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)

The phenolic preservative, methylparaben (MPB), has in the past been demonstrated to harbour definite pharmacological effects. In an attempt to examine the possible central effects of MPB, notably on cyclic nucleotides and cyclic nucleotide phosphodiesterase (PDE; EC 3.1.4.17), rats were orally treated with the drug (0.4% in rat food) for 3 weeks with cortex extracts being used for the various determinations. Three isozymes were identified by DEAE-cellulose anion exchange chromatography, namely the calmodulin/calcium-stimulated form or PDE I (peak I), the cGMP-stimulated form or PDE II (peak II), and an independent form not affected by either calmodulin or cGMP also known as PDE IV (peak III). The presence of MPB induced a significant decrease in cortical cAMP, as well as strongly stimulating the activity of PDE IV (peak III). In addition, a small, yet significant, increase in cGMP levels was observed. Since no increase in cGMP hydrolysis was observed, we conclude that chronic ingestion of MPB induces a preference for cAMP hydrolysis, which was confirmed by the increase in PDE IV (peak III) activity. PDE IV is a membrane-bound, low Km PDE exhibiting high selectivity for cAMP hydrolysis. While there was an increase in cGMP, we failed to observe an increase in the activity of the cGMP-stimulated PDE (PDE II). These data are discussed with reference to the possible membrane effects of MPB allowing it to alter both the kinetic properties of PDE IV with the resultant effects on cAMP, as well as a means whereby it may activate guanyl cyclase and increase cGMP.
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PMID:Central effects of the preservative, methylparaben. In vivo activation of cAMP-specific phosphodiesterase and reduction of cortical cAMP. 132 56

A yeast-mycelium (Y-M) transition in Candida albicans was induced by exogenous yeast extract, adenosine, adenosine 5'-monophosphate (AMP), adenosine 5'-diphosphate (ADP), adenosine 3':5' cyclic monophosphate (cAMP) and its analogue N6, O2'-dibutyryl adenosine 3':5'-cyclic monophosphate (dbcAMP) in defined liquid medium at 25 degrees C. Adenosine 5'-triphosphate (ATP) was found to delay germ tube formation in yeast cells, whereas the cAMP phosphodiesterase inhibitors, theophylline and caffeine, induced a Y-M transition. Intracellular and extracellular cyclic AMP levels increased during the yeast-mycelium transition and maximum levels of intracellular cyclic AMP coincided with maximum germ tube formation. Of the many inducers and inhibitors of germ tube and mycelium formation in C. albicans tested, including incubation at 37 degrees C or in the presence of 1.5 mM CaCl2, the calmodulin inhibitor calmidazolium (R24571) added together with CaCl2 induced the highest intra- and extracellular cyclic AMP levels. These results confirm the involvement of cyclic AMP in the yeast-mycelium transition of C. albicans.
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PMID:Effect of nucleosides and nucleotides and the relationship between cellular adenosine 3':5'-cyclic monophosphate (cyclic AMP) and germ tube formation in Candida albicans. 133 93

Calmodulin was isolated and purified from shrimp abdominal muscle by heat precipitation, ion exchange and hydrophobic interaction chromatography. The purified calmodulin was homogeneous when evaluated by polyacrylamide gel electrophoresis. A still remaining contaminant was eliminated by high performance liquid chromatography on a phenyl column. The biological and physicochemical properties of shrimp calmodulin such as amino acid composition, molecular weight and the ability to activate calmodulin-deficient bovine heart phosphodiesterase were compared to those of other invertebrate calmodulins.
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PMID:Isolation and purification of calmodulin from the shrimp, Crangon crangon. 133 28

Experiments were conducted using undifferentiated U937 cells, a human monocytic cell line, to establish an in vitro model to examine the hormonal regulation of the cyclic AMP (cAMP)-specific phosphodiesterase (PDE IV). Standard chromatographic techniques, coupled with the use of inhibitors and activators that are selective for various phosphodiesterase (PDE) isozymes, were used to establish the PDE isozyme profile in supernatant fractions of U937 cells. When PDE activity was assessed using 1 microM [3H]cAMP as a substrate, 70 to 90% of the total U937 cell supernatant activity in the major peak eluting from anion-exchange columns was inhibited by 30 microM rolipram, a selective inhibitor of PDE IV. The remaining activity was nearly abolished by 10 microM siguazodan or 10 microM cyclic GMP (cGMP,) selective inhibitors of the cGMP-inhibited PDE. Kinetic analyses of the enzyme activity contained within this major peak of PDE activity revealed a cAMP Km = 3 microM and a rolipram Ki = 0.5 microM, values characteristic of PDE IV. Additional studies revealed the presence of a small amount of Ca++/calmodulin-stimulated PDE, but no cGMP-stimulated PDE or cGMP-specific PDE activity. In an effort to induce PDE activity in intact U937 cells by producing a sustained increase in cAMP content, cells were treated for 4 hr with salbutamol (1 microM), rolipram (30 microM) or a combination of both agents. The combination of salbutamol and rolipram produced a 2- to 3-fold increase in PDE activity in U937 cells; when used alone, rolipram was without effect whereas salbutamol induced an increase that was approximately one-half of that observed with the combination. Isozyme isolation and characterization revealed that the overall elevation of cellular PDE activity could be accounted for by a 2- to 3-fold increase in the Vmax of PDE IV with no change in its Km. The induction of PDE IV by salbutamol was: 1) concentration- and time-dependent; 2) detectable only after prolonged (2-4 hr) agonist exposure; 3) preceded by an increase in cAMP content and an activation of cAMP-dependent protein kinase; 4) mimicked by 8-bromo-cAMP and prostaglandin E2; 5) reversible within 3 hr of salbutamol removal; and 6) abolished by cycloheximide or actinomycin D. Collectively, these results indicate that the major PDE isozyme in the soluble fraction of U937 cells is PDE IV and that the activity of this enzyme is increased markedly in cells after prolonged exposure to agents that increase cAMP content.
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PMID:Stimulation of beta adrenoceptors in a human monocyte cell line (U937) up-regulates cyclic AMP-specific phosphodiesterase activity. 133 58

