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)

The effect on cyclic AMP levels and bone resorption by two methylxanthine cyclic AMP phosphodiesterase (PDE) inhibitors, isobutyl-methylxanthine (IBMX) and theophylline, and two non-xanthine PDE inhibitors, Ro 20-1724 and rolipram, was studied in cultured mouse calvarial bones. Cyclic AMP accumulation in calvarial bones increased when Ro 20-1724 (0.1 mmol/l) or rolipram (30 mumol/l) was present in culture medium in 2 h incubations, and when IBMX (0.3 mmol/l) or theophylline (3 mmol/l) was present in 4 h incubations. The cyclic AMP response to PDE-inhibitors could be completely abolished by the cyclooxygenase-inhibitor indomethacin (1 mumol/l). In 120 h cultures, IBMX, theophylline, Ro 20-1724 and rolipram stimulated the release of 45Ca from calvarial bones prelabelled in vivo with 45Ca. This stimulatory effect could not be seen when the endogenous production of prostaglandins was reduced by adding indomethacin (1 mumol/l), hydrocortisone (1 mumol/l) or meclofenamic acid (1 mumol/l) to culture medium. These concentrations of indomethacin, hydrocortisone and meclofenamic acid did not reduce PTH- (10 nmol/l) or choleratoxin-stimulated (0.1 micrograms/ml) 45Ca release from mouse calvarial bones cultured for 120 h. The stimulation of 45Ca release in long-term cultures by the PDE inhibitors could be demonstrated in the presence of indomethacin, provided adenylate cyclase was stimulated by forskolin (1-10 nmol/l). The stimulatory effect of 1 alpha (OH)D3 on 45Ca release could not be potentiated by the PDE-inhibitor rolipram. These results suggest that basal adenylate cyclase activity in cultured murine calvaria is very low and that therefore PDE inhibitors are inactive unless a stimulator of adenylate cyclase is present. The adenylate cyclase stimulator may be an endogenous autacoid such as a prostaglandin.
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PMID:Delayed stimulation of bone resorption in vitro by phosphodiesterase inhibitors requires the presence of adenylate cyclase stimulation. 246 48

1. Denbufylline has been examined for its ability to inhibit cyclic nucleotide phosphodiesterase isoenzymes from rat cardiac ventricle and cerebrum, as well as for its affinity for adenosine A1 and A2 receptors and the re-uptake site. For comparison, SK&F 94120, theophylline and 3-isobutyl-1-methyl-xanthine (IBMX) were examined as phosphodiesterase inhibitors whilst N6-cyclohexyladenosine, R(-)-N6-(2-phenylisopropyl)-adenosine, 5'-N-ethylcarboxamido-adenosine, 2-nitrobenzylthioinosine, theophylline and IBMX were examined for their affinity for adenosine binding sites. 2. This investigation confirmed the presence of four phosphodiesterase activities in rat cardiac ventricle; in rat cerebrum only three were present. 3. Denbufylline selective inhibited one form of Ca2+-independent, low Km cyclic AMP phosphodiesterase. The form inhibited was one of two present in cardiac ventricle and the sole one in cerebrum. This form was not inhibited by cyclic GMP. The inotropic agent SK&F 94120 selectively inhibited the form of cyclic AMP phosphodiesterase which was inhibited by cyclic GMP present in cardiac ventricle. Theophylline and IBMX were relatively non-selective phosphodiesterase inhibitors. 4. Denbufylline was a less potent inhibitor of ligand binding to adenosine receptors than of cyclic AMP phosphodiesterase. This contrasted with theophylline, which had a higher affinity for adenosine receptors, and IBMX which showed no marked selectivity. Denbufylline, theophylline and IBMX all had a low affinity for the adenosine re-uptake site. 5. Denbufylline is being developed as an agent for the therapy of multi-infarct dementia. The selective inhibition of a particular low Km cyclic AMP phosphodiesterase may account for the activity of this compound.
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PMID:The ability of denbufylline to inhibit cyclic nucleotide phosphodiesterase and its affinity for adenosine receptors and the adenosine re-uptake site. 247 52

