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)

Phosphatidylinositol phosphodiesterase activated by diacylglycerol is substantially inhibited by all phospholipids containing a phosphocholine head group, including phosphatidylcholine, hydrogenated phosphatidylcholine, choline plasmalogen, lysophosphatidylcholine, lysocholine plasmalogen, sphingomyelin and sphingosylphosphocholine. The sphingosine-containing phospholipids are the most inhibitory. Phosphatidic acid does not inhibit, and phosphatidylethanolamine activates the hydrolysis still further. Sphingomyelin is highly inhibitory to a diacylglycerol-stimulated intestinal mucosal phospholipase A2, or a liver lysosomal phospholipase A1 + A2, both hydrolysing a phosphatidylcholine substrate. Sphingomyelin [20% molar (20 mol of sphingomyelin/80 mol of phosphatidylethanolamine)] activates phosphatidylethanolamine hydrolysis by intestinal mucosal phospholipase A2, and then at higher concentrations (40% molar) substantially inhibits the activity. The results are discussed in relation to possible molecular reorganizations brought about in the hydrated phospholipid substrate complex, and in particular the possible stabilizing role of sphingomyelin in the maintenance of membrane structure, and hence in the modulation of phospholipase activity.
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PMID:The inhibition of diacylglycerol-stimulated intracellular phospholipases by phospholipids with a phosphocholine-containing polar group. A possible physiological role for sphingomyelin. 299 96

Human polymorphonuclears release a platelet-activating factor (PAF-acether) when challenged with various stimuli. PAF-acether is a mediator that is synthesized during cell activation in a process in which a phospholipase A2 and an acetyltransferase take part. These enzymes are finely regulated and accordingly PAF-acether release may be modulated. The authors have studied some of the transductory mechanisms which are triggered during cell stimulation and the effect of their pharmacological modulation on PAF-acether release. Theophylline, methylisobutylxanthine and dipyridamole, which block phosphodiesterase of cyclic nucleotides, induce a dose-dependent inhibition of PAF-acether release without affecting phagocytic uptake. Polyamines (dansylcadaverine, rimantadine and amantadine) reduced PAF-acether release and the phagocytic process in an order of potency similar to their ability to inhibit phospholipid methylation and the cholinephosphotransferase pathway. The calmodulin antagonist trifluoperazine induced a dose-dependent inhibition of PAF-acether release and acetyltransferase at concentrations from 10(-4) to 10(-5) M. Hence it appears that modulation of PAF-acether release can be obtained by different pharmacological blockades: phosphodiesterase of cyclic nucleotides, phospholipid metabolism and calcium-calmodulin.
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PMID:Synthesis of platelet-activating factor from human polymorphonuclear leukocytes: regulation and pharmacological approaches. 299 66

In the course of studies of the possible regulation of cellular phospholipase A2 activities by calcium and calmodulin, it was observed that some of the commercial preparations of calmodulin contained significant phospholipase A2 activity. Six commercially available calmodulin sources were compared for the presence of contaminating phospholipase A2 activity, relative purity by SDS-gel electrophoresis, and relative biological activity in stimulating calmodulin-deficient phosphodiesterase. One of the commercial calmodulin sources contained a relatively high specific phospholipase A2 activity (1.30 +/- 0.11 nmol [1-14C]arachidonic acid released/mg protein per h) and yielded two major bands in SDS-gel electrophoresis. Two of the calmodulin sources tested were relatively free of phospholipase A2 activity, were quite pure (one band on SDS-gel) and had high biological activity in stimulating calmodulin-deficient phosphodiesterase. Thus, investigators using commercially available preparations of calmodulin should be aware of the contamination of some of these sources by phospholipase A2 activity. These findings may be of importance to investigators considering the role of calmodulin in activating a variety of calcium-dependent enzymes, including phospholipase A2.
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PMID:Contamination of commercial preparations of calmodulin by phospholipase A2. 300 96

Among all the purified components from A. acutus venom, including ADPase, 5'-nucleotidase, phospholipase A2 and fibrinogenases, only the venom ADPase (50-100 micrograms/ml) shows marked inhibitory action on ADP (10 microM)-, collagen (10 micrograms/ml)- and sodium arachidonate (100 microM)-induced platelet aggregations of rabbit platelet-rich plasma. The venom 5'-nucleotidase (100 micrograms/ml) inhibited ADP-induced platelet aggregation by 31 +/- 4% (n = 4, P less than 0.05). Fibrinogenolytic enzymes (fractions I and IX, 100 micrograms/ml) did not significantly inhibit platelet aggregation induced by ADP (10 microM), collagen (10 micrograms/ml) or sodium arachidonate (100 microM). However, when the fibrinogenase (fraction IX, 100 micrograms/ml) was preincubated with platelet-rich plasma for 30 min it inhibited collagen (20 micrograms/ml)- and ADP (10 microM)-induced platelet aggregations by 34 +/- 9% (n = 4, P less than 0.05) and 35 +/- 6% (n = 4, P less than 0.05), respectively. The phospholipase A2 (100 micrograms/ml) did not affect platelet aggregation. The venom ADPase is a single chain polypeptide with a molecular weight of 94,000. The specific ADPase activity is estimated to be 4.3 mu moles Pi/min/mg of protein. It also possesses phosphodiesterase and weak 5'-nucleotidase activities.
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PMID:Platelet aggregation inhibitors from Agkistrodon acutus snake venom. 303 52

