Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: EC:2.7.11.13 (protein kinase C)
49,245 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

This study investigated the cellular mechanisms underlying the endothelin-1 (ET-1)-induced contraction of rat aorta with focus on the involvement of phospholipase D (PLD). Preincubating rat aorta in Ca(2+)-free solution reduced the contraction by 80%, whereas diltiazem (10 microM), a voltage-operated Ca2+ channel blocker, caused only a small reduction (27%, P less than 0.05) of the contraction. In myo-[3H]inositol-labeled aorta, ET-1 stimulated the formation of [3H]inositol bisphosphate and [3H]inositol trisphosphate, indicating the activation of phospholipase C (PLC). In aorta labeled with 32PO4, [3H] myristic acid or [32P]lyso-platelet-activating factor followed by exposure to ethanol (0.5%), ET-1 stimulated phosphatidylethanol (PEt) production, suggesting that ET-1 activates PLD. The PEt response was not attenuated by staurosporine (ST, 0.1 microM), an inhibitor of protein kinase C (PKC) but was inhibited by removal of Ca2+. The ET-1-induced PEt response was at least additive to that induced by phorbol 12-myristate 13-acetate (1 microM). ET-1 also stimulated the release of 6-ketoprostaglandin F1 alpha (6-keto-PGF1 alpha) into the tissue medium. Unlike the PEt responses, the 6-keto-PGF1 alpha response could be inhibited by ST. Removal of Ca2+ abolished the response. These results suggest that 1) ET-1 activates multiple cellular mechanisms including PLC, PLD, and the arachidonate cascade; 2) PKC activation may not be essential for the ET-1 activation of PLD but may play an important role in the ET-1 stimulation of 6-keto-PGF1 alpha release; and 3) Ca2+ is an important factor in the ET-1-induced PLD activity and 6-keto-PGF1 alpha release.
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PMID:Activation of multiple mechanisms including phospholipase D by endothelin-1 in rat aorta. 131 92

Mucoid Pseudomonas aeruginosa bacteria impaired neutrophil functions, e.g. chemiluminescence response, and leukotriene formation to a significantly higher degree as compared to nonmucoid P. aeruginosa bacteria. To study the cell biological requirements for the different cellular response pattern by mucoid and nonmucoid (NM) P. aeruginosa bacteria, further experiments were performed with purified alginate, the mucoid exopolysaccharide of P. aeruginosa (MEP). In this regard the MEP (alginate) significantly reduced the zymosan-induced leukotriene B4 (LTB4) formation (from 40 +/- 7 to 2 +/- 4 ng). The chemiluminescence response induced by NM bacteria was abolished when the bacteria were precoated with the MEP. Mucoid and NM P. aeruginosa bacteria interacted with components of the cellular signal transduction pathway to a different degree. Mucoid bacteria induced a 2-fold enhanced GTPase activity but activated the protein kinase C (PKC) to a lesser degree than NM P. aeruginosa bacteria. Prior exposure of neutrophils to the MEP increased the sodium fluoride (NaF)-induced GTPase activity and guanylylimidodiphosphate binding [Gpp(NH)p] by approximately 60 and 30%, respectively. The phorbol myristic acid-induced PKC activation was inhibited by 30-40% in the presence of the MEP. However, the MEP by itself was inactive in all assay systems. Our results indicate that the MEP represents an important component which modulates neutrophil responses of mucoid as compared to NM P. aeruginosa bacteria, e.g. the chemiluminescence response, LTB4 generation, and the interaction with components (G proteins, PKC) of the signal transduction pathway.
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PMID:Alginate--its role in neutrophil responses and signal transduction towards mucoid Pseudomonas aeruginosa bacteria. 133 22

