Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

Field electrical stimulation (ES), K+ (50 mM) or ionophore X-537A (0.01 mM) induced tritium release from cat cerebral arteries preincubated with [3H]noradrenaline (NA). Adenosine and AMP (0.5 mM) did not modify tritium release caused by ionophore X-537A, but these agents and ATP (0.5 mM) significantly reduced that elicited by ES and K+; this reduction was antagonized by 1-methyl-3-isobutylxanthine (MIX; 0.05 mM). Inosine (0.5 mM) and the agonist of purinergic A2-receptors, 5'N-ethyl-carboxamide adenosine (NECA; 0.5 mM) had no effect, but the agonist of purinergic A2-receptors L-N6-phenylisopropyl adenosine (L-PIA; 0.1 mM) diminished tritium efflux caused by ES and K+. The adenosine inhibition of ES-induced radioactivity release was not affected by indomethacin (0.05 mM). MIX (0.05 mM) increased tritium release evoked by ES and K+. Agents that increase intracellular cyclic (c)AMP levels, such as dibutyryl cAMP (0.5 mM), the phosphodiesterase inhibitor Ro 20-1724 (0.1 mM), and the activators of adenylate cyclase, forskolin (0.005 mM) and NaF (2 mM) reduced tritium secretion elicited by ES and K+. However, the intracellular increase of cyclic GMP (cGMP) caused by 8-Br-cGMP did not affect this secretion. Dipyridamole (0.05 mM) and the adenosine deaminase inhibitor erythro-9-2-hydroxy-3 nonyl adenosine (EHNA; 0.1 mM) also produced inhibition of tritium secretion elicited by ES and K+. Dipyridamole reduced both the uptake of [3H]NA and [3H]adenosine.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Role of presynaptic purinoceptors and cyclic AMP on the noradrenaline release in cat cerebral arteries. 198 Feb 88

Mouse trophoblast cells are constitutive producers of the thromboplastin apoprotein in vitro. The effects on thromboplastin activity of the three transmethylation inhibitors 3-deazaadenosine (DZA), 3-deazaaristeromycin (DZAri) and erythro-9-(2-hydroxy-3-nonyl) adenine (EHNA), the four calcium antagonists TMB-8, verapamil, nifedipine and felodipine, the prostaglandin E2 (PGE2), the phosphodiesterase inhibitor 1-methyl 3-isobutylxanthine (MIX) and monensin have been studied. No cytotoxic effects were detected when trypan blue exclusion, release of lactic dehydrogenase, incorporation of 14C-leucine into protein and cell morphology were monitored. TMB-8, felodipine, nifedipine and verapamil all abolished the increase in thromboplastin when added after 68 hr or 90-96 hr in culture. EHNA and DZAri had the same effect (but were only added at 90-96 hr). DZA had a similar effect when added at 68 hr and an even more marked inhibitory effect when added at 90-96 hr. Monensin prevented the increase in thromboplastin activity at 68 hr as well as at 90-96 hr. The combination of DZA and 1-homocysteine thiolactone (Hcy) further increased the inhibition, indicating that in these cases synthesis as well as degradation of thromboplastin were altered. The combination of DZA/Hcy and one of the four calcium antagonists gave no additional inhibitory effect. PGE2 had a biphasic dose-dependent effect. The increased thromboplastin activity at low concentrations of PGE2 (10 ng/ml) was inhibited by addition of one of the compounds verapamil, felodipine, nifedipine or DZA/Hcy. PGE2 at higher levels (10 micrograms/ml) significantly inhibited thromboplastin synthesis. Combination of PGE2 (10 micrograms/ml) and one of the calcium antagonists, DZA/Hcy or MIX gave no significant additive inhibitory effect.
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PMID:Effect of some drugs on thromboplastin activity in mouse trophoblast cells in vitro and in vivo. 242 64

