EC:3.1.4.1 - FACTA Search

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)

Mutants of Salmonella typhimurium with defects in the heptose region of the lipopolysaccharide (LPS) molecule (heptose-deficient, chemotype Re) leak periplasmic enzymes (acid phosphatase (EC 3.1.3.2), cyclic phosphodiesterase, ribonuclease I (EC 3.1.4.22), and phosphoglucose isomerase (EC 5.3.1.9) (PGI is at least partially periplasmic in E. coli and S. typhimurium; see below)) and do not leak an internal enzyme (glucose-6-phosphate dehydrogenase) into the growth medium. The extent of this leakage is markedly increased at higher temperature (42 degrees C). Leakage of periplasmic enzymes from the strains lacking units distal to heptose I in the LPS molecule (chemotype Rd2) occurs only at 42 degrees C, and not at 30 or 37 degrees C. The extent of leakage of these enzymes from smooth strain and mutants of other LPS chemotypes (Rc, Rd1) is not significant, and is not influenced by growth temperatures. The kinetics of leakage of periplasmic enzymes after shift to 42 degrees C in nutrient broth reveal an accelerated release into the medium from heptose-deficient strains of cyclic phosphodiesterase and ribonuclease I after 30 min at 42 degrees C, and phosphoglucose isomerase after 60 min at 42 degrees C; at 30 degrees C the rate of release of cyclic phosphodiesterase and ribonuclease I is relatively slower. After 60 min at 42 degrees C in nutrient broth, growth of these strains has either slowed down or stopped. In L-broth, which permits the growth of the heptose-deficient strain (SA1377) at 42 degrees C, leakage of cyclic phosphodiesterase and phosphoglucose isomerase occurs, whereas there is no detectable leakage of these enzymes from the isogenic smooth strain (SA1355). Thus, leakage of the periplasmic enzymes from the heptose-deficient strain occurs with or without growth. Mg2+ (0.75 mM), sodium chloride (50 mM), and sucrose (100 mM) in nutrient broth at 42 degrees C prevent the leakage of these enzymes. The shedding of LPS from the heptose-deficient as well as the smooth strains is enhanced by high temperature (42 degrees C), whereas considerable leakage of protein occurs only in the heptose-deficient strain at 42 degrees C and not in the smooth strain. The smooth and heptose-deficient strains are equally sensitive to osmotic shock although a significant proportion of acid phosphatase and cyclic phosphodiesterase activities from the heptose-deficient cells grown at 42 degrees C comes off in the Tris-NaCl wash step suggesting a rather loose attachment of these enzymes onto the cell surface.
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PMID:Leakage of periplasmic enzymes from lipopolysaccharide-defective mutants of Salmonella typhimurium. 18

Inhalative vasodilator therapy, employing gaseous nitric oxide (NO) or aerosolized prostaglandin PGI(2), is of interest for regional pulmonary vasodilation in ARDS and pulmonary hypertension. We investigated the impact of the NO donor spermine NONOate as well as PGI(2) and its stable chemical analog iloprost on cultured rat alveolar epithelial type II cell (ATII) surfactant secretion. The NO donor provoked a significant increase in the ATII cGMP content, further enhanced by type V phosphodiesterase (PDE) inhibition, but affected neither baseline nor mechanical stretch-induced surfactant secretion. The prostanoids caused a marked increase in the epithelial cAMP content, further amplified by coadministration of type III/IV PDE inhibitors. Baseline surfactant secretion was not altered by this approach, but mechanical stretch-induced liberation of surfactant was significantly increased, most prominently in the ATII with the highest cAMP levels due to the presence of both iloprost and PDE III/IV inhibitors. In contrast, epithelial phosphoinositide metabolism, well responsive to purinergic stimulation as positive control, was unchanged in prostanoid-exposed cells. We conclude that the PGI(2)-cAMP axis, but not the NO-cGMP axis, forwards a markedly enhanced secretory response to the physiological stimulus of cell surface stretching, which may be relevant for therapeutic use of these agents.
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PMID:Prostacyclin enhances stretch-induced surfactant secretion in alveolar epithelial type II cells. 1047 7