Our previous studies have suggested that phosphatidylcholine-specific phospholipase D (PtdCho-PLD) plays a role in IgE-dependent diacylglycerol production, protein kinase C activation and mediator release in the RBL 2H3 mast cell line. We have extended these studies to examine the mechanisms by which PtdCho-PLD may be regulated in these cells. RBL 2H3 cellular lipids were labeled with [14C]arachidonic acid or [3H]myristic acid, then PtdCho-PLD activity was monitored by the formation of radiolabeled phosphatidylethanol when ethanol was included in the incubation medium. Trinitrophenol-ovalbumin conjugate (10 ng/ml), when added to cells previously sensitized with anti-(trinitrophenelated mouse IgE) (0.5 microgram/ml), ionomycin (1 microM) and thapsigargin (0.1 microM), stimulated PtdCho-PLD activation and mediator release in cells incubated in buffer containing 1.8 mM calcium, but not in cells incubated in calcium-free, buffer. Phorbol 12-myristate 13-acetate (0.1 microM) activated PtdCho-PLD in both buffers, but on its own did not trigger mediator release. When intracellular calcium was chelated with 5,5'-dimethyl-1,2-bis(2- aminophenoxy)ethane-N,N,N',N'-tetraacetic acid, trinitrophenol-ovalbumin conjugate failed to activate PtdCho-PLD and histamine release. Similarly, down-regulation of protein kinase C activity by long-term exposure to the phorbol ester (0.1 microM) and preincubation of the cells with protein kinase inhibitors resulted in the loss of the trinitrophenol-ovalbumin response on PtdCho-PLD activity and histamine release. Taken together, the above results suggest that IgE-dependent PtdCho-PLD activation is dependent on both activation of protein kinase C and a rise in the intracellular free calcium concentration.
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PMID:The role of calcium and protein kinase C in the IgE-dependent activation of phosphatidylcholine-specific phospholipase D in a rat mast (RBL 2H3) cell line. 137 1

The mechanism by which an agonist, binding to a cell surface receptor, exerts an effect on events in the nucleus is not known. We have previously shown (Leach, K. L., Ruff, V. A., Wright, T. M., Pessin, M. S., and Raben, D. M. (1991) J. Biol. Chem. 266, 3215-3221) that alpha-thrombin treatment of IIC9 cells results in increased levels of cellular 1,2-diacylglycerol (DAG) and activation of protein kinase C (PKC). Here, we have examined whether changes in nuclear PKC and nuclear DAG also are induced following alpha-thrombin treatment. IIC9 cells were treated with 500 ng/ml alpha-thrombin, and nuclei were then isolated. Western blot analysis using isozyme-specific antibodies demonstrated the presence of PKC alpha, but not PKC epsilon or zeta in the nuclei of cells treated with either phorbol 12-myristate 13-acetate or alpha-thrombin. The increase in nuclear PKC alpha levels was accompanied by a 10-fold increase in nuclear PKC specific activity and stimulated phosphorylation of at least six nuclear proteins. The rise in nuclear PKC levels occurred rapidly and reached a maximum at 30-60 s, which was followed by a decline back to the control level over the next 15 min. In addition, alpha-thrombin treatment resulted in an immediate rise in DAG mass levels in the nuclear fractions. Kinetic analysis indicated that a maximum increase in DAG levels occurred 2.5-5 min after the addition of alpha-thrombin and remained elevated for at least 30 min. In cells labeled with [3H]myristic acid, alpha-thrombin treatment induced an increase in radiolabeled nuclear diglycerides, suggesting that the stimulated nuclear DAGs are derived, at least in part, from phosphatidylcholine. Our results suggest that increases in both nuclear DAG levels and PKC activity following alpha-thrombin treatment may play a role in mediating thrombin-induced nuclear responses such as changes in gene expression and cellular proliferation.
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PMID:Alpha-thrombin stimulates nuclear diglyceride levels and differential nuclear localization of protein kinase C isozymes in IIC9 cells. 140 Apr 91