The capacity of cultured bovine adrenal medullary cells to metabolize and export cyclic AMP has been studied. Basal cellular cyclic AMP levels were increased 50% by 100 microM 3-isobutyl-1-methylxanthine (IBMX) and rolipram, a class IV (cyclic AMP-specific) phosphodiesterase (PDE) inhibitor. They were not affected by inhibition of class I (Ca2+/calmodulin-dependent), class III (cyclic GMP-inhibited) or class V PDE (cyclic GMP-specific) with vinpocetine or 3-isobutyl-8-methoxymethyl-1-methylxanthine (8-methoxymethyl-IBMX), SK&F 94120, or MB 22,948, respectively, all at 100 microM. Furthermore, only IBMX and rolipram enhanced the cyclic AMP response to 0.3 microM forskolin. Rolipram had an EC50 of < or = 1 microM and was equally effective at 100 microM and 1 mM. IBMX enhanced cyclic AMP levels significantly more at 1 mM than at 100 microM. Neither vinpocetine nor 8-methoxymethyl-IBMX (100 microM) enhanced the Ca(2+)-dependent cyclic AMP response to K+ depolarization. Elevation of cyclic GMP levels with sodium nitroprusside (10 or 100 microM), to activate any cyclic GMP-stimulated class II PDE and to inhibit any cyclic GMP-inhibited class III PDE, also had no effect on basal or forskolin-stimulated cyclic AMP levels. In the presence of IBMX (1 mM), forskolin (5 microM) caused a rapid and large increase in cellular cyclic AMP levels which was maximal after about 5 min and declined slightly over 3 hr. Over this period, extracellular cyclic AMP levels rose almost linearly reaching levels 2-3 times those in the cells. The results indicate bovine adrenal medullary cells have a high capacity for sustained cyclic AMP export. Furthermore, two PDE isozymes appear to degrade cyclic AMP in these cells, a rolipram-sensitive, cyclic AMP-specific, class IV isozyme and a rolipram-insensitive isoform.
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PMID:Regulation of cyclic AMP metabolism in bovine adrenal medullary cells. 133 50

Transgenic mice with elevated levels of beta-cell calmodulin develop severe diabetes even though pancreatic beta-cells contain reserve levels of insulin. Electron microscopic examination of transgenic pancreas confirmed the presence of abundant insulin secretory granules and failed to reveal obvious morphological abnormalities. These observations suggested that excess calmodulin may specifically impair the secretory process. To directly assess the effect of excess calmodulin on beta-cell function we have isolated pancreatic islets from transgenic animals. Transgenic islets from 6- to 8-day-old mice used 40% less glucose than normal islets and contained 58% of the normal insulin content, 90% of the normal glucagon content, and 5-fold higher levels of calmodulin than islets from control mice of the same age. Parallel perifusions of normal and transgenic islets confirmed that excess calmodulin inhibited glucose-stimulated insulin secretion; first phase secretion was reduced by 60%, and second phase secretion was essentially absent. Static assays were performed to assess the response to other secretagogues. All fuel secretagogues tested were ineffective in stimulating insulin secretion from transgenic islets. Secretion in response to depolarizing levels of potassium was also severely impaired. The phosphodiesterase inhibitor 3-isobutyl-1-methyl-xanthine increased transgenic secretion, but not to the level obtained in normal islets. Of the compounds examined, only phorbol 12-myristate 13-acetate and carbachol, two substances thought to act in beta-cells by stimulation of protein kinase-C, produced equivalent secretion in normal and transgenic islets. Phorbol 12-myristate 13-acetate also appeared to restore second phase secretion in transgenic islets. These results indicate that the initial period of calmodulin-induced diabetes is due to a secretory defect. This defect appears to be distal to membrane depolarization and is selective for the second phase of insulin secretion.
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PMID:Elevated beta-cell calmodulin produces a unique insulin secretory defect in transgenic mice. 137 47

