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Query: pde 4
 1,625 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Guanosine 3',5'-cyclic monophosphate (cGMP) and adenosine 3',5'-cyclic monophosphate (cAMP) are mediators of smooth muscle relaxation. In this study, selective inhibitors of phosphodiesterase (PDE) isozymes were used to assess the role of cyclic nucleotide hydrolysis in angiotensin II (ANG II) and hypoxic pulmonary vasoconstriction. In isolated rat lungs, the hypoxic pressor response (HPR) was induced with a 95% N2-5% CO2 gas mixture. When administered during the plateau of the HPR, trequinsin (nonselective PDE inhibitor) and indolidan (cGMP-inhibitable cAMP PDE inhibitor) significantly (P = 0.01) decreased the pulmonary arterial pressure (Ppa) by 60 +/- 7 and 53 +/- 3%, respectively, compared with zaprinast (cGMP PDE inhibitor), rolipram (cGMP-insensitive cAMP PDE inhibitor), and the 0.1% dimethyl sulfoxide (DMSO) vehicle control, which decreased the Ppa by 6 +/- 3, 4 +/- 3, and 0%, respectively. In the trequinsin and indolidan groups, the subsequent ANG II pressor responses and HPRs were significantly (P = 0.01) decreased when compared with the zaprinast, rolipram, and DMSO groups. During normoxia, none of the PDE inhibitor (0.3-30 microM) had an effect on the baseline Ppa. These results suggest that cAMP hydrolysis by the cGMP-inhibitable cAMP PDE play a significant role in pulmonary vascular tone regulation.
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PMID:Selective inhibition of cGMP-inhibitable cAMP phosphodiesterase decreases pulmonary vasoreactivity. 165 13

1. The effects of zaprinast (M&B 22948), a selective guanosine 3':5'-cyclic monophosphate (cyclic GMP) phosphodiesterase inhibitor, and sodium nitroprusside on cyclic GMP content, phosphoinositide hydrolysis and airway smooth muscle tone were examined in flurbiprofen pretreated bovine tracheal smooth muscle (BTSM). 2. Anion-exchange chromatography of the soluble fraction of BTSM homogenates resolved three peaks of Ca2+/calmodulin-independent phosphodiesterase (PDE) activity that corresponded to type Ia (cyclic GMP-specific, zaprinast-inhibitable), type II (cyclic GMP-stimulated) and type IV (Ro 20 1724-inhibitable) PDE isoenzymes. Zaprinast caused a selective inhibition of the type Ia PDE isoenzyme (IC50 0.94 microM) with respect to the type II and IV (IC50 s 93 microM and 197 microM respectively) isoenzymes. 3. Pretreatment of BTSM strips with zaprinast (10 microM) for 20 min affected neither the initial rate of force development, nor the resultant magnitude of contraction induced by methacholine (10 microM). In addition, zaprinast (10 microM; 20 min) did not affect the cumulative concentration-response relationship induced by methacholine. In contrast, sodium nitroprusside (300 microM) either alone, or in combination with zaprinast (10 microM), significantly attenuated tone induced by low, but not high concentrations of methacholine. This resulted in a non-parallel, rightwards shift of the methacholine concentration-response curves (nitroprusside: 4.0 fold; nitroprusside/zaprinast: 4.8 fold at the EC50 values), without a reduction in the maximum tone generated. 4. In BTSM slices, zaprinast (10 or 100 microM) did not influence basal or methacholine (10 microM)-stimulated cyclic GMP accumulation or inositol 1,4,5-trisphosphate (Ins(1,4,5)P3) mass accumulation over a 60s incubation period, although it did significantly increase cyclic GMP content over longer (30 min) stimulation periods. 5. In [3H]-inositol prelabelled BTSM slices, stimulated in the presence of 5mM LiCl, methacholine (10 microM) caused a marked increase in total [3H]-inositol phosphate accumulation. This effect was not inhibited by zaprinast (10 microM), sodium nitroprusside (300 microM), or a combination of these drugs despite these agents markedly increasing tissue cyclic GMP content. 6. These findings demonstrate that despite zaprinast being a potent and selective inhibitor of the type Ia PDE isoenzyme in a cell-free system, this drug only increases cyclic GMP content in BTSM following prolonged agonist-stimulation. This may explain its lack of inhibitory effect on methacholine-induced tone. The inability of drugs which increase tissue cyclic GMP content and exhibit anti-spasmogenic activity to inhibit methacholine-stimulated Ins(1,4,5)P3 formation suggests that, unlike vascular smooth muscle, cyclic GMP-dependent mechanisms do not regulate receptor-mediated phosphoinositide hydrolysis in BTSM.
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PMID:Lack of effect of zaprinast on methacholine-induced contraction and inositol 1,4,5-trisphosphate accumulation in bovine tracheal smooth muscle. 165 39

