Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.1.4.3 (phospholipase C)
 18,461 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Recent studies have shown that mastoparan, an amphiphilic peptide derived from wasp venom, accelerates guanine nucleotide exchange and GTPase activity of purified GTP-binding proteins. In the present study we have examined the functional consequences of exposure of intact human platelets to mastoparan. Mastoparan promoted rapid (less than or equal to 1 min) dose-dependent increases in 5-hydroxy[14C]tryptamine and beta-thromboglobulin release from dense-granule and alpha-granule populations respectively. The exocytotic response did not result from a lytic effect of mastoparan and occurred in the complete absence of platelet shape change and aggregation. Liberation of [3H]arachidonate and increases in cytosolic [Ca2+] (detected with fura 2) were not observed in platelets stimulated with mastoparan. Similarly, in platelets preloaded with [3H]inositol during reversible electroporation, mastoparan did not cause the accumulation of [3H]inositol phosphates. Mastoparan-induced secretion was unaffected by preincubation with either the protein kinase C inhibitor staurosporine (10 nM-10 microM) or prostacyclin (PGI2; 100 ng/ml) and was not accompanied by phosphorylation of the 45 kDa protein kinase C substrate or the 20 kDa protein normally associated with platelet activation. The G-protein inhibitor guanosine 5'-[beta-thio]diphosphate (GDP[S]; 1 mM) attenuated the secretion induced by mastoparan in both intact and saponin-permeabilized platelets. Encapsulation of GDP[S] during reversible permeabilization inhibited mastoparan-induced secretion, providing evidence for an intracellular action of GDP[S]. In all these studies thrombin (0.05-0.2 unit/ml) elicited characteristic responses, and thrombin-induced secretion was inhibited by staurosporine, PGI2 and GDP[S]. Mastoparan also increased intra-platelet cyclic AMP in a dose-dependent manner. Mastoparan and PGI2 increased 32P incorporation into a protein of approx. 24 kDa, whereas phosphorylation of a 50 kDa substrate was only seen in PGI2-stimulated platelets. These results indicate that mastoparan promotes secretion by a mechanism which does not involve stimulation of phospholipase C and suggest that the secretory event may result either from a direct fusogenic action of mastoparan and/or from stimulation of the putative exocytosis-linked G-protein, Ge.
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PMID:Mastoparan promotes exocytosis and increases intracellular cyclic AMP in human platelets. Evidence for the existence of a Ge-like mechanism of secretion. 131 May 99

Endothelin-3 (ET-3) stimulated phosphoinositide metabolism and synthesis of prostaglandins in cultured rat Kupffer cells. ET-3-induced hydrolysis of phosphoinositides was characterized by the production of various inositol phosphates and of glycerophosphoinositol. The mechanism of ET-3-stimulated metabolism of phosphoinositides and synthesis of prostaglandins appeared to be distinct from the effect of platelet-activating factor (PAF) on these processes described previously [Gandhi, Hanahan & Olson (1990) J. Biol. Chem. 265, 18234-18241]. On a molar basis ET-3 was significantly more potent than PAF in stimulating phosphoinositide metabolism, e.g. ET-3-induced hydrolysis of phosphoinositides occurred at 1 pM, whereas PAF was ineffective at concentrations less than 1 nM. Upon challenging Kupffer cells with both ET-3 and PAF, an additive stimulation of phosphoinositide metabolism was observed, suggesting that the actions of these factors may be exerted on separate phosphoinositide pools. Treatment of Kupffer cells with pertussis toxin resulted in an inhibition of ET-3-induced phospholipase C activation; in contrast, cholera toxin treatment caused potentiation of ET-3-stimulated phospholipase C activity. Both toxins, however, inhibited PAF-stimulated phospholipase C activity. The present results suggest that the stimulatory effects of ET-3 and PAF on the phosphodiesteric metabolism of phosphoinositides in Kupffer cells require different guanine-nucleotide-binding proteins. Furthermore, the effects of bacterial toxins on ET-3- and PAF-induced phosphoinositide metabolism were not mediated by cyclic AMP. ET-3-induced metabolism of phosphoinositides was inhibited completely in Kupffer cells pretreated with ET-3, suggesting homologous ligand-induced desensitization of the ET-3 receptors. In contrast, similar experiments using PAF showed only a partial desensitization of subsequent PAF-induced phosphoinositide metabolism. In contrast to the increased production of prostaglandins E2 and D2 observed upon stimulation of Kupffer cells with PAF, ET-3 stimulated the biosynthesis of prostaglandin E2 only. Consistent with their additive effects on phosphoinositide metabolism, PAF and ET-3 exhibited an additive stimulation of the synthesis of prostaglandin E2.
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PMID:A comparative study of endothelin- and platelet-activating-factor-mediated signal transduction and prostaglandin synthesis in rat Kupffer cells. 131 Jun 1

