EC:3.1.4.3 - FACTA Search

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)

The rate of vanadate-sensitive 22Na+ uptake by isolated liver membrane vesicles, reflecting transport by Na+/K(+)-ATPase, was measured to study the role played by phospholipase C and protein kinase C in the regulation of this process by vasopressin. Na+ uptake was enhanced 2-3-fold by 100 nM [Arg8]vasopressin and the hormone effect was mimicked by 0.1 microM inositol 1,4,5-trisphosphate as well as by 1.0 microM myo-inositol. The stimulation by vasopressin was potentiated by phosphatidylinositol-specific phospholipase C from Bacillus thuringiensis (5-10 mU/ml). No effect of the bacterial enzyme was observed in the absence of the hormone. Phorbol myristate acetate (0.5-1 microM) suppressed the stimulation by vasopressin but had no effect in the absence of the hormone. High concentrations of bacterial phosphatidylinositol-specific phospholipase C (50-100 mU/ml) also antagonized the hormone stimulation. Staurosporine (50-100 nM) prevented the antagonistic effect of bacterial phospholipase C (50 mU/ml) and EGTA (1 mM) partially protected the hormonal stimulation in the presence of phorbol myristate acetate. Our results suggest that the stimulatory effect of vasopressin on Na+ transport is mediated by phospholipase C and products derived from the inositol moiety of membrane phospholipids. Membrane-associated protein kinase C appears to be at least partially responsible for the desensitization to stimulation by vasopressin.
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PMID:Vasopressin stimulation of vanadate-sensitive Na+ transport by liver plasma membrane vesicles. Evidence for regulation via phospholipase C and protein kinase C activities. 139 Aug 61

The stimulation of phospholipase D (PLD) activity by endothelin-1 (ET1) was investigated in rabbit iris sphincter prelabelled with [3H]myristic acid. In the presence of 0.5% ethanol, ET1 caused a time- and dose-dependent increase in the production of [3H]phosphatidylethanol ([3H]PEt). Within 30 s the peptide increased PEt formation by 30% and after 5 min increased it by 140%. The EC50 value for ET1-stimulated PEt formation was found to be 30 nM. This value is appreciably lower than the EC50 we previously obtained for ET1-induced inositol trisphosphate production (45 nM), but considerably higher than that for arachidonic acid release (1 nM). PEt formation was significantly stimulated by prostaglandin F20, phorbol 12,13-dibutyrate (PDBu), chloroform, A23187 and A1F4-, but it was not affected by carbachol or the platelet-activating factor. PDBu-stimulated PEt formation was blocked by staurosporine and it was not potentiated by A23187. Staurosporine had no effect on ET1-stimulated PEt formation. Our data indicate that ET1 stimulation of PLD occurs independently of protein kinase C activation, phospholipase C activation and intracellular Ca2+ mobilization, and phospholipase A2 activation. In this tissue the ET1 receptor is probably coupled to the three phospholipases through several G-proteins, and this appears to be species and receptor type specific.
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PMID:Activation of phospholipase D by endothelin-1 and other pharmacological agents in rabbit iris sphincter smooth muscle. 148 66

The present study specifically addresses the role of protein kinase C (PKC) activation in human endothelial cell Ca2+ mobilization, a response that is functionally coupled to the production of the potent arachidonate (AA) metabolite, prostacyclin (PGI2). Phorbol 12-myristate 13-acetate (PMA), alpha-thrombin, and sodium fluoride (NaF), a direct G-protein activator, produced a rapid and time-dependent translocation of PKC from the cytosol to the membrane. Activation of PKC by brief pretreatment of human umbilical vein endothelial cell (HUVEC) monolayers with PMA resulted in the inhibition of NaF-induced inositol phosphate increases and attenuation of both alpha-thrombin- and NaF-activated increases in intracellular Ca2+ (Ca2+i). Ca2+ mobilization induced by ionophore A23187 was not affected by PKC preactivation, suggesting PKC-dependent negative feedback inhibition of phosphatidylinositol (PI)-specific phospholipase C (PLC). Agonist-stimulated AA release and PGI2 synthesis in PMA-pretreated cultured human endothelial cells, however, was potentiated, and the enhanced PGI2 synthesis produced by A23187, NaF, and alpha-thrombin was dependent upon the dose of PMA. Treatment of HUVEC monolayers with an intracellular Ca2+ chelator, 1,2-bis(2-aminophenoxy)ethane-N,N,N'N'-tetraacetic acid-acetoxymethylester (BAPTA-AM), dramatically reduced alpha-thrombin-, NaF-, and A23187-induced PGI2 synthesis, demonstrating the importance of Ca2+i availability in PGI2 synthesis. BAPTA pretreatment did not inhibit PMA-induced PKC activation, and BAPTA-mediated inhibition of agonist-stimulated PGI2 synthesis was partially attenuated by prior PMA pretreatment. Staurosporine, a potent PKC inhibitor, at concentrations that inhibited PKC-induced phosphorylation of histone-1, augmented both alpha-thrombin- and NaF-induced production of inositol phosphates but markedly inhibited alpha-thrombin-, NaF-, and A23187-induced PGI2 synthesis. The downregulation of PKC activity by prolonged PMA treatment (18 h) produced similar inhibition of PGI2 synthesis by these agonists (approximately 50% inhibition). These studies indicate that the integrated phospholipase A2 and PLC activities are under complex regulation by factors that include both PKC activation and [Ca2+i]. PKC exerts dual effects on prostaglandin synthesis via negative regulation of Gp-coupled PI-specific PLC and positive feedback regulation of AA release and PGI2 synthesis. PKC is thus a critical determinant in the regulation of human endothelial cell prostaglandin synthesis by both receptor-mediated and G-protein-dependent cellular activation.
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PMID:Role of protein kinase C in the regulation of prostaglandin synthesis in human endothelium. 154 Mar 95