The effects of the novel alkylxanthine denbufylline (1,3-d-n-butyl-7-(2'-oxopropyl)-xanthine), theophylline and 3-isobutyl-1-methyl-xanthine (IBMX), on the breakdown of cyclic AMP in homogenates of rat erythrocytes, abdominal aorta, adipocytes and cardiac and skeletal muscle were studied. Theophylline and IBMX inhibited cyclic nucleotide phosphodiesterase in all tissue extracts. In contrast, denbufylline was a tissue selective inhibitor of cyclic nucleotide phosphodiesterase. In skeletal muscle and erythrocytes, denbufylline (10 mumol/l) inhibited cyclic nucleotide phosphodiesterase activity by at least 80%. In these tissues, denbufylline was 10-30 and 100-300fold more potent than IBMX and theophylline, respectively. In adipocytes and cardiac and smooth muscle, denbufylline was not an effective inhibitor of cyclic AMP breakdown. Hofstee analysis of phosphodiesterase activity revealed that denbufylline selectively inhibited high affinity cyclic AMP phosphodiesterase in erythrocytes and skeletal muscle. In adipocytes, cardiac and vascular smooth muscle, denbufylline did not effectively inhibit the composite cyclic nucleotide phosphodiesterase activities either with high or with low affinity for cyclic AMP.
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PMID:Tissue selective inhibition of cyclic nucleotide phosphodiesterase by denbufylline. 247 35

The 52 kDa subunit of the peripheral-plasma-membrane insulin-stimulated high-affinity cyclic AMP phosphodiesterase can be specifically detected by the antibody PM1 by Western-blotting procedures and also can be immunoprecipitated from a hepatocyte extract. PM1-mediated immunoprecipitation from hepatocyte extracts showed that insulin treatment of intact 32P-labelled hepatocytes caused the rapid phosphorylation of the peripheral-plasma-membrane cyclic AMP phosphodiesterase. Phosphoamino acid analysis and the use of a phosphotyrosine-specific antibody indicated that phosphorylation occurred on tyrosyl residue(s) of this phosphodiesterase. Prior treatment of hepatocytes with glucagon (10 nM) completely blocked the insulin-mediated tyrosyl phosphorylation of this 52 kDa protein, as detected with both the PM1 and the anti-phosphotyrosine antibodies. Treatment of hepatocytes with glucagon alone did not increase the phosphorylation state of the peripheral-plasma-membrane cyclic AMP phosphodiesterase. The specific anti-phosphotyrosine antibody also detected the insulin-stimulated phosphorylation of proteins of 180 kDa, 95 kDa and 39 kDa. Prior treatment of hepatocytes with glucagon decreased the ability of insulin to phosphorylate the 180 kDa and 39 kDa species, but not the 95 kDa species.
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PMID:Insulin stimulates the tyrosyl phosphorylation and activation of the 52 kDa peripheral plasma-membrane cyclic AMP phosphodiesterase in intact hepatocytes. 247 21

LY186126 was found to be a potent inhibitor of type IV cyclic AMP phosphodiesterase located in the sarcoplasmic reticulum of canine cardiac muscle. This compound, a close structural analogue of indolidan (LY195115), was prepared in high specific activity, tritiated form to study the positive inotropic receptor(s) for cardiotonic phosphodiesterase inhibitors such as indolidan and milrinone. A high-affinity binding site for [3H]LY186126 was observed (Kd = 4 nM) in purified preparations of canine cardiac sarcoplasmic reticulum vesicles. Binding was proportional to vesicle protein, was inactivated by subjecting membranes to proteolysis or boiling, and was dependent on added Mg2+. Scatchard analysis suggested the presence of a single class of binding sites in the membrane preparation. Indolidan, milrinone, and LY186126 (all at 1 microM) produced essentially complete displacement of bound [3H]LY186126, while nifedipine, propranolol, and prazosin had little or no effect at this concentration. This represents the first reported use of a radioactive analogue to label the inotropic receptor for cardiotonic phosphodiesterase inhibitors. The results suggest that [3H]LY186126 is a useful radioligand for examining the subcellular site(s) responsible for positive inotropic effects of these drugs.
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PMID:Specific binding of [3H]LY186126, an analogue of indolidan (LY195115), to cardiac membranes enriched in sarcoplasmic reticulum vesicles. 253 21

