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)

This study examined the platelet-aggregating and procoagulant activities of two hematogenously disseminating tumors, a mouse lymphoblastic leukemia (L5178Y) and a mouse renal adenocarcinoma (RAG). Tumor-induced human platelet aggregation was inhibited by addition of the following agents to platelet-rich plasma (PRP): a calcium channel blocker (verapamil), a chelator of divalent cations (EDTA), stimulators of adenylate cyclase (2-fluoroadenosine and forskolin), and inhibitors of cAMP phosphodiesterase (oxagrelate and papaverine). The platelet-aggregating activities of both cell lines were completely blocked by treatment of the cells with heat, sonication, phospholipase A2, and Triton X-100. These data suggest that L5178Y and RAG cell-induced human platelet aggregation are dependent on a heat-labile phospholipid component of the tumor cell membrane. L5178Y cells had greater platelet-aggregating activity in human plasma than in rat or mouse plasma, whereas RAG cells had greater procoagulant activity in rat or mouse plasma than in human plasma. The procoagulant activity of RAG cells in rat and mouse plasma was demonstrated by three lines of evidence: RAG cells induced heparinized PRP to clot; the thrombin inhibitor DAPA lengthened of the clotting time and the lag time before aggregation; and RAG cells shortened of the recalcification time of the plasma. The above data indicate that RAG cell-induced murine platelet aggregation and coagulation is dependent on thrombin generation.
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PMID:Murine tumor-induced platelet aggregation and coagulation: mechanisms, inhibitors, and species differences. 359 Jan 14

The enzyme contents of four venom samples of Calloselasma rhodostoma were analyzed. The venoms contained phosphodiesterase, alkaline phosphomonoesterase, 5'-nucleotidase, protease, phospholipase A, L-amino acid oxidase, hyaluronidase, arginine ester hydrolase, arginine amidase, fibrinogenase and coagulant enzyme activities. There is significant variation in the contents of coagulant enzyme, arginine ester hydrolase, hyaluronidase, protease, phosphodiesterase, alkaline phosphomonoesterase and L-amino acid oxidase. DEAE-Sephacel ion exchange chromatography of the venom resolved it into eight major protein fractions. The eight fractions were heterogeneous and exhibited more than one type of enzymatic activity. The 5'-nucleotidase, alkaline phosphomonoesterase, protease, coagulant enzyme, arginine ester hydrolase, arginine amidase and fibrinogenase exist in multiple forms.
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PMID:Enzymatic activities of Calloselasma rhodostoma (Malayan pit viper) venom. 375 Mar 51

Exposure of mouse peritoneal macrophages to ionophore A23187 caused a rapid and extensive Ca2+-dependent phospholipid degradation and mobilization of arachidonic acid. Phosphatidylinositol, phosphatidylcholine and phosphatidylethanolamine all contributed to the arachidonic acid release, although the ethanolamine phospholipids incorporated [3H]arachidonic acid more slowly during the prelabeling period, particularly the plasmalogen form. Several enzymatic pathways could be positively identified as contributing to the ionophore-induced phospholipid degradation by the use of several different radiolabeled phospholipid precursors: (i) a phospholipase A-mediated deacylation, (ii) a phosphodiesterase (phospholipase C) reaction, rapidly generating diacylglycerol units from inositol phospholipids, and (iii) enzymatic processes generating diacylglycerol and CDP- and phosphocholine/ethanolamine from phosphatidylcholine/ethanolamine. The diacylglycerol formed was in part phosphorylated and in part hydrolyzed to monoacylglycerol, with retention of its arachidonic acid. These, and other, results indicate that the Ca2+-ionophore activates several apparently distinct phospholipid-degrading processes, in contrast to stimuli acting via cellular receptors.
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PMID:Studies on the enzymatic pathways of calcium ionophore-induced phospholipid degradation and arachidonic acid mobilization in peritoneal macrophages. 392 88