Cyclic nucleotide phosphodiesterases were measured in mouse spleen and thymus lymphocyte membranes and soluble fractions and in extracts of canine tracheal smooth muscle. The immunostimulant erythro-9(2-hydroxy,3-nonyl) hypoxanthine (NPT 15392) was found to be a potent and relatively selective inhibitor of mouse lymphocyte cyclic GMP phosphodiesterase, with IC50 values 15-180 times greater for cyclic AMP than cyclic GMP phosphodiesterases. The greatest inhibition by NPT 15392 was found using 10 microM substrate, and inhibition was greater in membrane than soluble forms of phosphodiesterase. Spleen soluble enzymes were separated by DEAE Bio-Gel A column into six peaks. A major form of cyclic GMP phosphodiesterase was inhibited effectively by NPT 15392 in a competitive manner (Ki = 50 microM). Cyclic AMP phosphodiesterase activity in the same fraction, but representing only a fifth of the total activity, was also inhibited (Ki = 70 microM). Other soluble enzymes were not affected significantly. Membrane bound enzymes were solubilized and separated into three peaks. One with high affinity for cyclic GMP was strongly inhibited (Ki = 10 microM) by NPT 15392. Inosine and isoprinosine were one-tenth to one-hundredth as effective as NPT 15392 as cyclic nucleotide phosphodiesterase inhibitors. Incubation of mouse splenic lymphocytes with NPT 15392 for 48 hr resulted in enzymes with altered responsiveness to the drug in broken cell assays: inhibition of cyclic GMP hydrolysis was enhanced while that of cyclic AMP hydrolysis was decreased. Among three separated and characterized forms of tracheal smooth muscle phosphodiesterase, NPT 15392 inhibited the low Km cyclic GMP phosphodiesterase 6-10 times more effectively than the other enzymes. These data suggest that the immunopharmacologic activities of NPT 15392 may include specific cyclic GMP phosphodiesterase inhibition as one of several possible mechanisms.
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PMID:Selective inhibition by NPT 15392 of lymphocyte cyclic GMP phosphodiesterase. 609 11

Previous work in our laboratory led us to postulate that N2a cells release adenosine into growth medium, where it acts at the extracellular adenosine receptors to modulate the sensitivity of the cells to the cyclic AMP-elevating effect of adenosine [Green, RD, J Pharmacol Exp Ther 201:610, 1977]. We have now devised a high-performance liquid chromatographic (HPLC) procedure capable of quantitating the concentrations of adenosine in cells and tissue culture media. Growth media of N2a cells and a variant of N2a cells deficient in hypoxanthine-guanine phosphoribosyltransferase (HGPRT-) contain 10-20 nM adenosine, while that of a variant deficient in adenosine kinase (AK-) is elevated severalfold. It appears that the concentration of adenosine in growth media is determined by both the rate at which it is released by cells into the medium and the rate at which it is metabolized by adenosine deaminase present in the serum in the growth medium. Both N2a and AK- cells release considerable amounts of adenosine into serum-free medium (SFM) over a short period. Adenosine release is greater from AK- cells and is accelerated by erythro-9-(2-hydroxy-3-nonyl)-adenine (EHNA), a potent adenosine deaminase inhibitor. This accelerated release is retarded by dipyridamole and homocysteine. Surprisingly, dipyridamole and 4-(3-butoxy-4-methoxybenzyl)-2-imidazolidinone (Ro 20 1724), a potent phosphodiesterase inhibitor, stimulate basal adenosine release from N2a but not from AK- cells. It remains to be determined if this is due to an effect of these compounds on adenosine kinase. These results give further support for the hypothesis that adenosine in growth medium modulates the sensitivity of the cells to the cyclic AMP-elevating affect of adenosine, and furthermore they suggest that adenosine in growth media may tonically stimulate adenylate cyclase and affect processes controlled by the cyclic AMP:cyclic AMP-dependent protein kinase system.
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PMID:Release of adenosine by C1300 neuroblastoma cells in tissue culture. 626 30