The T cell Ag (Ti-CD3) receptor complex has been proposed to regulate phosphoinositide-specific phospholipase C (PLC) through a cholera toxin (CTX)-sensitive guanine nucleotide-binding (G) protein. In this study, we have used CTX and staurosporine as pharmacologic probes to further define the linkage between the Ti-CD3 receptor and PLC activity in the human T cell line, Jurkat. CTX pretreatment inhibited Ti-CD3 receptor-dependent phosphoinositide hydrolysis and, concomitantly, protein tyrosine kinase activation in intact cells. Studies with electrically permeabilized Jurkat cells revealed that guanosine 5'-(3-O-thio) triphosphate stimulated an increase in PLC activity, that unlike the response to Ti-CD3 receptor ligation, was not affected by cellular pretreatment with CTX. In contrast, the phosphotyrosine phosphatase inhibitors, orthovanadate and molybdate anions, stimulated phosphoinositide hydrolysis in permeabilized cells through a CTX-sensitive mechanism of PLC activation. Additional studies with a known PTK inhibitor, staurosporine, supported the results obtained with CTX. Staurosporine pretreatment inhibited the phosphoinositide hydrolysis induced by anti-CD3 antibodies or phosphotyrosine phosphatase inhibitors, but failed to alter the G protein-dependent PLC activation response to guanosine 5'-(3-O-thio) triphosphate. The results of this study indicate that PLC activity(s) in Jurkat cells are regulated by both G protein- and PTK-dependent coupling mechanisms. However, the differential inhibitory effects of CTX and staurosporine on these PLC activation pathways strongly suggest that a protein tyrosine kinase activation event, rather than a G protein, mediates the functional linkage between the Ti-CD3 receptor and PLC activity in Jurkat cells.
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PMID:Signal transduction through the T cell antigen receptor. Activation of phospholipase C through a G protein-independent coupling mechanism. 170 24

These experiments examined the mechanism by which phenylephrine enhances beta-adrenoceptor-stimulated cyclic AMP formation in rat hypothalamic and preoptic area slices. To this end we manipulated phospholipase C. phospholipase A2, and protein kinase C activity in slices and assessed the effects of these manipulations on phenylephrine augmentation of isoproterenol-stimulated cyclic AMP generation. Since previous work indicated that estrogen enhances the alpha 1-component of cyclic AMP formation, we examined slices from both gonadectomized and estrogen-treated animals. The alpha 1-antagonist prazosin eliminated phenylephrine augmentation of the beta-response, suggesting that alpha 1-adrenergic receptors mediate the potentiation of cyclic AMP formation. Inhibition of protein kinase C by H7 attenuated the alpha 1-augmentation of beta-stimulated cyclic AMP formation. Staurosporine, a more potent protein kinase C inhibitor, completely abolished the alpha 1-augmenting response. In addition, phenylephrine potentiation of the isoproterenol response was not observed if protein kinase C was first stimulated directly with a synthetic diacylglycerol (1-oleoyl-2-acetyl-sn-glycerol) or phorbol ester (phorbol 12,13-dibutyrate). Neomycin, an inhibitor of phospholipase C, decreased alpha 1-receptor enhancement of beta-stimulated cyclic AMP formation, whereas quinacrine, an inhibitor of phospholipase A2, did not. The data suggest that the postreceptor mechanism involved in alpha 1-adrenergic receptor potentiation of cyclic AMP generation in hypothalamic and preoptic area slices includes activation of phospholipase C and protein kinase C.
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PMID:Protein kinase C and phospholipase C mediate alpha 1- and beta-adrenoceptor intercommunication in rat hypothalamic slices. 184 2