1. The cyclic nucleotide phosphodiesterase (PDE) of guinea-pig eosinophils was partially characterized and the effects of selective inhibitors of PDE isoenzymes upon opsonized zymosan (OZ)-stimulated respiratory burst were studied. 2. PDE activity in eosinophil lysates appeared to be membrane-associated, displayed substrate specificity for adenosine 3':5' cyclic monophosphate (cyclic AMP) versus guanosine 3':5' cyclic monophosphate (cyclic GMP) and was insensitive to cyclic GMP or Ca2+ and calmodulin. 3. The non-selective PDE inhibitor, 3-isobutyl-1-methylxanthine caused a concentration-dependent inhibition of both OZ-stimulated hydrogen peroxide (H2O2) generation and cyclic AMP hydrolysis. The type IV-selective PDE inhibitors, rolipram and denbufylline, also inhibited H2O2 generation and cyclic AMP hydrolysis in a concentration-dependent manner whilst SK&F 94120 and Org 9935 (type III-selective) and zaprinast (type Ia or V-selective) were ineffective. 4. Dibutyryl cyclic AMP, a cell-permeable, non-hydrolysable analogue of cyclic AMP, caused a concentration-dependent inhibition of H2O2 generation stimulated by OZ. Dibutyryl cyclic GMP was ineffective. 5. It is concluded that eosinophil respiratory burst activity induced by OZ can be regulated by intracellular cyclic AMP and that the levels of cyclic AMP are controlled exclusively by a rolipram- and denbufylline-sensitive PDE isoenzyme that resembles a type IV species.
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PMID:Inhibition of eosinophil cyclic nucleotide PDE activity and opsonised zymosan-stimulated respiratory burst by 'type IV'-selective PDE inhibitors. 165 70

During the visual transduction process in rod photoreceptor cells, transducin (T) mediates the flow of information from photoexcited rhodopsin (R*) to the cGMP phosphodiesterase (PDE) via a cycle of GTP binding and hydrolysis. The pre-steady-state kinetics of GTP hydrolysis by T was studied by rapid quenching and filtration techniques in a reconstituted system containing purified R* and T. Kinetic analyses have shown that the turnover of T-bound GTP can be dissected into four partial reactions: (1) the R*-catalyzed GTP binding via a GDP/GTP exchange reaction, (2) the on-site hydrolysis of bound GTP, which leads to the formation of a T-GDP.Pi complex, (3) the release of the tightly bound inorganic phosphate (Pi) from T-GDP.Pi, and (4) the recycling of T-GDP. The R*-catalyzed GTP binding was estimated to occur in less than 1 s. In rapid acid quenching experiments, the rate of Pi formation due to GTP hydrolysis exhibited biphasic characteristics. An initial burst of Pi formation occurred between 1 and 4 s, which was followed by a slow steady-state rate. Increasing T concentration yielded a proportional increase in the burst and steady-state rate. The addition of Gpp(NH)p decreased both parameters. D2O decreased the rise of the initial burst with a kinetic isotope effect of approximately 1.7 but has no effect on the steady-state rate of Pi formation. These results indicate that the burst represents the fast hydrolysis of GTP at the binding site of T, which results in the accumulation of T-GDP.Pi complexes. The steady-state rate represents the slow release of Pi. This finding was further supported by rapid filtration experiments that monitored the formation of free Pi in solution. An initial lag time in the formation of free Pi was observed before a steady-state rate was established, indicating that the initially formed Pi was tightly bound to T. Finally, the release of GDP from T-GDP.Pi was not detected. This suggests that another cycle of GTP exchange catalyzed by R* should occur before the release of bound GDP. The rate of Pi release from T-GDP.Pi was measured under single-turnover conditions and had a half life of approximately 20 s, which was identical with the rate of deactivation of the PDE due to GTP hydrolysis by T.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Molecular mechanism of GTP hydrolysis by bovine transducin: pre-steady-state kinetic analyses. 165 84

