EC:3.1.4.1 - FACTA Search

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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 present studies were performed in order to examine the possible role of cyclic GMP-stimulated phosphodiesterase (cGMP-PDE) activity in the inhibitory action of the inflammatory peptide bradykinin on cyclic AMP (cAMP) accumulation in D384 cells. Bradykinin decreased the forskolin-stimulated cAMP accumulation in the presence of the phosphodiesterase inhibitor rolipram, and caused a transient 50% rise in cellular cGMP in the presence of the nonselective PDE inhibitor 3-isobutyl-1-methylxanthine (IBMX). Both basal and bradykinin-stimulated cGMP accumulation were about 8 times higher in the presence of IBMX than in the presence of rolipram. Sodium nitroprusside, which caused a 20-70-fold increase in cGMP levels reduced forskolin stimulated cAMP accumulation, whereas hydroxylamine, which maximally caused a 16-fold increase in cGMP, did not. 8-bromo-cGMP or dibutyryl cGMP had no effect on cAMP accumulation induced by forskolin. The inhibitory effect of nitroprusside was totally reversed by blocking the soluble guanylate cyclase activity by methylene blue treatment; however, the inhibitory action of bradykinin on cAMP accumulation was not changed by this treatment. Additionally, inhibition of nitric oxide synthesis, which is known to be regulated by Ca2+ and in turn stimulates cGMP production, by N omega-nitro-L-arginine (L-NAME) treatment did not alter the inhibitory effect of bradykinin on forskolin-induced cAMP accumulation. These results indicate that large increases in cGMP may regulate cAMP via cGMP-PDE whereas the small increase induced by bradykinin is insufficient and that cGMP is not involved in the inhibitory action of bradykinin on cAMP levels in D384 cells.
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PMID:Bradykinin inhibition of cyclic AMP accumulation in D384 astrocytoma cells. Evidence against a role of cyclic GMP. 128 20

1. Electrical field stimulation causes neurally-mediated relaxation of the ileocolonic sphincter that is due to activation of non-adrenergic and non-cholinergic (NANC) nerves. Recent studies have suggested that nitric oxide (NO) is the neurotransmitter that mediates relaxation. 2. Using intracellular recording techniques, we have tested whether NANC inhibitory junction potentials (i.j.ps) in the canine ileocolonic sphincter are also mediated by NO. 3. Electrical field stimulation elicited excitatory and inhibitory junction potentials: e.j.ps were blocked by atropine (10(-6) M) and tetrodotoxin (TTX; 10(-6) M); i.j.ps were also blocked by TTX and partially blocked by apamin (10(-6) M). I.j.ps were unaffected by atropine, phentolamine and propranolol (all at 10(-6) M). 4. The arginine analogues, L-NG-nitroarginine methyl ester (L-NAME) and NG-monomethyl-L-arginine (L-NMMA), decreased the amplitude of i.j.ps and L-arginine, but not D-arginine, partially restored the i.j.ps. 5. I.j.ps were also inhibited by oxyhaemoglobin (1%), but not by methaemoglobin. 6. Exogenous NO (10(-7) M to 3 x 10(-5) M) caused concentration-dependent hyperpolarizations that were similar in amplitude to the NANC nerve-evoked i.j.ps. Hyperpolarizations to NO were unaffected by L-NAME, but were blocked by oxyhaemoglobin. 7. Tetrodotoxin, L-NAME and oxyhaemoglobin all caused depolarization of resting membrane potential. 8. The specific guanosine 3':5'-cyclic monophosphate phosphodiesterase inhibitor, M&B 22948, caused hyperpolarization, increased the maximum level of hyperpolarization reached during i.j.ps, and increased the duration of i.j.ps. 9. These data further support the hypothesis that NANC neurotransmission in the ileocolonic sphincter is mediated by NO or an NO-releasing compound. The data also suggest that tonic release of NO, possibly from spontaneous firing of NANC nerves, may regulate resting membrane potential and tone in this sphincter.
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PMID:Role of nitric oxide in non-adrenergic, non-cholinergic inhibitory junction potentials in canine ileocolonic sphincter. 132 49