Inhalation of aerosolized prostaglandin I(2) (PGI(2)) causes selective pulmonary vasodilation, but the effect rapidly levels off after termination of nebulization. In experimental pulmonary hypertension in intact rabbits, provoked by continuous infusion of the stable thromboxane mimetic U46619, the impact of intravenous phosphodiesterase (PDE) inhibitors on pulmonary and systemic hemodynamics was investigated in the absence and the presence of aerosolized PGI(2). We employed the monoselective inhibitors motapizone (PDE 3), rolipram (PDE 4), and zaprinast (PDE 5), as well as the dual-selective blockers zardaverine and tolafentrine (both PDE 3/4). All PDE inhibitors dose-dependently reduced the pulmonary artery pressure (Ppa), with doses for an approximately 20% decrease in pulmonary vascular resistance being 5 microgram/kg for motapizone, 25 microgram/kg for rolipram, 500 microgram/kg for zardaverine, 1 mg/kg for zaprinast, and 1 mg/kg for tolafentrine. Additive efficacy was noted when combining the monoselective 3 plus 4, 3 plus 5, and 4 plus 5 inhibitors. In parallel with the pulmonary vasorelaxant effect, all PDE inhibitors caused a decrease in systemic arterial pressure and an increase in cardiac output. Nebulized PGI(2) (56 ng/kg. min) reduced the U46619-evoked increase in Ppa by approximately 30%. This vasorelaxant effect was fully lost within 10 min after termination of PGI(2) nebulization. Coapplication of subthreshold doses of intravenous PDE inhibitors, which per se did not affect pulmonary and systemic hemodynamics, resulted in a marked prolongation of the post-PGI(2) decrease in Ppa for all blockers (motapizone at 2.2 microgram/kg, rolipram at 5.5 microgram/kg, zaprinast at 100 microgram/kg). The most effective agents, zardaverine (50 microgram/kg) and tolafentrine (100 microgram/kg), augmented the maximum Ppa drop during nebulization by approximately 30-50% and prolonged the post-PGI(2) pulmonary vasodilation to > 30 min, without affecting systemic arterial pressure and arterial oxygenation. We conclude that subthreshold systemic doses of monoselective PDE 3, 4, and 5 inhibitors and in particular dual-selective PDE 3/4 inhibitors cause significant amplification of the pulmonary vasodilatory response to inhaled PGI(2), while limiting the hypotensive effect to the pulmonary circulation. Combining nebulized PGI(2) with low-dose systemic PDE inhibitors may thus offer a therapeutic strategy to achieve selective pulmonary vasodilation in acute and chronic pulmonary hypertension.
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PMID:Low-dose systemic phosphodiesterase inhibitors amplify the pulmonary vasodilatory response to inhaled prostacyclin in experimental pulmonary hypertension. 1055 12

Aerosolized prostacyclin (PGI(2)) has been suggested for selective pulmonary vasodilation, but its effect rapidly levels off after termination of nebulization. Stabilization of the second-messenger cAMP by phosphodiesterase (PDE) inhibition may offer a new strategy for amplification of the vasodilative response to nebulized PGI(2). In perfused rabbit lungs, continuous infusion of the thromboxane mimetic U46619 was used to establish stable pulmonary hypertension [increase in pulmonary arterial pressure (pPA) from approximately 7 to approximately 32 mm Hg], which is accompanied by progressive edema formation and severe disturbances in gas exchange with a predominance of shunt flow (increase from <2 to approximately 58%, as assessed by the multiple inert gas elimination technique). In the absence of PGI(2), dose-effect curves for intravascular and aerosol administration of the specific PDE3 inhibitor motapizone, the PDE4 inhibitor rolipram, and the dual-selective PDE3/4 inhibitor tolafentrine on pulmonary hemodynamics were established (potency rank order: rolipram > tolafentrine approximately motapizone; highest efficacy on coapplication of rolipram and motapizone). Ten-minute aerosolization of PGI(2) was chosen to effect a moderate pPA decrease (approximately 4 mm Hg; rapidly returning to prenebulization values within 10-15 min) with only a slight reduction in shunt flow (approximately 49%). Prior application of subthreshold doses of i.v. or inhaled PDE3 or PDE4 inhibitors, which per se did not affect pulmonary hemodynamics, caused prolongation of the post-PGI(2) decrease in pPA. The most effective approach, rolipram plus motapizone, amplified the maximum pPA decrease in response to PGI(2) to approximately 9 to 10 mm Hg, prolonged the post-PGI(2) vasorelaxation to >60 min, reduced the extent of lung edema formation by 50%, and decreased the shunt flow to approximately 19% (i.v. rolipram/motapizone) and 28% (aerosolized rolipram/motapizone). We conclude that lung PDE3/4 inhibition, achieved by intravascular or transbronchial administration of subthreshold doses of specific PDE inhibitors, synergistically amplifies the pulmonary vasodilatory response to inhaled PGI(2), concomitant with an improvement in ventilation-perfusion matching and a reduction in lung edema formation. The combination of nebulized PGI(2) and PDE3/4 inhibition may thus offer a new concept for selective pulmonary vasodilation, with maintenance of gas exchange in respiratory failure and pulmonary hypertension.
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PMID:Subthreshold doses of specific phosphodiesterase type 3 and 4 inhibitors enhance the pulmonary vasodilatory response to nebulized prostacyclin with improvement in gas exchange. 1064 Feb 87