We have cloned a 4.2-kilobase pair (kb) cDNA that encodes the cyclic GMP-stimulated phosphodiesterase (cGS PDE) from a bovine adrenal cortex library. The 921-residue polypeptide deduced from the cDNA nucleotide sequence is nearly identical with the complete amino acid sequence of the cGS PDE purified from a soluble bovine heart extract. Moreover, PPD-S49 cells transfected with the cGS PDE cDNA express a soluble cAMP hydrolytic activity that is enhanced by cGMP. Total RNA isolated from several bovine tissues were screened for cGS PDE transcript by Northern blot analysis. The cGS PDE cDNA appears to hybridize to a single 4.5-4.6-kb mRNA species. Although the cGS PDE mRNA is most abundant in the adrenal cortex, it is also concentrated in the adrenal medulla and heart and in anatomically distinct regions of the brain and kidney. A mRNA species encoding a putative variant cGS PDE isoform was detected by RNase protection. Total RNA isolated from adrenal cortex, adrenal medulla, liver, kidney, trachea, lung, spleen, and T-lymphocytes completely protected a 452-base riboprobe encoding 100 residues of the adrenal cortex cGS PDE amino terminus. In contrast, RNAs isolated from brain (cerebral cortex, hippocampus, and basal ganglia) protected only 268 bases of this riboprobe. The RNase protection pattern of this same probe using heart RNA showed major bands at both 268 and 452 bases, suggesting that two different cGS PDE mRNA species are expressed. These results indicate that the cGS PDE is widely expressed in a variety of tissues. Moreover, these studies suggest that at least one different cGS PDE isoform having a structurally distinct amino-terminal domain is expressed in brain and heart.
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PMID:Molecular cloning of a cyclic GMP-stimulated cyclic nucleotide phosphodiesterase cDNA. Identification and distribution of isozyme variants. 165 33

A series of 1,3-dihydro-2H-imidazo[4,5-b]quinolin-2-one derivatives was synthesized and evaluated as inhibitors of cAMP hydrolysis by a crude human platelet phosphodiesterase preparation and as inhibitors of ADP- and collagen-induced aggregation of rabbit blood platelets. The parent structure 7a, demonstrated potent inhibitory activity that was enhanced by the introduction of alkyl, alkoxy, or halogen substituents at the 5-, 6-, 7-, and 8-positions. Methylation at N-1 or N-3 produced weaker inhibitors of cAMP PDE and platelet aggregation. 1,3,9,9a-Tetrahydro-2H-imidazo[4,5-b]quinolin-2-ones (6) were found to be equipotent with their fully oxidized congeners (7). On the basis of platelet inhibitory properties in vitro, efficacy at preventing thrombus formation in animal models of thrombosis, and a favorable hemodynamic profile, 1,3-dihydro-7,8-dimethyl-2H- imidazo[4,5-b]quinolin-2-one (7o, BMY 20844) was selected for advancement into toxicological evaluation and clinical trial. An efficient synthesis of 7o is described.
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PMID:1,3-Dihydro-2H-imidazo[4,5-b]quinolin-2-ones--inhibitors of blood platelet cAMP phosphodiesterase and induced aggregation. 165 30

1. This study was designed to compare the effects of two selective inhibitors of certain phosphodiesterase (PDE) isoenzymes on arrhythmias induced by coronary artery occlusion and reperfusion. The drugs used were zaprinast which inhibits guanosine 3':5'-cyclic monophosphate (cyclic GMP)-specific PDE (PDE V) and rolipram which inhibits cyclic GMP-insensitive, adenosine 3':5'-cyclic monophosphate (cyclic AMP)-specific PDE (PDE IV). 2. Pretreatment of anaesthetized rabbits with zaprinast (300 micrograms kg-1 plus 30 micrograms kg-1 min-1) had no significant effect on ischaemia- or reperfusion-induced ST-segment changes, or arrhythmias. In contrast, rolipram (30 micrograms kg-1 plus 3 micrograms kg-1 min-1) and (100 micrograms kg-1 plus 10 micrograms kg-1 min-1) increased the severity of arrhythmias. With the higher dose of rolipram, ST-segment changes were increased in magnitude and mortality due to ventricular fibrillation during ischaemia or reperfusion was increased to 80% compared with 30% in controls (n = 10 per group). 3. Zaprinast caused small but significant increases in heart rate and arterial blood pressure whereas rolipram decreased diastolic arterial pressure, increased left ventricular (LV) dP/dtmax and substantially increased heart rate. 4. At the end of each experiment platelet aggregation was measured ex vivo. Pretreatment of rabbits with either dose of rolipram had no significant effect on platelet aggregation induced by adenosine diphosphate (ADP), collagen, arachidonic acid or thrombin or on isoprenaline- or prostacyclin-induced inhibition of aggregation. Aggregatory responses to ADP and collagen were increased in platelets obtained from rabbits which had received zaprinast. 5. These results indicate that in the dose used here, the PDE V inhibitor zaprinast had no significant effect on arrhythmias. The effects of the PDE IV inhibitor rolipram on haemodynamics, combined with its lack of antiplatelet activity, may have contributed to the exacerbation of arrhythmias observed during myocardial ischaemia and reperfusion.
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PMID:Effects of zaprinast and rolipram on platelet aggregation and arrhythmias following myocardial ischaemia and reperfusion in anaesthetized rabbits. 165 49