The adenosine deaminase (ADA) inhibitor erythro-9-(2-hydroxy-3-nonyl)adenine (EHNA), at low concentrations (less than 10 microM), enhances the inhibitory activity of adenosine against lymphocyte-mediated cytolysis (LMC) without itself being inhibitory. At higher concentrations, EHNA alone is inhibitory to LMC with an IC50 of 160 microM. This inhibition is reversible upon washout, appears to affect an early stage of the lytic process, and does not appear to involve changes in basal levels of cyclic AMP (cAMP), ribonucleoside 5'-triphosphate pool sizes, S-adenosylhomocysteine levels, or protein carboxymethylation. EHNA does enhance the cAMP response of cytolytic lymphocytes (CL) to activators of adenylate cyclase such as prostaglandin E1. EHNA inhibits lymphocyte high-affinity cAMP phosphodiesterase at immunosuppressive levels, exhibiting hyperbolic mixed-type inhibition (Ki = 83 microM, alpha = 0.47, beta = 0.18). Whereas inhibition of intralymphocytic ADA is complete at low concentrations (less than 25 microM) of EHNA, inhibition of LMC and intralymphocytic cAMP phosphodiesterase increases linearly with EHNA concentration to at least 200 microM. The presence of 200 microM EHNA during the centrifugation of mixtures of CL and EL4 leukemia target cells leads to increased CL cAMP levels. 2'-Deoxycoformycin, a more potent ADA inhibitor than EHNA, is not inhibitory to LMC and shows none of these cAMP-related effects. These results suggest that CL-target cell contact stimulates adenylate cyclase in the CL and that EHNA inhibits LMC due to its enhancement of this target cell-stimulated elevation of cAMP.
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PMID:Inhibition of lymphocyte-mediated cytolysis and cyclic AMP phosphodiesterase by erythro-9-(2-hydroxy-3-nonyl)adenine. 629 34

Recently, an inhibitor of adenosine deaminase, erythro-9-(2-hydroxyl-3-nonyl)adenine (EHNA), was shown to selectively block the activity of purified cGMP-stimulated phosphodiesterase (PDE) (cGS-PDE, or PDE2) in human and porcine heart [J. Mol. Cell. Cardiol. 24 (Suppl. V):102 (1992)]. Because cGS-PDE was found to mediate the cGMP-induced inhibition of L-type Ca2+ current (Ica) in frog ventricular cells, we tested the effects of EHNA in this preparation. Ica was measured using the whole-cell patch-clamp technique and a perfusing pipette. EHNA (0.3-30 microM) had no significant effect on either basal Ica or isoprenaline (1 nM)- or cAMP (10 microM)-elevated Ica. However, EHNA dose-dependently (IC50 approximately 3 microM) reversed the inhibitory effect of cGMP on cAMP-stimulated Ica. EHNA (30 microM) also blocked the inhibitory effect of NO donors, such as sodium nitroprusside (1 mM) and 3-morpholinosydnonimine (30 microM), on isoprenaline-stimulated Ica. In addition, EHNA dose-dependently (IC50 approximately 4-5 microM) inhibited the cGMP-induced stimulation of PDE activity in frog ventricle particulate fraction, as well as purified soluble cGS-PDE. However, EHNA (up to 30 microM) did not modify the activities of three other purified soluble PDE isoforms. Moreover, EHNA did not change the Ka (40 nM) for cGMP activation of cGS-PDE, which suggests that EHNA does not inhibit cGS-PDE by displacing cGMP from the allosteric regulator site. Because adenosine did not mimic the effects of EHNA on Ica or PDE activity, it is unlikely that the effects of EHNA are due to adenosine deaminase inhibition. We conclude that EHNA acts primarily to inhibit cGS-PDE in intact cardiac myocytes. This compound should be useful in evaluating the physiological role of cGS-PDE in various tissues.
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PMID:Erythro-9-(2-hydroxy-3-nonyl)adenine inhibits cyclic GMP-stimulated phosphodiesterase in isolated cardiac myocytes. 762 66