The temporal and dose-response relationships of platelet-activating-factor (PAF)-induced changes in the concentrations of cytosolic Ca2+ ([Ca2+]i), Ins(1,4,5)P3 and 1,2-diacylglycerol (DAG) were examined. In addition, phosphorylation of protein kinase C (PKC) substrate (40-47 kDa protein) was determined. In high-dose PAF-activated platelets, all three signal molecules increased rapidly and transiently, with the peak Ins(1,4,5)P3 concentration preceding maximal elevation of [Ca2+]i by 5 s. In low-dose PAF-activated platelets there were large increases in [Ca2+]i and dense-granule release, without any increase in Ins(1,4,5)P3 and DAG or 40-47 kDa protein phosphorylation. Staurosporine, a non-specific PKC inhibitor, produced enhanced elevations in the concentrations of Ins(1,4,5)P3, DAG and thromboxane B2, and the duration of the Ca2+ signal in platelets stimulated with a high dose, but not a low dose, of PAF. These results suggest there are both phospholipase C-dependent and -independent changes in Ca2+ homoeostasis. Endogenously activated PKC regulates the formation of signal molecules.
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PMID:The relationship between cytosolic Ca2+, sn-1,2-diacylglycerol and inositol 1,4,5-trisphosphate elevation in platelet-activating-factor-stimulated rabbit platelets. Influence of protein kinase C on production of signal molecules. 188 34

Rabbit platelets were labelled with [3H]glycerol and incubated with or without phorbol 12-myristate 13-acetate (PMA). Membranes were then isolated and assayed for phospholipase D (PLD) activity by monitoring [3H]phosphatidylethanol formation in the presence of 300 mM-ethanol. At a [Ca2+free] of 1 microM, PLD activity was detected in control membranes, but was 5.4 +/- 0.8-fold (mean +/- S.E.M.) greater in membranes from PMA-treated platelets. Under the same conditions, 10 microM-guanosine 5'-[gamma-thio]triphosphate (GTP[S]) stimulated PLD by 18 +/- 3-fold in control membranes, whereas PMA treatment and GTP[S] interacted synergistically to increase PLD activity by 62 +/- 12-fold. GTP[S]-stimulated PLD activity was observed in the absence of Ca2+, but was increased by 1 microM-Ca2+ (3.5 +/- 0.2-fold and 1.8 +/- 0.1-fold in membranes from control and PMA-treated platelets respectively). GTP exerted effects almost as great as those of GTP[S], but 20-30-fold higher concentrations were required. Guanosine 5'-[beta-thio]diphosphate inhibited the effects of GTP[S] or GTP, suggesting a role for a GTP-binding protein in activation of PLD. Thrombin (2 units/ml) stimulated the PLD activity of platelet membranes only very weakly and in a GTP-independent manner. The actions of PMA and analogues on PLD activity correlated with their ability to stimulate protein kinase C in intact platelets. Staurosporine, a potent protein kinase inhibitor, had both inhibitory and, at higher concentrations, stimulatory effects on the activation of PLD by PMA. The results suggest that PMA not only stimulates PLD via activation of protein kinase C but can also activate the enzyme by a phosphorylation-independent mechanism in the presence of staurosporine. However, under physiological conditions, full activation of platelet PLD may require the interplay of protein kinase C, increased Ca2+ and a GTP-binding protein, and may occur as a secondary effect of the activation of phospholipase C.
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PMID:Phorbol ester treatment of intact rabbit platelets greatly enhances both the basal and guanosine 5'-[gamma-thio]triphosphate-stimulated phospholipase D activities of isolated platelet membranes. Physiological activation of phospholipase D may be secondary to activation of phospholipase C. 212 96

Using permeabilized gonadotropes, we examined whether Ca2(+)-stimulated luteinizing-hormone (LH) exocytosis is mediated by the Ca2(+)-activated phospholipid-dependent protein kinase (protein kinase C). In the presence of high [Ca2+]free (pCa 5), alpha-toxin-permeabilized sheep gonadotropes secrete a burst of LH and then become refractory to maintained high [Ca2+]free. The protein kinase C activator phorbol myristate acetate (PMA) is able to stimulate further LH release from cells made refractory to high [Ca2+]free, suggesting that Ca2+ does not stimulate LH release by activating protein kinase C. Staurosporine, a protein kinase C inhibitor, inhibited PMA-stimulated (50% inhibition at 20 nM), but not Ca2(+)-stimulated, LH exocytosis. In cells desensitized to PMA by prolonged exposure to a high PMA concentration, Ca2(+)-stimulated LH exocytosis (when corrected for depletion of total cellular LH) was not inhibited. Ba2+ was able to stimulate LH exocytosis to a maximal extent similar to Ca2+, although higher Ba2+ concentrations were necessary. Ba2+ and Ca2+ stimulated LH exocytosis with a similar time course, and both were inhibitory at high concentrations. Furthermore, cells made refractory to Ca2+ were also refractory to Ba2+. These data strongly suggest that Ba2+ and Ca2+ act through the same mechanism. Since Ba2+ is a poor activator of protein kinase C, these findings are additional evidence against a major role for protein kinase C in mediating Ca2(+)-stimulated LH exocytosis.
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PMID:Calcium stimulates luteinizing-hormone (lutropin) exocytosis by a mechanism independent of protein kinase C. 236 86