In mice with hereditary nephrogenic diabetes insipidus (NDI), the inability of vasopressin to increase hydraulic water permeability is reflected in a lack of intramembranous particle (IMP) clusters in apical membranes of inner medullary collecting ducts. The lack arises from anomalously high activity of one or two isozymes of adenosine 3',5'-cyclic monophosphate-phosphodiesterase (cAMP-PDE). We asked whether inhibition of these isozymes with rolipram and cilostamide would raise not only the tissue content of cAMP but also and simultaneously restore IMP clusters. Inner medullary collecting ducts from NDI mice were incubated in vitro. Tissue content of cAMP (fmol of cAMP per bundle) and number of IMP clusters (per 100 microns 2 of principal cell apical membrane) were, respectively: control, 44.8 +/- 13.0 and 4.16 +/- 1.49; arginine vasopressin (AVP), 31.7 +/- 8.0 and 3.98 +/- 1.56; rolipram and cilostamide, 109.7 +/- 21.0 and 58.09 +/- 15.74; and AVP plus rolipram and cilostamide, 305.7 +/- 75 and 48.63 +/- 11.03 (with the last four values showing significant difference from control and AVP only, respectively). In addition, treating NDI mice with rolipram and cilostamide in vivo reduced their high fluid turnover. We conclude that failure by AVP to increase cAMP in cells of collecting ducts, which results from anomalously high activity of one or two specific isozymes of cAMP-PDE, is the major or sole cause for the excretion of hypotonic urine in NDI mice (DI +/+ Severe strain).
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PMID:Induction of intramembranous particle clusters in mice with nephrogenic diabetes insipidus. 165 82

Salt sensitivity affects a fraction of hypertensive and normotensive subjects, but biochemical markers that target salt-sensitive individuals are not available at present. The aim of these studies was to establish if calmodulin-phosphodiesterase (CaM-PDE) activator (J Clin Invest 82: 276, 1988) and platelet cyclic nucleotides could serve as potential markers of salt sensitivity. The results demonstrated that CaM-PDE activator was increased in the heart of Dahl salt-sensitive rats (DS/JR) compared to Dahl salt-resistant (DR/JR) animals fed a 1% sodium diet. Normotensive male Wistar rats given a low (0.15%) or high (3.5%) sodium diet from age 7 weeks to 11 weeks presented significant increases (p less than 0.01) of three parameters: blood pressure (from 106 +/- 4 to 128 +/- 8 mmHg); platelet aggregation in response to ADP and thrombin; and CaM-PDE activator levels (from 1.57 +/- 0.14 to 2.8 +/- 0.18). Basal as well as stimulated cyclic nucleotide levels were significantly reduced in rats fed the high sodium diet. Since the degree of stimulation by the agonists was unaltered, the results are compatible with augmented PDE activity. These preliminary data suggest that CaM-PDE activator should be explored as a potential marker of salt sensitivity.
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PMID:Cyclic nucleotides and calmodulin-phosphodiesterase activator: potential biochemical markers of salt sensitivity. 166 35

Three phosphodiesterase (PDE) type III inhibitors were tested and found to inhibit Xenopus oocyte maturation induced by insulin with apparent IC50 values of 2.2 +/- 0.2 microM Cl-930, 25 +/- 3 microM imazodan (Cl-914), and 786 +/- 237 microM piroximone (MDL 19,205). The same rank order of potencies was observed for inhibition of insulin-like growth factor-I (IGF-I)-induced oocyte maturation, with IC50 values of 5.5 +/- 0.9 microM Cl-930, 54 +/- 4 microM imazodan, and 1190 +/- 395 microM piroximone. Oocyte maturation induced by microinjection of Ha p21ras was also inhibited by pretreatment of oocytes with Cl-930 or imazodan, with IC50 values of 4.3 +/- 1.2 and 59 +/- 4 microM, respectively. Progesterone-induced maturation was not affected by PDE III inhibitor action; and, neither type IV PDE inhibitors (Ro 20, 1724 or rolipram) nor dipyridamole (a type V PDE inhibitor) inhibited cell division induced by IGF-I or microinjected Ha p21ras. In addition, while insulin-stimulated oocyte PDE activity measured in vivo after microinjection of 200 microM [3H] cAMP was inhibited by nonselective and type III-specific drugs (with IC50 values of 4.2 +/- 1.8 microM Cl-930 and 26 +/- 6 microM imazodan), type IV and type V inhibitors did not inhibit hormone-stimulated enzyme activity. This pharmacological evidence demonstrates a necessary role for PDE III in insulin-, IGF-I-, and p21ras-induced meiotic cell division in Xenopus laevis oocytes.
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PMID:Type III phosphodiesterase plays a necessary role in the growth-promoting actions of insulin, insulin-like growth factor-I, and Ha p21ras in Xenopus laevis oocytes. 166 4


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