The ability of azelastine to influence antigen-induced contractile responses (Schultz-Dale phenomenon) in isolated tracheal segments of the guinea-pig was investigated and compared with selected antiallergic drugs and inhibitors of arachidonic acid metabolism. Indomethacin produced a significant leftward shift of the antigen concentration-effect curve. The inhibitory activity of azelastine on anaphylactic responses in guinea-pig trachea was dependent on the duration of exposure (preincubation period). The relative order of potency (antianaphylactic activity) at calculated IC50 level was as follows: FPL 55712 (a leukotriene receptor antagonist) greater than nordihydroguaiaretic acid (a lipoxygenase inhibitor) greater than p-bromophenacyl bromide (a phospholipase A2 inhibitor) greater than BW 755c (a dual inhibitor of lipoxygenase and cyclo-oxygenase) greater than theophylline (a phosphodiesterase inhibitor) greater than azelastine greater than diphenhydramine (H1 histamine-receptor antagonist) greater than ketotifen greater than disodium cromoglycate. FPL 55712 (added 5 min before antigen challenge) was about 12 times as potent as azelastine (added 2 h before antigen challenge). The incubation of tracheal segments with azelastine and BW 755c for a period of 30 min was found to inhibit indomethacin-augmented anaphylactic responses. These observations seem to suggest that azelastine and BW 755c interfere with the synthesis/release of the products of lipoxygenase/leukotriene synthetase pathway (e.g., leukotrienes) in the mediation of allergic responses in airway smooth muscles.
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PMID:Modulation of in vitro anaphylaxis of guinea-pig isolated tracheal segments by azelastine, inhibitors of arachidonic acid metabolism and selected antiallergic drugs. 308 2

Inositol phospholipid degradation and release of phospholipid-bound arachidonic acid was induced in intact peritoneal macrophages by exposure to phorbol myristate acetate (PMA) or zymosan particles. PMA, known to activate protein kinase C, selectively enhanced the deacylation of phosphatidylinositol (i.e., degradation by phospholipase A), while zymosan particles enhanced degradation via both phospholipase A and inositol lipid phosphodiesterase (phospholipase C). The release of arachidonic acid was found to correlate with the degradation of phosphatidylinositol by the phospholipase A pathway and could be dissociated from the phospholipase C-catalyzed cleavage of inositol phospholipids in several experimental situations: (i) when PMA was the stimulus, (ii) by the difference in Ca2+ dependence between the two enzymatic processes when zymosan was the stimulus and (iii) by the parallel inhibition by chlorpromazine of the phospholipase A pathway and arachidonic acid release, but not inositol phospholipid phosphodiesterase. In addition, phloretin, a reported inhibitor of protein kinase C, was found to inhibit arachidonic acid release and the deacylation of phosphatidylinositol. The results are consistent with a model in which arachidonic acid release is mediated by phospholipase(s) A and in which PMA or the phosphodiesterase-catalyzed degradation of phosphoinositides causes activation of the phospholipase A pathway via protein kinase C.
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PMID:Evidence for a catalytic role of phospholipase A in phorbol diester- and zymosan-induced mobilization of arachidonic acid in mouse peritoneal macrophages. 308 22

The plasma membranes of bovine adrenal chromaffin cells were isolated and the activities of enzymes involved in arachidonic acid liberation were investigated. Only a minute activity of phospholipase A2 (phosphatide 2-acylhydrolase, EC 3.1.1.4) could be detected using externally added phosphatidylcholine (PC) and phosphatidylethanolamine (PE) as substrate. When membranes were treated with exogenous phospholipase C (orthophosphoric acid diester phosphohydrolase, EC 3.1.4.1) there was a liberation of free fatty acids from the sn-2 position of PC. The enzyme responsible for this effect could be demonstrated to be a diacylglycerol lipase (glycerol ester hydrolase, EC 3.1.1.3) localized in the plasma membrane. Using phosphatidylinositol (PI) as a substrate, it was found that an endogenous phospholipase C exists which co-purifies with the membrane preparation. The produced diacylglycerol is subsequently hydrolyzed by diacylglycerol lipase liberating arachidonic acid. The two enzymes, phospholipase C and diacylglycerol lipase were characterized. Phospholipase C was found to be calcium dependent and PI specific, showing an activity of 60 pmol/micrograms protein per h (1.2 mM Ca2+), whereas the diacylglycerol lipase was calcium independent hydrolyzing diacylglycerol at a rate of 7.2 pmol/micrograms protein per h. The lipase but not the phospholipase C was inhibited 50% by 1.7 mM para-bromophenacylbromide.
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PMID:Phospholipase C and diacylglycerol lipase activities associated with plasma membranes of chromaffin cells isolated from bovine adrenal medulla. 308 88