The extracellular Ca2+ dependence of agonist stimulation of vascular smooth muscle (VSM) has been investigated in rat cultured aortic smooth muscle cells (SMCs) and isolated mesenteric resistance vessels (MRVs). Agonists such as [Arg8]vasopressin (AVP), angiotensin II (Ang II), and adenosine-5'-triphosphate (ATP) stimulated 45Ca2+ entry into the SMCs that was (a) independent of the extent to which the membranes were polarized, and (b) was not inhibited by organic Ca2+ channel antagonists. Measuring the intracellular Ca2+ concentration [( Ca2+]i) after stimulation with agonists revealed a rapid increase of [Ca2+]i, which was followed by a sustained rise that was insensitive to Ca2+ antagonists. In Ca2+-free medium, only the initial peak of [Ca2+]i was still observed, but the sustained response to the agonists disappeared completely. This observation indicates that the sustained elevation seen in Ca2+-containing medium was the consequence of agonist-induced Ca2+ entry. In MRVs, a corresponding Ca2+-antagonist-insensitive, agonist (norepinephrine and AVP)-induced tonic tension was also identified. Moreover, agonists were able to induce sustained tension in the MRVs regardless of whether the membrane was normally polarized or was previously depolarized (80 mM K+) upon their administration. The agonist-stimulated 45Ca2+ entry in the SMCs could be blocked by the multivalent cations La3+, Cd2+, Mn2+, Co2+, Ni2+, and Mg2+ (in this order of potency). Depolarization-induced 45Ca2+ influx was inhibited by these cations in the same order of potency, but was significantly more sensitive to Cd2+ and significantly less sensitive to La3+ than that stimulated by agonists. Treatment with 2-nitro-4-carboxyphenyl-N,N-diphenyl-carbamate (NCDC, a proposed inhibitor of phospholipase C) reduced both the agonist-induced 45Ca2+ influx and the sustained elevation of [Ca2+]i in the SMCs. NCDC also abolished both contraction and depolarization induced by agonists in the MRVs. The kinase C stimulator phorbol-12-myristate-13-acetate (PMA) inhibited the agonist-induced 45Ca2+ influx and sustained increase in [Ca2+]i in the SMCs, whereas the kinase C inhibitor staurosporine had no effect. In the MRVs, in contrast, PMA had no influence on agonist-induced contractions. Staurosporine (1 microM), however, completely prevented these contractions, as did NCDC, but, unlike NCDC, it did so without affecting the agonist-induced depolarization. These data support an important role of receptor-operated Ca2+-permeable channels in VSM activation by agonists and suggest that these channels may be controlled by intracellular enzymic pathways and second messenger systems.
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PMID:Receptor-operated calcium-permeable channels in vascular smooth muscle. 247 25

The inhibitory effect of the highly effective drug staurosporine on the early activation signal Ca2+ flux was investigated via multiparameter flow cytometry in human peripheral blood T lymphocytes. Staurosporine has been reported to be a specific inhibitor of protein kinase C. However, we show that it inhibits the Ca2+ influx in anti-CD3 and phytohemagglutinin-stimulated human CD4+ and CD8+ lymphocytes at concentrations between 1.0 and 10.0 ng/ml. Staurosporine decreases the number of Ca2+-positive CD4+ and CD8+ lymphocytes as well as the Ca2+ influx per cell; the drug also delays the time of the maximum response to polyclonal stimulation. In addition, we demonstrate that staurosporine affects the primary Ca2+ response via inhibition of the release of the membrane-bound Ca2+ from the endoplasmic reticulum in CD4+ and CD8+ lymphocytes. Binding studies of the anti-CD3 antibody to T lymphocytes indicate normal binding capacities in the presence of staurosporine. With respect to the classical scheme of T cell activation via phospholipase C, our data suggest that staurosporine may inhibit T cell activation primarily by its effect on the early Ca2+ flux signal.
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PMID:Complex Ca2+ flux inhibition as primary mechanism of staurosporine-induced impairment of T cell activation. 257 Jul 2

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