Inhalation of aerosolized prostacyclin (PGI(2)) exerts selective pulmonary vasodilation, but its effect is rapidly lost after termination of nebulization. Amplification of the vasodilatory response to inhaled PGI(2) might be achieved by phosphodiesterase (PDE) inhibitors to stabilize its second messenger, cAMP. We established stable pulmonary hypertension in perfused rabbit lungs by continuous infusion of U-46619. Short-term (10-min) aerosolization maneuvers of PGI(2) effected a rapid, moderate decrease in pulmonary arterial pressure, with post-PGI(2) vasorelaxation being lost within 10-15 min, accompanied by a marginal reduction in shunt flow. Preceding administration of subthreshold doses of the PDE inhibitors theophylline, dipyridamole, and pentoxifylline via the intravascular or inhalational route, which per se did not influence pulmonary hemodynamics, caused more than doubling of the immediate pulmonary arterial pressure drop in response to PGI(2) and marked prolongation of the post-PGI(2) vasorelaxation to >60 min (all PDE inhibitors via both routes of application). This was accompanied by a reduction in shunt flow in the case of aerosolized theophylline (27.5%), pentoxifylline (30.5%), and dipyridamole (33.4%). Coaerosolization of PGI(2) and PDE inhibitors may be considered as a therapeutic strategy in pulmonary hypertension.
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PMID:Combination of nonspecific PDE inhibitors with inhaled prostacyclin in experimental pulmonary hypertension. 1170 31

First reports on the use of inhaled nitric oxide (NO) in patients were published in 1991. These reports confirmed data from animal experiments which suggested a selective vasodilatory effect of inhaled NO in pulmonary vessels. As the main clinical effects, both improved oxygenation and a drop of pulmonary artery pressure despite unchanged arterial pressure were observed. Since then, many studies have evaluated the effects of inhaled NO as well as of other aerosolised vasodilators (e.g. PGI(2), PGE(1), nitrates, phosphodiesterase-inhibitors) in patients with pulmonary hypertension, acute right heart failure and/or life-threatening hypoxemia. However, primary pulmonary hypertension of the newborn (PPHN) is the only indication for which inhaled NO has been clinically approved so far. Although an obvious clinical benefit in outcome from inhaled vasodilators has never been formally documented, good clinical efficacy has resulted in an increasing "off label" use of the concept both in Germany and worldwide, particularly with respect to anaesthesia and intensive care medicine. The present article aims to review both the pathophysiological and pharmacological basis of inhaled vasodilators, to critically reevaluate their potential clinical indications and to give a perspective on future developments in the field.
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PMID:[Inhaled vasodilators]. 1239 20