1. Nonadrenergic, noncholinergic (NANC) nerves mediate vasodilatation in guinea-pig pulmonary artery (PA) by both endothelium-dependent and endothelium-independent mechanisms. The transmitter(s) involved in the endothelium-independent pathway have not yet been identified. We have therefore investigated the possibility that nitric oxide (NO) and guanosine 3',5'-cyclic monophosphate (cyclic GMP) may mediate this neural vasodilator response in guinea-pig branch PA rings denuded of endothelium. 2. Electric field stimulation (EFS, 50 V, 0.2 ms) induced a frequency-dependent (1-24 Hz), tetrodotoxin-sensitive relaxation of the U44069-precontracted PA rings in the presence of adrenergic and cholinergic blockade. 3. The NO synthase inhibitors NG-monomethyl L-arginine (L-NMMA, 100 microM) and NG-nitro L-arginine methyl ester (L-NAME, 30 microM), and the guanylyl cyclase inhibitor methylene blue (5 microM) inhibited the EFS (16 Hz)-induced relaxation by 53 +/- 5, 74 +/- 9 and 82 +/- 9% respectively (n = 5-7, P < 0.01, compared with control rings). 4. Excess concentrations of L-, but not D-arginine (300 microM) completely reversed the inhibitory effect of L-NMMA. 5. The EFS-elicited relaxation (4 Hz) was potentiated by 1 microM zaprinast, a type V phosphodiesterase inhibitor which inhibits guanosine 3':5'-cyclic monophosphate (cyclic GMP) degradation, but was unaffected by 0.1 microM zardaverine, a type III/IV phosphodiesterase inhibitor which inhibits cyclic AMP degradation. 6. EFS (50 V, 0.2 ms, 16 Hz) induced a 3 fold increase in tissue cyclic GMP content, an action which was inhibited by L-NMMA (100 microM). 7. Pyrogallol (100microM), a superoxide anion generator, also inhibited the EFS-induced relaxation by 53 +/- 9%, and this effect was prevented by superoxide dismutase.8. Chemical sympathetic denervation with 6-hydroxydopamine had no effect on the relaxant response to EFS in the endothelium-denuded PA rings.9. In endothelium-denuded branch PA rings at resting tone, L-NMMA (100 microM) significantly augmented the adrenergic contractile response, an effect which was completely reversed by L-arginine,but not by D-arginine. In the same groups of vessel rings, L-NMMA had no significant effect on the matched contractile response to exogenous noradrenaline.10. These results suggest that NO may be released from intramural nerve endings other than adrenergic nerves (probably NANC nerves), and this leads to vasodilatation via activation of guanylyl cyclase.
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PMID:Role of nitric oxide and guanosine 3',5'-cyclic monophosphate in mediating nonadrenergic, noncholinergic relaxation in guinea-pig pulmonary arteries. 133 45

We investigated the effect of aging on atrial natriuretic peptide (ANP)-induced relaxation and cyclic GMP (cGMP) formation in the rat thoracic aorta. In the aorta from young rats (4 weeks old), removal of the endothelium, and treatment with the nitric oxide synthesis inhibitor, NG-nitro-L-arginine methyl ester (L-NAME), the radical scavenger, hemoglobin (Hb), and the soluble guanylate cyclase inhibitor, methylene blue (MB), attenuated ANP-induced relaxation and considerably reduced ANP-stimulated cGMP formation. With increasing age of the rats, the ANP-induced relaxation and cGMP formation in endothelium-intact aorta decreased, and Hb, L-NAME and MB no longer inhibited the ANP-induced effects, irrespective of whether the endothelium was present or absent. In the arteries without endothelium, the age-associated reduction in ANP-induced relaxation was less than in arteries with endothelium. Aging also decreased the relaxation induced by the soluble guanylate cyclase activator, nitroprusside. Potentiation due to the cGMP-phosphodiesterase (cGMP-PDE) inhibitor, M&B 22948, of the ANP-induced relaxation was greater in aortas from old rats than in those from young rats, suggesting that the degradation of cGMP may be accelerated in old rats. These results suggest that the relaxant action of ANP on the thoracic aorta from young rats is in part modulated by endothelium-derived relaxing factor (EDRF/nitric oxide), which in turn activates soluble guanylate cyclase, thus elevating the cGMP level. Aging may decrease the ANP-induced relaxation and ANP-stimulated increase in cGMP level by decreasing the ability of endothelial cells to produce EDRF, by decreasing guanylate cyclase activity, and by enhancing cGMP-PDE activity.
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PMID:Possible mechanisms of age-associated reduction of vascular relaxation caused by atrial natriuretic peptide. 135 Sep 88