1. Four 3-alkylxanthines (3-methylxanthine, 3-n-propylxanthine (enprofylline), 3-n-butylxanthine and 3-iso-butylxanthine) and four 1-methyl-3-alkylxanthines (1-methyl-3-methylxanthine (theophylline), 1-methyl-3-n-propylxanthine, 1-methyl-3-n-butylxanthine and 1-methyl-3-iso-butylxanthine (IBMX], were compared in terms of cyclic AMP phosphodiesterase (PDE) inhibition and trachealis muscle relaxation. The relationship between xanthine structure and cyclic AMP PDE inhibition was also studied. 2. Xanthine induced relaxation of guinea-pig isolated trachealis muscle was measured against spontaneous tone. 3. The four 1-methyl-3-alkylxanthines were each significantly more potent than the corresponding 3-alkylxanthines in relaxing the isolated trachealis muscle. The 1-methyl-3-alkylxanthines were similarly more potent than the corresponding 3-alkyl derivatives in inhibiting low Km cyclic AMP PDE. There was a strong positive correlation between low Km cyclic AMP PDE inhibition and the tracheal smooth muscle relaxation evoked by the xanthine derivatives. 4. Since methylation of the 1-position of each 3-alkylxanthine increased the potency of the derivative in inhibiting low Km cyclic AMP PDE and in relaxing trachealis muscle and since a strong positive correlation was observed between the relaxant EC50 and the Ki value of each xanthine derivative, it is suggested that low Km cyclic AMP PDE inhibition by xanthines plays an important role in their tracheal relaxant effect.
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PMID:Mechanism of xanthine-induced relaxation of guinea-pig isolated trachealis muscle. 254 75

Purified human blood platelet membrane showed the presence of one low Km (1.1 microM) and one high Km (5.0 microM) cyclic AMP phosphodiesterase(s). Incubation of platelet-rich plasma or gel-filtered platelets with ADP (4.0 microM), a well-known platelet aggregating agent, resulted in the inhibition of phosphodiesterase activity of the isolated membrane by 25% in 5 min at 23 degrees C. A Lineweaver-Burk plot of the enzymic activity of the membrane preparation showed that ADP specifically inhibited the low Km (1.1 microM) phosphodiesterase by reducing the Vmax from 241 to 176 pmol/mg per min with concomitant lowering of Km to 0.5 microM. In contrast, neither the high Km (5.0 microM) enzymic activity of the membrane preparation nor the phosphodiesterase activities of the cytosolic fraction of the ADP-treated platelets was affected. This effect of ADP, which was independent of platelet aggregation, reached maximal level within 5 min of incubation. When platelet-rich plasma was incubated longer in the presence of nucleotide, the inhibition of phosphodiesterase activity began to decrease, and after 20 min of incubation approx. 90% of the original enzymic activity was regained. The incubation of platelet-rich plasma with 4.0 microM ADP also increased the cyclic AMP level to twice the basal level. The effect of ADP on the phosphodiesterase activity could be demonstrated only by incubating the intact platelets with the nucleotide. The treatment of isolated membrane from platelets, previously unexposed to ADP, with the nucleotide did not inhibit the enzymic activity. The inhibition of phosphodiesterase by the nucleotide in the absence of stirring, as expected, resulted in the inhibition of platelet aggregation when these cells were subsequently stirred with 1-epinephrine or an increased concentration of ADP.
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PMID:Inhibition of cyclic AMP phosphodiesterase activity of human blood platelet membrane by ADP. 254 20