We characterized cyclic nucleotide phosphodiesterases isolated from rat mesangial cells and assessed their roles in regulating cellular cyclic nucleotide levels. Three peaks of phosphodiesterase activity were eluted by a linear sodium acetate gradient from a Q Sepharose column loaded with the mesangial cell extract. The first peak activity was stimulated by Ca(2+)-calmodulin and inhibited by calmodulin-stimulated phosphodiesterase inhibitors but not by a selective cGMP specific phosphodiesterase V inhibitor. The second, minor activity peak was stimulated by cyclic GMP and inhibited by EHNA [erythro-9-(2-hydroxy-3-nonyl)-adenine], a selective inhibitor of cyclic GMP-stimulated phosphodiesterase II. The last peak activity was not inhibited by cyclic GMP but selectively inhibited by rolipram [4-(3-cyclopentyloxy-4-methoxyphenyl)-2-pyrrolidene] or Ro 20-1724 [4-(3-butoxy-4-methoxybenzyl)-2-imidazolidinone], inhibitors of cyclic AMP specific, cyclic GMP insensitive phosphodiesterase IV. Based on their order of chromatographic elution, kinetic properties and sensitivity to allosteric agents and inhibitors, the peak 1, 2 and 3 correspond to phosphodiesterase I, II and IV. The basal cyclic GMP level was raised more effectively by selective inhibitor of phosphodiesterase I than phosphodiesterase II. In contrast, the atrial natriuretic factor-induced cyclic GMP elevation was potentiated more effectively by selective inhibitors of phosphodiesterase II than phosphodiesterase I. The forskolin-induced cyclic AMP increase was greatly potentiated by selective phosphodiesterase IV inhibitors but not by other phosphodiesterase inhibitors. These data suggest that phosphodiesterase I and II are responsible for cyclic GMP hydrolysis whereas phosphodiesterase IV is mainly responsible for cyclic AMP hydrolysis.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Cyclic nucleotide phosphodiesterase isozymes in rat mesangial cells. 778 11

Erythro-9-(2-hydroxy-3-nonyl) adenine (EHNA), a potential inhibitor of adenosine deaminase (ADA), was tested as an inhibitor of the soluble cyclic nucleotide phosphodiesterase (PDE) isoenzymes from pig and human myocardium. Four soluble PDE activities were resolved from human papillary muscle extracts using anion exchange chromatography (DEAE Sepharose CL-6B). These activities were designated PDE I-IV according to the nomenclature of Beavo. PDE I was stimulated by Ca(2+)-calmodulin and PDE II by cGMP (1 microM). PDE III was inhibited by cGMP (1 microM) as well as SK&F 94120, and PDE IV by both rolipram and Ro 20-1724. Enzyme kinetics and inhibition constants were similar with the PDE isoenzymes from pig heart. However, porcine myocardium lacked Ca(2+)-calmodulin-stimulated soluble PDE I activity. The present data reveal that EHNA exerted a concentration-dependent inhibition of the cGMP-stimulated PDE II (cGs-PDE) (IC50: 0.8 microM (human), 2 microM (pig)) but did not inhibit the other PDE isoenzymes (IC50 > 100 microM). These findings indicate that EHNA is a potent and, as far as cytosolic PDEs are concerned, selective inhibitor of cGMP-stimulated PDEs. The compound may lend itself for the rational design of other isozyme selective PDE II inhibitors and for examining the specific biological functions of cGs-PDEs. EHNA may be used in systems in which inhibition of ADA is of no concern. Conversely, dual inhibition of both ADA and cGs-PDE by EHNA may cause accumulation of two inhibitory metabolites, adenosine and cGMP, which may act in synergy to mediate diverse pharmacological responses, including antiviral, antitumour and antiarrhythmic effects.
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PMID:Isozyme selective inhibition of cGMP-stimulated cyclic nucleotide phosphodiesterases by erythro-9-(2-hydroxy-3-nonyl) adenine. 851 2