1. The activation of the L-arginine: nitric oxide (NO) pathway during aggregation of human platelets by adenosine 5'-diphosphate (ADP), arachidonic acid, thrombin and the calcium ionophore A23187 and its inhibition by NG-monomethyl-L-arginine (L-NMMA), NG-nitro-L-arginine methyl ester (L-NAME) and N-iminoethyl-L-ornithine (L-NIO) were studied. The inhibition of the cytosolic platelet NO synthase by these compounds was also examined. 2. Platelet aggregation induced by ADP (1-10 microM) and arachidonic acid (0.1-10 microM), but not that induced by thrombin (1-30 mu ml-1) or A23187 (1-10 nM), was inhibited by L-, but not D-arginine (1-30 microM). However, in the presence of a subthreshold concentration of prostacyclin (0.1 nM) or of M & B 22948 (1 microM), a selective inhibitor of guanosine 3':5'-cyclic monophosphate (cyclic GMP) phosphodiesterase, L-arginine caused concentration-dependent inhibition of aggregation induced by all of these aggregating agents. 3. L-NMMA, L-NAME and L-NIO (all at 1-30 microM), but not their D-enantiomers, enhanced to the same extent platelet aggregation induced by ADP, arachidonic acid and thrombin without affecting that induced by A23187. 4. In the presence of 300 microM L-arginine, the NO synthase in platelet cytosol was inhibited by L-NMMA, L-NAME and L-NIO with IC50s of 74 +/- 9, 79 +/- 8 and 8.5 +/- 1.5 microM (n = 3), respectively. 5. These results indicate that the L-arginine: NO pathway in human platelets plays a role in the modulation of platelet aggregation.
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PMID:Characterization of the L-arginine:nitric oxide pathway in human platelets. 170 76

Aging is an important risk factor for impotence in men. Because nitric oxide (NO) appears to be the mediator of corpora cavernosal smooth muscle relaxation, we have examined in 5-, 20-, and 30-mo-old rats, designated "adult," "old," and "senescent," respectively, whether aging causes a decrease of erectile response that may correlate with lower NO synthase (NOS) in the penis. Electric field stimulation (EFS) of the cavernosal nerve showed that the maximum intracavernosal pressure (MIP) declined in the old and senescent rats to 80 and 51% of the adult value, respectively. A low systemic dose of the NOS inhibitor, N omega-nitro-L-arginine methyl ester (L-NAME; 2 mg/kg), reduced the MIP by only 38% in the adult rats but decreased it in the old and senescent rats by 72 and 80%, respectively. In the absence of EFS, intracavernosal papaverine (phosphodiesterase inhibitor), or nitroglycerin (NO donor), caused a lower erectile response in the old and senescent rats compared with the adult animals (MIP: 41 and 14%, respectively; duration of the erection 46 and 21%, respectively). Tissue sections from old and senescent penises showed increasing degrees of sclerotic degeneration. In comparison with the adult rats, the penile soluble NOS activity per gram of tissue that is sensitive to L-NAME decreased significantly by 63% in the senescent rats but was elevated in the old rats. These results indicate that aging causes an erectile failure due to factors initially independent from an impairment of penile NO synthesis but which are compounded in the very old rats by the decrease of penile NOS activity.
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PMID:Effect of aging on nitric oxide-mediated penile erection in rats. 753 Sep 24