Atherogenesis is associated with alterations in the properties of different cell types, including monocytes/macrophages (foam cell formation), platelets (increased aggregation), endothelial cells (injury), and smooth muscle cells (SMCs) (lipid accumulation or foam cell formation). Oxidized low density lipoproteins (ox-LDL) play a key role in this vascular pathology. This study investigated the ability of ox-LDL to elicit chemical signaling events in cultured human vascular smooth muscle cells (VSMCs). Ox-LDL was found to stimulate phospholipase C-mediated phosphoinositide turnover in human VSMCs. This response occurred rapidly (within 1 minute) and at low concentrations of ox-LDL (half-maximal effective concentration, approximately 5 micrograms/ml). Ox-LDL-stimulated inositol phosphate accumulation in human VSMCs was inhibited by pretreatment of cells with phorbol 12-myristate 13-acetate and with compounds that elevate cyclic AMP or cyclic GMP. Ca2+ antagonists also blocked the effects of ox-LDL on phosphoinositide turnover. Inhibitors of receptor-endocytotic processes (including receptor clustering, cross-linking, and cytoskeleton-dependent internalization) effectively prevented ox-LDL-induced inositol phosphate generation. The data suggest that ox-LDL promotes phospholipase C-mediated phosphoinositide turnover in a manner analogous to that for other Ca(2+)-mobilizing hormones. The results also support an association between phosphoinositide turnover and receptor-mediated endocytosis. Prevention of the direct effects of ox-LDL on SMCs could prove an interesting therapeutic avenue for the prevention of atherosclerosis.
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PMID:Oxidized low density lipoproteins stimulate phosphoinositide turnover in cultured vascular smooth muscle cells. 131 38

ATP promoted biphasic effects on both basal and fMLP-stimulated arachidonic acid (AA) release in neutrophil-like HL60 cells: stimulation in the micromolar range (EC50 = 3.2 +/- 0.9 microM) and inhibition at higher concentrations (EC50 = 90 +/- 11 microM). ATP also inhibited UTP- and platelet activating factor-stimulated AA release. Only stimulatory effects of ATP on basal or fMLP-stimulated phospholipase C were observed. The inhibitory effect of ATP on AA release was not due to reacylation of released AA, chelation of extracellular Ca2+, cell permeabilization, or changes in the rise of [Ca2+]i induced by agonist. The inhibition was rapid, being detected within 5-15 s. The inhibitory effect of ATP on fMLP-stimulated AA release could be desensitized by pretreatment of the cells with 2 mM ATP, but not 20 microM ATP, the concentration that resulted in maximal release of AA and inositol phosphates. The inhibition by ATP was neither dependent on generation of adenosine by ATP hydrolysis nor the result of direct interaction of ATP with P1 purinergic receptors. Among other nucleotides tested (CTP, GTP, ITP, TTP, XTP, adenosine 5'-(beta,gamma-methylene)triphosphate (AMP-PCP), adenyl-5'-yl imidodiphosphate (AMP-P(NH)P), ADP, adenosine 5'-O-(3-thiotriphosphate) (ATP gamma S), and UTP), only UTP and ATP gamma S displayed biphasic effects with potencies and efficacies almost identical to those of ATP. The other nucleotides only exhibited stimulatory effects (EC50 = 60-300 microM). The results are consistent with a model of dual regulation of AA release by two distinct subtypes of P2U receptors in HL60 cells.
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PMID:Dual regulation of arachidonic acid release by P2U purinergic receptors in dibutyryl cyclic AMP-differentiated HL60 cells. 131 16

We investigated the regulatory mechanisms of endothelin (ET)-1 production in cultured rat mesangial cells (MC), with a special focus on the roles of protein kinase A (PKA)- and protein kinase C (PKC)-mediated signaling systems. Vasoactive agents and growth promoting factors, including platelet-derived growth factor, vasopressin and thrombin, which act through receptors coupled to the phospholipase C-mediated signaling system, as well as phorbol ester and fetal calf serum stimulated ET-1 production. This effect was attenuated in PKC-depleted or H-7 (a PKC inhibitor) treated MC. On the other hand, an increase in intracellular cyclic AMP by forskolin or beta-adrenergic agonist, isoproterenol, which act as anti-mitogenic agents, inhibited serum-stimulated ET-1 production. In addition this effect was mimicked by the addition of 8-bromo-cyclic AMP to the medium. The effect of isoproterenol was abolished by propranolol. H-8, a PKA inhibitor, attenuated the inhibitory effect of forskolin. These findings suggest that ET-1 production in MC is regulated by interaction of both positive and negative signals mediated by PKC- and PKA-dependent mechanisms.
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PMID:Regulation of endothelin-1 production in cultured rat mesangial cells. 131 23