Miconazole is widely used clinically as an anti-fungal agent and experimentally as a cytochrome P450 (CYP) inhibitor. In rat coronary arteries that produce PGI(2) as the major arachidonic acid (AA) metabolite, activation of the large-conductance K(+) (BK) channels in coronary arterial smooth muscle cells by AA was inhibited by miconazole but not by the CYP inhibitor SKF525A. Activation of BK currents in coronary smooth muscle cells by carbacyclin or iloprost also was inhibited by miconazole but not by SKF525A, suggesting that miconazole might have properties other than those of CYP inhibition. In addition, carbacyclin-induced dilation of isolated mesenteric arteries was inhibited by treatment with miconazole (51.9+/-4.2% dilation in control, n=7 versus 30.1+/-4.0% with miconazole, n=4, p<0.005) but not SKF525A (52.8+/-3.6%, n=8). In contrast, miconazole did not affect BK channel activation and vasodilation produced by the phosphodiesterase inhibitor RO-201724. In cultured coronary smooth muscle cells, carbacyclin (1microM) stimulated cAMP production by 22-fold (183+/-29pmol/mg at baseline, 4062+/-212pmol/mg with carbacyclin, n=3, p<0.001). The carbacyclin effect was significantly attenuated by treatment with miconazole (1542+/-201pmol/mg, n=3, p<0.001 versus carbacyclin alone), but not by SKF525A (3460+/-406pmol/mg, n=3, p=NS versus carbacyclin alone). These results indicate that in addition to its CYP inhibition properties, miconazole inhibits PGI(2) signaling. Hence, experiments using miconazole as a CYP inhibitor should be interpreted with caution.
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PMID:Inhibition of PGI2 signaling by miconazole in vascular smooth muscle cells. 1684 84

Prostacyclin (PGI(2)) stimulates adenyl cyclase to synthesize cAMP within the vascular smooth muscle resulting in vasodilatation. Milrinone inhibits cAMP clearance by phosphodiesterase type III. We studied the dose response of pulmonary and systemic hemodynamics to intratracheal (IT) PGI(2) in newborn lambs with pulmonary hypertension (PH) and whether intravenous milrinone potentiate these effects. IT-PGI(2) at varying doses was administered to lambs with PH induced by prenatal ductal ligation. IT-PGI(2) doses were repeated in the presence of intravenous milrinone (bolus-100 microg/kg followed by infusion at 1 microg/kg/min). Increasing doses of IT-PGI(2) significantly decreased mean pulmonary arterial pressures (PAP) and pulmonary vascular resistance (PVR) and increased pulmonary blood flow (PBF). Intravenous milrinone by itself produced a significant reduction in PVR and a significant increase in PBF. Intravenous milrinone significantly shortened the onset, prolonged the duration and degree of pulmonary vasodilation produced by PGI(2). We conclude that intravenous milrinone potentiates the pulmonary vasodilator effects of PGI(2) at lower doses.
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PMID:Effects of prostacyclin and milrinone on pulmonary hemodynamics in newborn lambs with persistent pulmonary hypertension induced by ductal ligation. 1698 89