1. Recent studies have suggested that the generation of nitric oxide (NO) and hydrogen peroxide (H2O2) by islet NO synthase and monoamine oxidase, respectively, may have a regulatory influence on insulin secretory processes. We have investigated the pattern of insulin release from isolated islets of Langerhans in the presence of various pharmacological agents known to perturb the intracellular levels of NO and the oxidation state of SH-groups. 2. The NO synthase inhibitor, NG-nitro-L-arginine methyl ester (L-NAME) dose-dependently increased L-arginine-induced insulin release. D-Arginine did not influence L-arginine-induced insulin secretion. However, D-NAME which reportedly has no inhibitory action on NO synthase, modestly increased L-arginine-induced insulin release, but was less effective than L-NAME. High concentrations (10 mM) of D-arginine as well as L-NAME and D-NAME could enhance basal insulin release. 3. The intracellular NO donor, hydroxylamine, dose-dependently inhibited insulin secretion induced by L-arginine and L-arginine+L-NAME. 4. Glucose-induced insulin release was increased by NO synthase inhibition (L-NAME) and inhibited by the intracellular NO donor, hydroxylamine. Sydnonimine-1 (SIN-1), an extracellular donor of NO and superoxide, induced a modest suppression of glucose-stimulated insulin release. SIN-1 did not influence insulin secretion induced by L-arginine or the adenylate cyclase activator, forskolin. 5. The intracellular 'hydroperoxide donor' tert-butylhydroperoxide in the concentration range of 0.03-3 mM inhibited insulin release stimulated by the nutrient secretagogues glucose and L-arginine. Low concentrations (0.03-30 microM) of tert-butylhydroperoxide, however enhanced insulin secretion induced by the phosphodiesterase inhibitor isobutylmethylxanthine (IBMX). 6. Islet guanosine 3':5'-cyclic monophosphate (cyclic GMP) content was not influenced by 10 mML-arginine or tert-butylhydroperoxide at 3 or 300 micro M but was markedly increased (14 fold) by a high hydroxylamine concentration (300 micro M). In contrast, islet adenosine 3':5'-cyclic monophosphate (cyclicAMP) content was increased (3 fold) by L-arginine (10 mM) and (2 fold) by tert-butylhydroperoxide(300 micro M).7. Our results strongly suggest that NO is a negative modulator of insulin release induced by the nutrient secretagogues L-arginine and glucose. This effect is probably not mediated to any major extent by the guanylate cyclase-cyclic GMP system but may rather be exerted by the S-nitrosylation of critical thiol groups involved in the secretory process. Similarly the inhibitory effect of tert-butylhydroperoxide is likely to be elicited through affecting critical thiol groups. The mechanism underlying the secretion promoting action of tert-butylhydroperoxide on IBMX-induced insulin release is probably linked to intracellular Ca2+-perturbations affecting exocytosis.8. Taken together with previous data the present results suggest that islet production of low physiological levels of free radicals such as NO and H202 may serve as important modulators of insulin secretory processes.
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PMID:Influence of nitric oxide synthase inhibition, nitric oxide and hydroperoxide on insulin release induced by various secretagogues. 753 13

1. The effect on cyclic nucleotide contents of selective inhibitors of cyclic nucleotide phosphodiesterase (PDE) isoforms III and IV (respectively SK&F 94120 and rolipram) and their interactions with endothelium and NO have been studied in rat aorta in the presence of indomethacin (10 microM). The participation of NO was assessed by using either NG-nitro-L-arginine methyl ester (L-NAME) (NO synthase inhibitor: 30 microM) or 3-morpholinosydnonimine (SIN-1, NO donor: 10 microM with SOD 100 units ml-1). 2. The presence of endothelium significantly increased both adenosine 3':5'-cyclic monophosphate (cyclic AMP, 1.7 fold) and guanosine 3':5'-cyclic monophosphate (cyclic GMP, 2.2 fold) contents. Cyclic GMP was largely affected by L-NAME or SIN-1 treatment, this was not the case for cyclic AMP suggesting that the presence of endothelium modified cyclic AMP content in aorta independently of the NO production. 3. In the presence or absence of endothelium, neither SK&F 94120 nor rolipram, alone or combined, significantly modified cyclic GMP content. 4. The PDE III inhibitor significantly affected cyclic AMP content only in non treated aorta without endothelium. In contrast, the PDE IV inhibitor increased cyclic AMP in all conditions. These increases were generally about 2 fold but markedly higher in aorta treated with SIN-1 and superoxide dismutase (SOD, 6 fold). Association of a low concentration of the PDE III inhibitor (5 microM) with the PDE IV inhibitor (30 microM) potentiated the effect of the PDE IV inhibitor on cyclic AMP content, except for aorta without endothelium treated with SIN-1 plus SOD. 5. These data indicate that the presence of the endothelium could increase cyclic AMP content independently of NO and prostacyclin (PGI2) production. Furthermore, an increase in cyclic GMP content (modulated by NO production) could enhance the cyclic AMP accumulation induced by the PDE IV inhibitor. This result supports the hypothesis that PDE III inhibition by endogenous cyclic GMP may potentiate the effect of PDE IV inhibition on cyclic AMP content. Taken together with our previous studies on relaxation, these results suggest that the NO/cyclic GMP pathway could induce PDE IV-dependent regulation of cyclic AMP via PDE III inhibition.
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PMID:Role of phosphodiesterases III and IV in the modulation of vascular cyclic AMP content by the NO/cyclic GMP pathway. 783 94