1. The presence of adenosine receptors linked to adenylate cyclase activity and their functional role in calcium-evoked 5-hydroxytryptamine (5-HT) release was investigated in rat basophilic leukaemia (RBL) cells, a widely used model for studying the molecular mechanisms responsible for stimulus-secretion coupling. 2. In [3H]-5-HT-loaded cells triggered to release by the calcium ionophore A23187, a biphasic modulation of 5-HT secretion was induced by adenosine analogues, with inhibition of stimulated release at nM and potentiation at microM concentrations, suggesting the presence of adenosine receptor subtypes mediating opposite effects on calcium-dependent release. This was also confirmed by results obtained with other agents interfering with adenosine pharmacology, such as adenosine deaminase and the non-selective A1/A2 antagonist 8-phenyl-theophylline. 3. Similar biphasic dose-response curves were obtained with a variety of adenosine analogues on basal adenylate cyclase activity in RBL cells, with inhibition and stimulation of adenosine 3':5'-cyclic monophosphate (cyclic AMP) production at nM and microM concentrations, respectively. The rank order of potency of adenosine analogues for inhibition and stimulation of adenylate cyclase activity and the involvement of G-proteins in modulation of cyclic AMP levels suggested the presence of cyclase-linked A1 high-affinity and A2-like low-affinity adenosine receptor subtypes. However, the atypical antagonism profile displayed by adenosine receptor xanthine antagonists on cyclase stimulation suggested that the A2-like receptor expressed by RBL cells might represent a novel cyclase-coupled A2 receptor subtype.4. Micromolar concentrations of adenosine analogues could also increase inositol phospholipid hydrolysis and inositol tris-phosphate formation in both unstimulated cells and in cells triggered to release by the calcium ionophore. The stimulation was constant, small and additive to that exerted by the calcium ionophore.5. It is concluded that RBL cells express both A1 and A2-like adenosine receptors which exert opposite effects on 5-HT release and intracellular cyclic AMP levels. However, besides modulation of cyclic AMP levels, additional transduction pathways, such as modulation of phospholipase C activity, may contribute to the release response evoked by adenosine analogues in this cell-line.
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PMID:Adenosine receptors in rat basophilic leukaemia cells: transductional mechanisms and effects on 5-hydroxytryptamine release. 131 28

The effects of the selective metabotropic glutamate receptor agonist 1-aminocyclopentane-trans-1,3-dicarboxylate (t-ACPD) on forskolin-stimulated cyclic AMP formation in guinea-pig cerebral cortex slices were determined. t-ACPD inhibited the accumulation of [3H]cyclic AMP by approximately 80%, with an IC50 value of 35 +/- 4 microM. The effect was reversible and stereoselective, with the 1S,3R isomer being approximately 400-fold more potent than the 1R,3S isomer. L-Glutamate (over a restricted concentration range) also partially inhibited the response to forskolin, but quisqualate, alpha-amino-3-hydroxy-5-methyl-4-isoxazolepropionate (AMPA), and N-methyl-D-aspartate (NMDA) were ineffective. The effect of t-ACPD was not blocked by antagonists of the phospholipase C-linked metabotropic glutamate receptor, the AMPA ionotropic glutamate receptor, or the NMDA receptor. In summary, our results indicate the presence of a glutamate receptor in guinea-pig brain that is activated selectively by t-ACPD and that is negatively linked to adenylyl cyclase.
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PMID:Inhibition of forskolin-stimulated cyclic AMP formation by 1-aminocyclopentane-trans-1,3-dicarboxylate in guinea-pig cerebral cortical slices. 131 57