Evidence for a general role of phospholipase D in signal transduction is accumulating. In the present study, the activity of the enzyme was investigated in heart tissue under basal conditions and after addition of phorbol esters or aluminum fluoride (AlF-4; 10 mM NaF plus 10 microM AlCl3). Atria of rats and chickens were incubated with [3H]-myristic acid in order to label preferentially phosphatidylcholine. Under basal conditions, the tissues generated choline and phosphatidic acid (PtdOH), the primary catalytic products of phospholipase D. When 0.5 or 2.0% ethanol was present, [3H]-phosphatidylethanol (PETH) was rapidly formed at the expense of [3H]-PtdOH. This transphosphatidylation reaction is specific for phospholipase D activity. The basal formation of PETH was not inhibited by a Ca(2+)-free, EGTA-containing medium. The phorbol ester 4 beta-phorbol-12 beta, 13 alpha-dibutyrate (PDB), which is known to activate protein kinase C, enhanced the net formation of choline, whereas the inactive 4 beta-phorbol-13 alpha-acetate (PAc) was ineffective. PDB (0.2 microM), in contrast to PAc, also increased the formation of [3H]-PtdOH and, in the presence of ethanol, of [3H]-PETH. The PDB-evoked formation of PETH occurred again at the expense of PtdOH. Treshold and maximum effective concentrations of PDB were 10 nM and 0.2-0.6 microM, respectively. The effects of PDB on either choline efflux and generation of PETH showed the same Ca(2+)-dependency, i.e., both effects were blocked by a Ca(2+)-free, EGTA-containing medium, but not by a Ca(2+)-free medium without EGTA.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Phospholipase D in heart: basal activity and stimulation by phorbol esters and aluminum fluoride. 148 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

This study was performed to determine the effects of phorbol esters and ionomycin on phospholipase D (PLD) activity in bovine corneal epithelial cells (BCEC). The cells were prelabeled with [3H]myristic acid and incubated for specific time intervals with various test agents in the presence and absence of ethanol. The PLD activity was assayed by monitoring the formation of labeled phosphatidylethanol ([3H]PEt) in [3H]myristate labeled cells. In the absence of ethanol, 1 microM phorbol 12-myristate 13-acetate (PMA) increased the formation of labeled phosphatidic acid ([3H]PA) with no significant effect on the radioactivity of [3H]PEt. In the presence of 85 mM ethanol, whereas there was only a small further increase in [3H]PA, the formation of [3H]PEt was increased by several-fold, demonstrating activation of PLD by the phorbol ester. The effects of PMA were time- and dose-dependent, and were mimicked by phorbol 12,13-dibutyrate. The inactive phorbol derivatives, 4-alpha-phorbol, 4-alpha-phorbol 12,13-didecanoate, 4-alpha-phorbol 12-myristate 13-acetate and 4-alpha-phorbol 12,13-dibutyrate, were without effect. Short-time (30 min) incubation of BCEC with staurosporine or H-7, or prolonged (20 hours) incubation with PMA rendered the cells less sensitive to subsequent treatment with PMA, suggesting that activation of PLD in the cells is mediated by protein kinase C (PKC). Addition of 20 microM ionomycin in the presence of ethanol also increased the formation of [3H]PA and [3H]PEt in a time- and dose-dependent manner. Co-presence of ionomycin and PMA at submaximal concentrations in the incubation medium resulted in increased formation of [3H]PA and [3H]PEt which was less than their individual effects combined, indicating a lack of synergism between Ca2+ and PMA in activating PLD. Incubation of BCEC with staurosporine resulted in significant inhibition of ionomycin-induced production of [3H]PEt, suggesting that in addition to direct activation of PLD by Ca2+, the enzyme is probably stimulated by sequential activation of PLC (producing diacylglycerol) and PKC following the ionomycin addition. We conclude that BCEC possess PLD which is stimulated by PKC as well as elevated intracellular Ca2+.
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PMID:Stimulation of phospholipase D by phorbol esters and ionomycin in bovine corneal epithelial cells. 150 99

We have studied the effects of the vasoactive agents phorbol 12-myristate 13-acetate (PMA) and vasopressin (VP) on phosphatidylcholine metabolism in cultured rat glomerular mesangial cells. PMA and VP stimulate the incorporation of [3H]choline into phosphatidylcholine and the release of [3H]choline into the culture medium. VP, but not PMA, also increases the release of phosphorylcholine into the medium. This suggests that PMA specifically stimulates phospholipase D, whereas VP stimulates phospholipases C and D. Experiments were also conducted to look for production of phosphatidic acid and diacylglycerol, products of phospholipase D- and C-mediated breakdown of phosphatidylcholine. Treatment of cells prelabeled with [3H]myristic acid for 2.5 min with PMA or VP increases the content of [3H]myristic acid in diacylglycerol and phosphatidic acid. A dual labeling study ([3H]myristic acid and [14C]arachidonic acid) suggests that phosphatidylcholine is an important source of diacylglycerol in cells treated with VP and PMA. When PMA or VP are added to [3H]myristic acid-labeled cells in the presence of ethanol, increased labeling of phosphatidylethanol is seen as early as 2.5 min. Desensitization of protein kinase C by overnight treatment of cells with PMA blocked subsequent VP-stimulated formation of phosphatidylethanol and release of [3H]choline. When cells were simultaneously treated with VP and PMA, additive effects on phosphatidylethanol formation and [3H]choline release were observed.
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PMID:Vasopressin and phorbol ester-stimulated phosphatidylcholine metabolism in mesangial cells. 153 83

