless of the mechanism of platelet activation. Additional antiplatelet activity of antihypertensive agents may have a beneficial effect in reducing the associated risk of thrombo-embolic complications in essential hypertension.
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PMID:Vasodilating agents and platelet function: intracellular free calcium concentration, cyclic nucleotides, and shape-change response. 243 9

Addition of epinephrine to cultured FRTL-5 rat thyroid cells led to a concentration-dependent reduction of TSH- and forskolin-stimulated cAMP accumulation. Clonidine, which preferentially activates the alpha 2-adrenoreceptor, had no effect on cAMP levels. The reduction of cAMP levels by epinephrine was selectively blocked by prazosin, an alpha 1-adrenoreceptor antagonist, but not by yohimbine, an alpha 2-adrenoreceptor antagonist. Pretreatment of FRTL-5 cells with pertussis toxin failed to abolish the inhibitory effect of epinephrine on cAMP accumulation. The bioactivity of the pertussis toxin preparation in this cell line was verified by its ability to ADP-ribosylate the alpha-subunit of the inhibitory guanine nucleotide regulatory protein, Ni, as well as its ability to abolish the inhibitory effect of N6-[L-2-phenylisopropyl]-adenosine on TSH-stimulated cAMP formation. The inhibitory effect of epinephrine on cAMP levels was dependent on Ca2+ and was reversed by 3-isobutyl-1-methylxanthine. Taken together, these results suggest that epinephrine reduces cAMP levels via alpha 1-adrenoreceptors. The failure of pertussis toxin to abolish this alpha-adrenergic effect is consistent with the conclusion that epinephrine-induced attenuation of cAMP accumulation occurs through activation of a Ca2+-calmodulin-sensitive phosphodiesterase and does not involve Ni or Ni-like proteins.
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PMID:Alpha 1-adrenergic regulation of TSH-stimulated cyclic AMP accumulation in rat thyroid cells. 243 27


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