Several endogenous factors generated within the vessel wall have been implicated in contributing to the vascular remodeling process associated with hypertension and atherosclerosis. Furthermore, substances generated by smooth muscle cells (SMCs) are known to regulate SMC proliferation in an autocrine fashion. Adenosine is a vasodilator synthesized by SMCs, and exogenous adenosine inhibits SMC proliferation. However, whether adenosine produced endogenously has antimitogenic effects is not known. Hence, we evaluated the effects of SMC-derived adenosine on 2.5% fetal calf serum-induced proliferation of rat aortic SMCs. SMC proliferation was assayed by measurement of DNA synthesis ([3H]thymidine incorporation) and cell counting. To determine the effects of endogenous adenosine on SMC proliferation, we stimulated growth-arrested SMCs with 2.5% fetal calf serum in the presence and absence of modulators of adenosine levels, including (1) erythro-9-(2-hydroxy-3-nonyl)adenine hydrochloride (EHNA; inhibits adenosine deaminase), (2) dipyridamole (blocks adenosine transport and inhibits phosphodiesterase), (3) dipyridamole plus EHNA, and (4) adenosine with or without EHNA. [3H]Thymidine incorporation and cell number were measured after 24 and 96 hours, respectively. EHNA and dipyridamole inhibited both FCS-induced DNA synthesis and cell proliferation in a concentration-dependent manner. Furthermore, extracellular (in medium) adenosine levels were significantly increased when cultured cells were treated with EHNA, and the inhibitory effects of dipyridamole as well as exogenous adenosine were enhanced in the presence of EHNA. Additionally, the inhibitory effects of dipyridamole and EHNA on DNA synthesis were significantly reduced in the presence of KF17837, an A2 adenosine receptor antagonist. These results indicate that SMC-derived adenosine can inhibit SMC proliferation. Hence, it is possible that a defect in localized adenosine synthesis within the vessel wall could contribute to vascular thickening and neointima formation.
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PMID:Smooth muscle cell-derived adenosine inhibits cell growth. 861 38

Erythro-9-(2-hydroxy-3-nonyl)adenine (EHNA) was shown to reverse the hypoxic pressor response (HPR) in the isolated, blood-perfused rat lung model. EHNA, an adenosine deaminase inhibitor, showed reversal of the HPR in a dose-dependent manner (EC50 = 129 +/- 30 microM). We found that the reversal of HPR by EHNA was not mediated by the adenosine receptors because the EHNA effect was not blocked by the adenosine receptor antagonist, 8-p-sulfophenyl-theophylline (67 microM; n = 6). Pretreatment with a cy-clic-3',5'-adenosine monophosphate (cAMP)-dependent protein kinase inhibitor, Rp-adenosine-3',5'-cyclic monophosphorothioate (0.5 mM; n = 4), blocked EHNA reversal of the HPR. As an alternative mechanism of action, EHNA inhibition of cyclic nucleotide phosphodiesterase(s) isozymes was studied in endothelium intact and denuded pulmonary arteries. Using anion-exchange chromatography the cyclic nucleotide phosphodiesterase (PDE) separated into predominantly PDE families 2 and a mixture of 3 and 4. DEAE fractions showing cAMP hydrolysis activated by 5 microM cyclic-3',5'-guanosine monophosphate (cGMP) had a Km for cAMP of 6.3 microM and an apparent Kact for cGMP of 1.4 microM. EHNA was shown to inhibit PDE2 competitively. In intact vessels, the IC50 for EHNA was 3.3 microM using 0.03 microM [3H]-cAMP substrate assayed in the presence of 2 microM cGMP and in denuded vessels 3.7 microM at 0.03 microM [3H]-cAMP substrate in the presence of 5 microM cGMP. Fractions in which cAMP hydrolysis was inhibited or not affected by 5 microM cGMP (PDE3 and 4, respectively) showed an IC50 of > 200 microM for EHNA. We conclude that reversal of the hypoxic pressor response by EHNA in the isolated, perfused rat lung model occurs with a mechanism involving in part inhibition of smooth muscle PDE2.
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PMID:Erythro-9-(2-hydroxy-3-nonyl)adenine inhibits cyclic-3',5'-guanosine monophosphate-stimulated phosphodiesterase to reverse hypoxic pulmonary vasoconstriction in the perfused rat lung. 863 46


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