A macromolecule binding 3H-methylcholanthrene (3H-MCA) and 3H-benzo(a)pyrene (3H-BaP) and sedimenting in the 4-5 S region of sucrose gradient (4.5 S) was identified in rat liver cytosol. The binding was displaced by 100-fold molar excess unlabeled ligands whereas 2,3,7,8-tetrachloro-dibenzo-p-dioxin (TCDD) was ineffective. The dissociation constant for both polycyclic aromatic hydrocarbons (PAHs) was of the order of 10(-8) M or lower. Both 3H-MCA and 3H-BaP bound to 4.5 S in a non covalent manner, since 92% of the bound radioactivity was extractable with ethyl ether. Furthermore the binding was strongly reduced by urea 8 M and by guanidine. HCl 4 M (99 and 70% respectively). Thin layer chromatography of the ethyl ether-solubilized radioactivity showed a peak comigrating with PAHs used as standards. When chromatographed on Sephadex G-200, 4.5 S was eluted as a sharp peak with an apparent molecular weight of 50-60,000 daltons. Enzyme treatment of liver cytosol showed that the 4.5 S binding sites were destroyed by micrococcal nuclease (92% of inhibition). Papain and phosphodiesterase I and II reduced the binding to 50%, whereas DNase I, DNase II, RNase, phospholipase A2 and C and trypsin were ineffective. These data suggest that the PAHs binding macromolecule of rat liver cytosol is a protein associated with a polynucleotide. The binding of both PAHs was enhanced by increasing the incubation temperature, the maximum being reached after 20-30 min at 37 degrees C. After 2.5 min at 65 degrees C, binding sites were completely destroyed. The same temperature-induced "activation" was obtained also by prewarming the cytosol at 37 degrees C in the absence of ligands.
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PMID:Polycyclic aromatic hydrocarbon binding macromolecules. Identification, characterization and temperature activation of a 4.5 S binding nucleoprotein. 406 Feb 44

Methylisobutylxanthine (MIX) raised cAMP levels and inhibited prostacyclin synthesis and arachidonic acid release in endothelial cells from both pig aorta and human umbilical vein. These effects were reversible and dose dependent on MIX concentrations. Dibutyryl cAMP (3 mM) alone did not inhibit prostacyclin synthesis or arachidonic acid release. When added with MIX, dibutyryl cAMP did not enhance the inhibition elicited by MIX. MIX inhibited the formation of lysophospholipids, 1,2-diacylglycerol and phosphatidic acid in bradykinin-stimulated pig endothelial cells, suggesting that the inhibition of prostacyclin synthesis resulted from an apparent inhibition of both phospholipase A2 and phospholipase C. Other phosphodiesterase inhibitors, theophylline and mopidamole, also raised cAMP levels and inhibited arachidonic acid release. However, there was no correlation between cAMP levels and these inhibitions. Forskolin, an adenylate cyclase activator, elevated intracellular cAMP levels with no apparent inhibition on prostacyclin synthesis. We conclude that the inhibitory effect of MIX on phospholipase A2 and phospholipase C is probably through mechanisms other than the elevation of the cAMP level.
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PMID:Inhibition of prostacyclin synthesis in endothelial cells by methylisobutylxanthine is not mediated through elevated cAMP level. 619 92

The guinea-pig lung parenchymal (GPLP) strip is sensitive to leukotrienes (LT) C4 and D4 (LTC4 and LTD4). These substances induce contractions during which thromboxane (TX) A2 (TxA2) is released. This event was measured both by bioassay of TxA2 and radioimmunoassay of thromboxane B2 (TxB2). Indomethacin partially inhibited the contractile response and completely abolished the release of TxA2. The proportional participation of TxA2 in the contractile response was calculated quantitatively, and appeared to be 70-90%. On basis of these results, it is concluded that only a small proportion of the contractions is due to the direct action of the leukotrienes and a major part to the formed thromboxane A2. The action of the phospholipase A2 (PLA2) inhibitor chloroquine and the phosphodiesterase inhibitor, 3-isobutyl-1-methyl-xanthine (IBMX), were measured both on the contraction and the TxA2 release. Chloroquine in a dose of 40 /micrograms/ml totally inhibited the TxA2 release induced by 50 ng LTD4. At higher doses, the contractions were also completely inhibited. IBMX in a dose of 22 /micrograms/ml inhibited both the contraction and the TxA2 release to a large extent. These effects are most probably due to an inhibition of the phospholipase A2 which is activated by the leukotrienes. It is supposed that chloroquine acts directly and that the action of IBMX is due to an increase in cyclic AMP, which also leads to an inhibition of the enzyme. After the incubation of lung strips with [1-14C] arachidonic acid (AA), mainly TxB2 and lipoxygenase products are formed.
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PMID:The effect of inhibitors on the LTD4-induced contractions and release of thromboxane A2 in the guinea pig lung parenchymal strip. 620