The role of protein kinase C (PKC) in the regulation of phosphatidylcholine-hydrolyzing phospholipase D (PLD) was investigated. In membranes from Chinese hamster lung fibroblasts that had been incubated with [14C]choline to label endogenous phosphatidylcholine, phorbol 12-myristate 13-acetate (PMA) failed to stimulate production of [14C]choline. However, stimulation was observed if fibroblast cytosolic fraction or PKC partially purified from this fraction was added. When incubated with membranes in the presence of PMA, pure PKC from rat brain stimulated [14C]choline production in a concentration-dependent manner, with a maximal 2-3-fold effect. PMA similarly stimulated [14C]phosphatidylpropanol formation from propanol using membranes from [14C]myristic acid-prelabeled cells, confirming the activation of PLD. None of the effects described required exogenous ATP. To probe the role of phosphorylation in the PKC effect, we included high concentrations of apyrase in the assay. This ATPase had no effect on the ability of PKC to activate PLD, but under exactly the same conditions, it eliminated autophosphorylation of PKC. The results provide conclusive evidence for the involvement of PKC in the activation of PLD and suggest that ATP-dependent phosphorylation is not required.
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PMID:Activation of phospholipase D by protein kinase C. Evidence for a phosphorylation-independent mechanism. 155 64

Our recent studies have demonstrated the presence in neonatal islet cells and intact adult islets of a phosphatidylcholine-directed phospholipase D (PLD) which is activated after phorbol ester stimulation. The present study describes PLD activation in the presence of a carbohydrate insulin secretagogue. At the highest concentration tested (20 mM) the triose, glyceraldehyde, induced formation of phosphatidic acid in cells prelabeled with [14C]arachidonic acid or [3H]myristic acid (164 +/- 7 and 210 +/- 9% of basal phosphatidic acid values, respectively). Experimental confirmation of a concentration-dependent specific activation of PLD was provided by the formation of a transphosphatidylation product, phosphatidylethanol, after stimulation with glyceraldehyde in the presence of added ethanol (1.5%). Additionally, there was an early (within 5 min) rise in [14C]arachidonate-labeled diacylglycerol (139 +/- 7% of basal) accompanied by an increase in intracellular diacylglycerol mass (51 +/- 2 pmol/mg protein) and an increase in membrane-associated protein kinase C activity (183 +/- 5% of basal) which preceded the activation of PLD, as indicated by the time course of glyceraldehyde-stimulated phosphatidylethanol formation in the presence of ethanol. Pretreatment of islet cells with 2 microM 12-O-tetradecanoylphorbol-13-acetate for 18 h, to down-regulate protein kinase C, was without effect on diacylglycerol and phosphatidic acid production after 5 min but inhibited completely the production of phosphatidylethanol at 30 min. The phosphohydrolase inhibitor propranolol (100 microM) potentiated the accumulation of phosphatidic acid and phosphatidylethanol incubation following incubation with glyceraldehyde. These findings demonstrate for the first time that a physiological nutrient activates a phospholipase directed against endogenous phosphatidylcholine in intact islet cells; furthermore, they indicate a role for PLD in a delayed formation of phosphatidic acid in the islet cell. The finding of an early rise in glyceraldehyde-stimulated diacylglycerol (which may be formed de novo or by the action of phospholipase C), suggests that PLD is recruited by the activation of protein kinase C by this nutrient.
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PMID:Activation of phospholipase D by glyceraldehyde in isolated islet cells follows protein kinase C activation. 172 27


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