Prostanoids are cyclic lipid mediators which arise from enzymic cyclooxygenation of linear polyunsaturated fatty acids, e.g. arachidonic acid (20:4 n 6, AA). Biologically active prostanoids deriving from AA include stable prostaglandins (PGs), e.g. PGE(2), PGF(2alpha), PGD(2), PGJ(2) as well as labile prostanoids, i.e. PG endoperoxides (PGG(2), PGH(2)), thromboxane A(2) (TXA(2)) and prostacyclin (PGI(2)). A "Rabbit aorta Contracting Substance" (RCS) played important role in discovering of labile PGs. RCS was discovered in the Vane's Cascade as a labile product released along with PGs from the activated lung or spleen. RCS was identified as a mixture of PG endoperoxides and thromboxane A(2). Stable PGs regulate the cell cycle, smooth muscle tone and various secretory functions; they also modulate inflammatory and immune reactions. PG endoperoxides are intermediates in biosynthesis of all prostanoids. Thromboxane A(2) (TXA(2)) is the most labile prostanoid (with a half life of 30 s at 37 degrees C). It is generated mainly by blood platelets. TXA(2) is endowed with powerful vasoconstrictor, cytotoxic and thrombogenic properties. Again the Vane's Cascade was behind the discovery of prostacyclin (PGI(2)) with a half life of 4 min at 37 degrees C. It is produced by the vascular wall (predominantly by the endothelium) and it acts as a physiological antagonist of TXA(2). Moreover, prostacyclin per se is a powerful cytoprotective agent that exerts its action through activation of adenylate cyclase, followed by an intracellular accumulation of cyclic-AMP in various types of cells. In that respect PGI(2) collaborates with the system consisting of NO synthase (eNOS)/nitric oxide free radical (NO)/guanylate cyclase/cyclic-GMP. Both cyclic nucleotides (c-AMP and c-GMP) act in synergy as two energetic fists which defend the cellular machinery from being destroyed by endogenous or exogenous aggressors. Recently, a new partner has been recognized in this endogenous defensive squadron, i.e. a system consisting of heme oxygenase (HO-1)/carbon monoxide (CO)/biliverdin/biliverdin reductase/bilirubin. The expanding knowledge on the pharmacological steering of this enzymic triad (PGI(2)-S/eNOS/HO-1) is likely to contribute to the rational therapy of many systemic diseases such as atherosclerosis, diabetes mellitus, arterial hypertension or Alzheimer diseases. The discovery of prostacyclin broadened our pathophysiological horizon, and by itself opened new therapeutic possibilities. Prostacyclin sodium salt and its synthetic stable analogues (iloprost, beraprost, treprostinil, epoprostenol, cicaprost) are useful drugs for the treatment of the advanced critical limb ischemia, e.g. in the course of Buerger's disease, and also for the treatment of pulmonary artery hypertension (PAH). In this last case a synergism between prostacyclin analogues and sildenafil (a selective phosphodiesterase 5 inhibitor) or bosentan (an endothelin ET-1 receptor antagonist) points our to complex mechanisms controlling pulmonary circulation. At the Jagiellonian University we have demonstrated that several well recognised cardiovascular drugs, e.g. ACE inhibitors (ACE-I), statins, some of beta-adrenergic receptor antagonists, e.g. carvedilol or nebivolol, anti-platelet thienopyridines (ticlopidine, clopidogrel) and a metabolite of vitamin PP--N(1)-methyl-nicotinamide--all of them are endowed with the in vivo PGI(2)-releasing properties. In this way, the foundations for the Endothelial Pharmacology were laid.
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PMID:Prostacyclin among prostanoids. 1827 80

Activation of the G protein G(s) results in increases in cAMP, a necessary step in the pathway for ATP release from rabbit and human erythrocytes. In all cells, the level of cAMP is the product of its synthesis by adenylyl cyclase and its hydrolysis by phosphodiesterases (PDEs). Both iloprost (Ilo), a PGI(2) analog, and isoproterenol (Iso), a beta-agonist, stimulate receptor-mediated increases in cAMP in rabbit and human erythrocytes. However, the specific PDEs associated with each of these signaling pathways in the erythrocyte have not been fully characterized. Previously, we reported that PDE3B is present in rabbit and human erythrocyte membranes and that PDE3 inhibitors potentiate Ilo-induced increases in cAMP. Here we report that inhibitors of either PDE2 or PDE4, erythro-9-(2-hydroxy-3-nonyl)adenine (EHNA) and rolipram, respectively, potentiate Iso-induced increases in cAMP in rabbit and human erythrocytes. Importantly, these inhibitors had no effect on cAMP increases associated with the incubation of erythrocytes with Ilo. In addition, we establish, for the first time, the presence of PDE2A protein in rabbit and human erythrocyte membranes. Finally, we determined that preincubation of human erythrocytes with EHNA and rolipram together potentiate Iso-induced ATP release, whereas preincubation with cilostazol enhances Ilo-induced release of ATP. These results are consistent with the hypothesis that, in rabbit and human erythrocytes, Ilo-induced increases in cAMP and ATP release are regulated by PDE3, whereas those associated with Iso are regulated by the activities of both PDE2 and PDE4. These studies demonstrate that PDE activity in these cells is localized to specific signaling pathways.
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PMID:Iloprost- and isoproterenol-induced increases in cAMP are regulated by different phosphodiesterases in erythrocytes of both rabbits and humans. 1925 89

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