The cyclic nucleotide phosphodiesterase (PDE) forms present in frog atrial fibers were isolated and characterized by their drug sensitivities. DEAE-sephacel chromatography of cytosolic PDE activity resolved three major PDE forms: peak A hydrolyzed both adenosine 3',5'-cyclic monophosphate (cAMP) and guanosine 3',5'-cyclic monophosphate (cGMP) and was activated by calcium-calmodulin (PDE I); peak B also hydrolyzed both cAMP and cGMP but was activated by 5 microM cGMP (PDE II); peak C specifically hydrolyzed cAMP (PDE IV). Rolipram specifically inhibited PDE IV (Ki = 1.1 microM), whereas dipyridamole potently inhibited both PDE II (Ki = 4.6 microM) and PDE IV (Ki = 0.8 microM). Atrial fiber PDE I was preferentially inhibited by zaprinast (Ki = 10 microM). 3-Isobutyl-1-methyl xanthine (IBMX) and theophylline inhibited nonspecifically all three different enzymes. The positive inotropic drug CI 930 only inhibited the different isolated atrial PDE forms at concentrations greater than 200 microM. However, under assay conditions for which PDE IV was specifically inhibited (presence of 100 microM rolipram), an IC50 of 17 microM for CI 930 was observed on the remaining 26% cAMP hydrolytic activity of peak C (which could represent a cGMP-inhibited PDE form: PDE III). The same PDE forms were also found in frog ventricle. The major difference between frog atrial fiber (and ventricular tissue) PDEs and mammalian cardiac PDEs is that the main cytosolic cAMP-specific hydrolytic activity in frog heart is due to PDE IV rather than PDE III. Rolipram, dipyridamole, and zaprinast might be useful tools to investigate the participation of cAMP in frog atrial contraction (unpublished observations).
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PMID:Cyclic nucleotide phosphodiesterases from frog atrial fibers: isolation and drug sensitivities. 137 36

A novel compound, KS-505a was isolated from the culture broth of a strain identified as Streptomyces argenteolus A-2. The compound inhibited bovine brain Ca2+ and calmodulin-dependent cyclic-nucleotide phosphodiesterase with an IC50 value (the concentration causing 50% inhibition) of 0.065 microM. The compound around that concentration had little or no effect on heart calmodulin-dependent and -independent cyclic-nucleotide phosphodiesterases, and protein kinase C.
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PMID:KS-505a, a novel inhibitor of bovine brain Ca2+ and calmodulin-dependent cyclic-nucleotide phosphodiesterase from Streptomyces argenteolus. 137 73

Nitric oxide (NO) is an important molecular messenger accounting for endothelial-derived relaxing activity in blood vessels, mediating cytotoxic actions of macrophages, and functioning as a neurotransmitter in the brain and periphery. NO synthase (NOS) from brain has been purified to homogeneity and molecularly cloned. We now report that NOS is stoichiometrically phosphorylated by cAMP dependent protein kinase, protein kinase C, and calcium/calmodulin-dependent protein kinase, with each kinase phosphorylating a different serine site on NOS. Activation of PKC in transfected cells reduces NOS enzyme activity by approximately 77% in intact cells and by 50% in protein homogenates from these cells. Utilizing fluorescence spectroscopy we find that purified monomer NOS contains 1 molar equivalent of both FMN and FAD. This stoichiometry is supported by enzymatic digestion of the flavins with phosphodiesterase, and titration of the FMN with a specific FMN binding protein. We demonstrate that purified NOS is labeled by a photoaffinity derivative of calmodulin. These recognition sites on NOS provide multiple means for regulation of NO levels and "cross-talk" between second messenger systems.
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PMID:Nitric oxide synthase regulatory sites. Phosphorylation by cyclic AMP-dependent protein kinase, protein kinase C, and calcium/calmodulin protein kinase; identification of flavin and calmodulin binding sites. 137 33

Epinastine caused an inhibition of histamine release from rat peritoneal mast cells induced by both antigen-antibody reaction and compound 48/80. Epinastine was similarly effective in inhibiting compound 48/80-induced histamine release not only from isolated rat peritoneal mast cells but also from rat mesenterial pieces. Also, histamine release from lung pieces obtained from actively sensitized guinea pigs after exposure to antigen challenge was markedly inhibited by epinastine. The drug was effective in inhibiting not only Ca2+ uptake into lung mast cells in actively sensitized guinea pigs but also Ca2+ release from the intracellular Ca store of rat peritoneal mast cells exposed to both compound 48/80 and substance P. No significant changes were observed in phosphodiesterase activity in rat peritoneal mast cells treated with epinastine, while adenylate cyclase activity was augmented by epinastine. Epinastine has no inhibitory effect on histamine release induced by Ca2+ or IP3 from permeabilized mast cells. However, the drug significantly and dose-dependently suppressed calmodulin activity suggesting that histamine release inhibition due to epinastine may be partly attributable to Ca(2+)-calmodulin dependent process(es). The drug caused no visible changes in thermodynamic behavior of lipids, either in order parameter or in differential scanning calorimetry, indicating that the drug has no influence on membrane fluidity.
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PMID:Antiallergic effect of epinastine (WAL 801 CL) on immediate hypersensitivity reactions: (I). Elucidation of the mechanism for histamine release inhibition. 137 55

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