A cyclic AMP phosphodiesterase form of rat brain cytosol was purified by means of affinity chromatography on an immobilized analog of the specific inhibitor rolipram, followed by an exclusion chromatography step. The resulting preparation presented two protein bands in polyacrylamide gel electrophoresis, both with phosphodiesterase activity. Kinetics of cyclic AMP hydrolysis by the purified enzyme proved of the Michaelis type, with a Km of 3 microM, while hydrolysis of cyclic GMP displayed anomalous negatively cooperative kinetics. At micromolar concentrations, this enzyme from hydrolyzed highly specifically cyclic AMP (50-fold faster than cyclic GMP). Cyclic GMP proved a poor competitor of cyclic AMP hydrolysis (Ki 1.04 mM). The neurotropic compound, rolipram, strongly inhibited the enzyme, in a competitive manner (Ki 0.9 microM). This enzyme displayed a molecular mass of around 44 kDa as determined by exclusion chromatography, but two molecular masses of 42 kDa and 89 kDa were observable by electrophoresis on a polyacrylamide gradient gel, compatible with an equilibrium between dimeric and monomeric forms. Isoelectric focusing of the preparation gave rise to two activity peaks of pI 4.8 and 6.7, with identical properties, probably representing two charge isomers of the same protein. An enzyme prepared from rat heart cytosol by the same techniques as for brain phosphodiesterase isolation shared numerous characteristics with the enzyme of cerebral origin, suggesting identity of the rolipram-sensitive form between the two tissues. Since the rolipram-sensitive form detected in crude brain preparations markedly differs from the above-described isolated enzyme, both by its molecular mass in exclusion chromatography and by its pI, it is suggested that an alteration of the native protein, due to dissociation of putative subunits, occurs during the purification procedure.
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PMID:Isolation of similar rolipram-inhibitable cyclic-AMP-specific phosphodiesterases from rat brain and heart. 255 94

The activities of cyclic AMP phosphodiesterase (3',5'-cyclic nucleotide 5'-nucleotidohydrolase, EC 3.1.4.17) and adenylate cyclase [ATP pyrophosphate-lyase (cyclizing), EC 4.6.1.1] and calmodulin content during development of chick ventricular myocardium were determined. The specific activity of cyclic AMP phosphodiesterase was relatively low in early embryos, increased during embryogenesis by about 4-fold to reach highest values just before hatching, and then decreased by approx. 30% within 1 week after hatching. In contrast, adenylate cyclase did not change during embryonic development, but increased by approx. 50% within 1 week after hatching. Calmodulin content remained constant at 9 micrograms/g wet wt. during embryonic development and decreased to 6 micrograms/g wet wt. by 1 week after hatching. DEAE-Sephacel chromatography of chick ventricular supernatant revealed a single major form of cyclic nucleotide phosphodiesterase activity in early embryonic (9-day E) and hatched (6-day H) chicks. This enzyme form was eluted at approx. 0.27 M-sodium acetate, hydrolysed both cyclic AMP and cyclic GMP, and was sensitive to stimulation by Ca2+-calmodulin, with an apparent Km for calmodulin of approx. 1 nM. In contrast, ventricular supernatant from late-embryonic (18-day E) chicks contained two forms of phosphodiesterase separable on DEAE-Sephacel: the same form as that seen at other ages, plus a cyclic AMP-specific form which was eluted at approx. 0.65 M-sodium acetate and was insensitive to stimulation by Ca2+-calmodulin. The ontogenetic changes in cyclic AMP phosphodiesterase activity in chick ventricular myocardium are consistent with reported ontogenetic changes in the steady-state contents of cyclic AMP in this tissue and suggest that this enzyme may be responsible for the changes that occur in this nucleotide during development of chick myocardium.
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PMID:Ontogenetic changes in adenylate cyclase, cyclic AMP phosphodiesterase and calmodulin in chick ventricular myocardium. 282 Mar 84

1. Four cyclic AMP phosphodiesterase-activating activities, designated as A, B, C and D, were isolated from lugworm, Arenicola cristata, by preparative flat-bed isoelectric focusing. Activators C and D were further purified by TSK 3000SW HPLC to homogeneity. 2. Activators A, B, C, and D corresponded to pIs of 4.4, 5.0, 5.2 and 5.4; their mol wts were estimated to be 36,200, 30,500, 30,200 and 28,300 respectively. 3. The protease nature of these activities were confirmed by the inhibition by several trypsin inhibitors of their activation of phosphodiesterase and by their hydrolysis of TAME, a synthetic trypsin substrate. Only protease A also hydrolyzed BTEE, a chymotrypsin substrate.
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PMID:Isolation from lugworm (Arenicola cristata) of four proteases that activate cyclic AMP phosphodiesterase. 282 20


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