A protein resembling calmodulin was isolated from non-parenchymal and parenchymal cells of rat liver by affinity chromatography. The biological activity of the purified protein was assessed by the bovine brain cAMP phosphodiesterase assay. A highly sensitive radioimmunoassay as well as the cAMP phosphodiesterase method were employed to determine the calmodulin content of crude extracts from monolayer cultures of rat Kupffer cells and hepatocytes. An ATP-dependent, calmodulin-enhanced calcium transport was demonstrated in a membrane fraction of the non-parenchymal cells. Phospholipase A2 activity specific for 2-arachidonoyl phosphatide and with a pH optimum of 8.1 was measured in homogenized Kupffer cells; it was stimulated by agents previously shown to enhance prostaglandin synthesis in Kupffer cells, e.g. zymosan particles and lipopolysaccharide isolated from Salmonella minnesota. The increase in activity was completely prevented by pretreatment with or simultaneous addition of R 24571, a known calmodulin antagonist. However, if this inhibitor or calmodulin was added to the cell-free extract phospholipase A2 activity was not influenced. Phospholipase A1 activity could be detected at pH 5 only, showing a slight decrease in the homogenate of stimulated macrophages. Acyltransferase activity was high but independent of treatment of the Kupffer cells.
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PMID:Calmodulin content and activity of Ca2+-ATPase and phospholipase A2 in rat Kupffer cells. 623 Nov 83

1. A rat brain supernatant and microsomal fraction contained a phospholipase A1 enzyme which hydrolysed phosphatidylinositol at pH 8 in the absence of calcium. Triolein and phosphatidylcholine were not attacked under the same incubation conditions. 2. No evidence could be obtained for a phospholipase A2 in the microsomal preparation, and in the presence of Ca2+ the release of fatty acid observed was due to phosphatidylinositol phosphodiesterase followed by diacylglycerol lipase action. 3. Brain phosphatidylinositol phosphodiesterase showed extensive activity in the alkaline range (7-8.5) as well as at pH 5-5.5. The activity at higher pH values required higher calcium concentrations and disappeared on purification of the soluble enzyme by ammonium sulphate fractionation. 4. In general the ratio between inositol 1,2-(cyclic)phosphate and inositol 1-phosphate produced by phosphodiesterase action decreased with increasing pH.
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PMID:The catabolism of phosphatidylinisitol by an EDTA-insensitive phospholipase A1 and calcium-dependent phosphatidylinositol phosphodiesterase in rat brain. 627 69

Chemiluminescence was used as an indicator of the production of reactive oxygen species by thioglycollate-elicited rat peritoneal macrophages stimulated by A23187. This action of the ionophore was inhibited by bromophenacyl bromide and nordihydroguaiaretic acid, inhibitors of the phospholipase A2 and lipoxygenase enzymes, respectively. The cyclo-oxygenase inhibitors, indomethacin and aspirin, did not diminish the light output. Preincubation of the cells with the 8-bromo- or dibutyryl analogues of cyclic AMP or with the cyclic AMP-phosphodiesterase inhibitors theophylline and RO-20-1724, or with PGE2, inhibited the A23187-evoked chemiluminescence. The results suggest that he lipoxygenase pathway of arachidonic acid metabolism may make a significant contribution to reactive oxygen production. This process may be modulated, and its duration limited, by cyclic AMP-mediated actions of prostaglandins, which are products of the cyclo-oxygenation of arachidonate.
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PMID:Reactive oxygen production, arachidonate metabolism and cyclic AMP in macrophages. 630 77

Rat spleen lymphocytes were incubated for 3 h with [14C]arachidonic acid in foetal calf serum. It was found that arachidonic acid distributed into phospholipids in the order phosphatidylcholine greater than phosphatidylethanolamine greater than phosphatidylinositol. After labelling with arachidonic acid the lymphocytes were washed, and incubated for up to 2 h with non-radioactive palmitic, oleic or linoleic acid dissolved in ethanol. The presence of ethanol or palmitic acid during a 2 h post-incubation had little effect on the amount of radioactivity found in different lipid fractions. Both oleic acid and linoleic acid, however, brought about an accumulation (up to 8-fold) of radioactivity in the diacylglycerol fraction. These fatty acids also brought about a change of radioactivity in several phospholipids, notably in phosphatidylinositol, which lost more than 50% of its counts during the 2 h incubation. Although maximum effects were seen at 2 h, diacylglycerol radioactivity was increased by 100% within 5 min after adding the fatty acids. The minimum concentration of fatty acids used (50 microM) gave an almost maximum response. The results indicate that unsaturated fatty acids may activate phosphatidylinositol phosphodiesterase in lymphocytes, as they do in brain. The possibility that a phospholipase A is activated is discussed. Possible implications for any experiments in which cells are incubated with fatty acids are pointed out.
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PMID:Formation of diacylglycerol and degradation of phosphatidylinositol induced in rat lymphocytes by non-esterified oleic or linoleic acid. 640 33

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