A model for the regulation of erythropoietin production has been presented. This model proposes that a primary O2-sensing reaction in the kidney is initiated by a decrease in ambient PO2, a rapid decrease in gas exchange in the lung, a diminished oxygen-carrying capacity of hemoglobin, a molecular deprivation of oxygen, or a decrease in renal blood flow. It is proposed that the primary oxygen-sensing reaction may trigger the release of several mediators that stimulate adenylate cyclase through a receptor-activated stimulation of a G protein in the renal cell membrane. Some of the agents that are thought to be released during hypoxia, which may trigger this cascade, are adenosine (A2 activation), eicosanoids (PGE2, PGI2, and 6-keto PGE1), oxygen-free radicals (superoxide and H2O2), and catecholamines with beta-2 adrenergic receptor agonist properties. The activation of adenylate cyclase generates cyclic AMP, which activates protein kinase A, leading to the production of a phosphoprotein that, in turn, activates a nuclear protein involved in transcription and/or translation for erythropoietin biosynthesis and/or secretion. A second part of this model concerns the effect of hypoxia on a renal cell membrane phosphodiesterase and the generation of inositol triphosphate and diacylglycerol. Diacylglycerol may interact with diacylglycerol lipase to generate arachidonic acid, which, together with arachidonic acid generated by the interaction of phospholipase A2 on membrane phospholipids, produces eicosanoids. Eicosanoids may play a secondary role in Ep production/secretion. The model further proposes that calcium levels in both renal and liver cells may be important in regulating erythropoietin biosynthesis and/or secretion. It is proposed that an increase in intracellular calcium leads to the inhibition of erythropoietin biosynthesis and/or secretion and a decrease in intracellular calcium increases erythropoietin production. The specific mechanism by which calcium regulates erythropoietin biosynthesis and secretion is not well understood. However, a good correlation is seen with several agents that decrease intracellular calcium and increase erythropoietin production as well as with other agents that increase intracellular calcium and decrease erythropoietin production. When inositol triphosphate levels are increased, an increase in the mobilization of intracellular calcium from the endoplasmic reticulum or another intracellular pool occurs. This increased intracellular calcium probably activates a calcium calmodulin kinase and produces a phosphoprotein that inhibits erythropoietin production/secretion.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Pharmacologic modulation of erythropoietin production. 328 82

The enzymatic activities of four samples of Malayan cobra venom were investigated. There was significant variation in the contents of L-amino acid oxidase, alkaline phosphomonoesterase, acetylcholinesterase, phospholipase A, 5'-nucleotidase and hyaluronidase. The phosphodiesterase content was, however, constant. Storage of the lyophilized venom powder at 25 degrees C for 1 month did not affect the enzymatic activities. The venom enzymatic activities were generally also stable at 4 degrees C in 0.85% saline solution. After incubation at 37 degrees C for 39 days in 0.85% saline solution, the venom still retained considerable amounts of enzymatic activities. SP-Sephadex C-25 ion-exchange chromatography of the venom showed that the phospholipase A, L-amino acid oxidase, 5'-nucleotidase, phosphodiesterase and alkaline phosphomonoesterase exist in multiple forms.
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PMID:Enzymatic activities of Malayan cobra (Naja naja sputatrix) venoms. 343 96

Venoms from 20 species of stinging Hymenoptera, including nine species of ants and nine species of social wasps, were quantitatively analyzed for the following enzymic activities: phospholipase A, hyaluronidase, lipase, esterase, protease, acid phosphatase, alkaline phosphatase and phosphodiesterase. Phospholipase and hyaluronidase were present in all the venoms, with activity levels generally higher among the wasps than the ants (P less than 0.05). Lipase was present in high activity in several social wasp venoms and one ant venom, in low levels in two other ant venoms and absent from four tested snake venoms. Two-carbon esterase activity was present in the venoms of five social wasps and one ant. Non-specific protease was present at very high activity levels in the venoms of an army ant species and was also present in the venoms of a social wasp and another ant. Acid phosphatase activity was present in eight of the nine ant venoms, but was essentially absent from all the social wasp venoms. Alkaline phosphatase activity was clearly detectable in the venoms of only two species of ants. Phosphodiesterase, an enzyme not previously detected in insect venoms, was present in the venoms of three closely related ant species. Venoms with generally high enzymic activities included those of Polistes infuscatus, Vespula (V.) squamosa and Pogonomyrmex badius; those with low activities included Dolichovespula maculata, Apoica pallens and Dasymutilla lepeletierii. The 20 venoms were ranked according to overall activity levels using the eight enzyme activities plus lethal, hemolytic and pain-inducing activities. They were also compared phylogenetically using these 11 activities.
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PMID:Comparative enzymology of venoms from stinging Hymenoptera. 354 39


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