In FRTL-5 thyroid cells, extracellular ATP, a P2-agonist, not only stimulates phospholipase C but also inhibits forskolin- or thyrotropin (TSH)-induced stimulation of adenylate cyclase in a pertussis toxin-sensitive manner [Okajima, Sato, Nazarea, Sho, & Kondo (1989) J. Biol. Chem. 264, 13029-13037]. We have now found that, in pertussis toxin-treated cells, ATP can directly stimulate adenylate cyclase. Although adenylate cyclase modulation occurs through ATP metabolites such as AMP and adenosine, we show that extracellular ATP itself also regulates cyclic AMP production, based on the following: (1) the actions of ATP were imitated by hydrolysis-resistant ATP analogues, (2) the elimination of adenosine by adenosine deaminase decreased the effect of ATP only partially, at least at concentrations greater than 10 microM-ATP, and (3) the amount of AMP produced from ATP was too low to account for the ATP effects. To identify the respective receptors for the three different actions of ATP, we established an antagonist profile. Suramin, which has been reported to be a P2-receptor antagonist, inhibited ATP-induced phospholipase C activation in a competitive fashion, but did not affect ATP-induced adenylate cyclase modulation. On the other hand, 8-cyclopentyl-1,3-diphenylxanthine competitively antagonized both the stimulatory and inhibitory ATP actions on cyclic AMP levels, but did not influence the activation of phospholipase C by ATP. The order of potency for various xanthine derivatives was clearly different with respect to their antagonistic effects on the stimulation and inhibition of adenylate cyclase induced by ATP. We conclude that ATP activates three receptors, each of which is coupled to a different signal transduction system in FRTL-5 cells, i.e. phospholipase C activation, and adenylate cyclase activation and inhibition.
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PMID:Extracellular ATP stimulates three different receptor-signal transduction systems in FRTL-5 thyroid cells. Activation of phospholipase C, and inhibition and activation of adenylate cyclase. 131 67

1. Agonists known to increase cyclic AMP levels in gastrointestinal smooth muscles were studied in isolated circular muscles of the canine antrum to investigate the mechanisms of the inhibitory effects of these agents. 2. Muscles were electrically active, generating typical slow wave activity. Cytosolic Ca2+ ([Ca2+]cyt; measured by Indo-1 fluorescence) and tension increased in response to slow waves. 3. Stimulation by isoprenaline (via beta 2-receptors) or forskolin, in the presence or absence of acetylcholine, inhibited the plateau phase and reduced phasic [Ca2+]cyt and contractile responses. 4. Vasoactive intestinal peptide (VIP) and calcitonin gene-related peptide (CGRP), had similar effects to isoprenaline and forskolin. 5. Increases in the plateau phase of slow waves and the associated increases in [Ca2+]cyt and tension caused by direct activation of voltage-dependent Ca2+ channels by Bay K 8644 (0.1 microM) were also reduced by forskolin. 6. Isoprenaline and forskolin induced negative chronotropic effects, but VIP increased frequency. 7. At a given level of [Ca2+]cyt, contractions were greater under control conditions than in the presence of isoprenaline, VIP and CGRP, suggesting that part of the inhibition produced by these agents may be due to decreased Ca2+ sensitivity of the contractile apparatus. 8. Experiments performed on alpha-toxin-permeabilized muscles confirmed that cyclic AMP-dependent effects involve reduced Ca2+ sensitivity of the contractile apparatus. Addition of cyclic AMP (3-300 microM) caused a reduction in Ca(2+)-induced contraction at a constant level of Ca2+ (pCa 5.5). 9. These results suggest that increased cyclic AMP and probably subsequent activation of protein kinase A: (i) decrease [Ca2+]cyt and contraction by an inhibition of Ca2+ influx during slow waves, and (ii) decrease the sensitivity of the contractile apparatus to [Ca2+]cyt. The membrane effects might occur directly by inhibition of Ca2+ channels or indirectly by increasing the open probability of K+ channels which would tend to cause premature repolarization of slow waves.
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PMID:Cyclic AMP-mediated regulation of excitation-contraction coupling in canine gastric smooth muscle. 131 33

An ectoenzyme hydrolyzing diadenosine polyphosphates (ApnA) to AMP and Ap(n-1) has been studied in cultured chromaffin cells from bovine adrenal medulla. The KM value for extracellular Ap4A hydrolysis was 2.90 +/- 0.72 microM, the V(max) value obtained was 11.59 +/- 0.92 pmol/min x 10(6) cells (116 pmol/min.mg total protein). Ap3A, Ap5A, Ap6A, and Gp4G were competitive inhibitors of Ap4A hydrolysis with K(i) values of 3.65, 1.10, 1.20, and 2.65 microM, respectively. Phosphatidylinositol-specific phospholipase C removes the ApnA hydrolase activity from cultured chromaffin cells, suggesting an anchorage of this protein to the plasma membrane through the phosphatidylinositol. The turnover time for this enzyme calculated in the presence of cycloheximide was 38.94 +/- 1.53 hr for cultured chromaffin cells.
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PMID:Extracellular hydrolysis of diadenosine polyphosphates, ApnA, by bovine chromaffin cells in culture. 132 12


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