Previous studies have demonstrated that cGMP and cAMP reduce the endothelial permeability for fluids and macromolecules when the endothelial permeability is increased by thrombin. In this study, we have investigated the mechanism by which cGMP improves the endothelial barrier function and examined whether nitric oxide (NO) can serve as an endogenous modulator of endothelial barrier function. Thrombin increased the passage of macromolecules through human umbilical vein and human aortic endothelial cell monolayers and concomitantly increased [Ca]2+ in vitro. Inhibition of these increases by the intracellular Ca2+ chelator BAPTA indicated that cytoplasmic Ca2+ elevation contributes to the thrombin-induced increase in endothelial permeability. The cGMP-dependent protein kinase activators 8-bromo-cGMP (8-Br-cGMP) and 8-(4-chlorophenylthio)cGMP (8-PCPT-cGMP) decreased the thrombin-induced passage of macromolecules. Two pathways accounted for this observation. Activation of cGMP-dependent protein kinase by 8-PCPT-cGMP decreased the accumulation of cytoplasmic Ca2+ in aortic endothelial cells and hence reduced the thrombin-induced increase in permeability. On the other hand, in umbilical vein endothelial cells, cGMP-inhibited phosphodiesterase (PDE III) activity was mainly responsible for the cGMP-dependent reduction of endothelial permeability. The PDE III inhibitors Indolidan (LY195115) and SKF94120 decreased the thrombin-induced increase in permeability by 50% in these cells. Thrombin treatment increased cGMP formation in the majority of, but not all, cell cultures. Inhibition of NO production by NG-nitro-L-arginine methyl ester (L-NAME) enhanced the thrombin-induced increase in permeability, which was restricted to those cell cultures that displayed an increased cGMP formation after addition of thrombin. Simultaneous elevation of the endothelial cGMP concentration by atrial natriuretic factor, sodium nitroprusside, or 8-Br-cGMP prevented the additional increase in permeability induced by L-NAME. These data indicate that cGMP reduces thrombin-induced endothelial permeability by inhibition of the thrombin-induced Ca2+ accumulation and/or by inhibition of cAMP degradation by PDE III. The relative contribution of these mechanisms differs in aortic and umbilical vein endothelial cells. NO can act in vitro as an endogenous permeability-counteracting agent by raising cGMP in endothelial cells of large vessels.
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PMID:cGMP and nitric oxide modulate thrombin-induced endothelial permeability. Regulation via different pathways in human aortic and umbilical vein endothelial cells. 783 30

1. The use of pharmacological inhibitors of nitric oxide (NO) synthesis to treat patients with septic shock is limited by the observation that they cause a fall in cardiac output in some subjects. The aim of this work was to investigate this fall and to test whether it was reversible by subsequent administration of nicardipine, theophylline or the cyclic GMP-selective phosphodiesterase inhibitor, zaprinast (M&B 22948). 2. In pentobarbitone-anaesthetized pigs, haemodynamic indices were measured before and after intravenous administration of NG-nitro-L-arginine methyl ester (L-NAME) in a dose-response protocol (0.2-20 mg kg-1; n = 6) and as a single bolus of 10 mg kg-1 either alone or followed by increasing doses of nicardipine, theophylline or zaprinast (n = 8 in each group). 3. L-NAME caused a dose-dependent rise in systemic vascular resistance and mean systemic arterial pressure and a dose-dependent fall in cardiac output. A single bolus of L-NAME (10 mg kg-1) produced these effects within 15 min. 4. Subsequent administration of nicardipine (0.05-0.2 mg kg-1) caused complete reversal of systemic vasoconstriction and hypertension and in doing so completely restored cardiac output. Theophylline (7.5-10 mg kg-1) partially reversed the rise in systemic vascular resistance and partially restored cardiac output but the effect was small compared to that of nicardipine. Zaprinast (1-5 mg kg-1) had no significant effect on any of these variables. 5. These results suggest that reduced cardiac output following inhibition of NO synthesis is an effect of increased afterload on the heart and is reversible by nicardipine and to a lesser extent by theophylline.These findings may have potential value for those using NO synthase inhibitors to treat patients with septic shock.
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PMID:Comparison of the ability of nicardipine, theophylline and zaprinast to restore cardiovascular haemodynamics following inhibition of nitric oxide synthesis. 807 60

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