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)

Bradykinin is known to activate phospholipase D in PC12 cells. Because bradykinin may also activate protein kinase C in these cells, the possible role of this kinase in mediating the action of bradykinin was investigated. Phospholipase D activity in PC12 cells was assayed by measuring the formation of [3H]phosphatidylethanol in cells prelabeled with [3H]palmitic acid and incubated in the presence of ethanol. The phorbol ester phorbol dibutyrate mimicked the effect of bradykinin on [3H]phosphatidylethanol formation. The protein kinase C inhibitor staurosporine (1 microM) significantly attenuated the effect of phorbol dibutyrate (35-70%) but did not block bradykinin-stimulated [3H]phosphatidylethanol formation. In addition, the effect of phorbol dibutyrate was additive with that of bradykinin. Prolonged treatment of PC12 cells with phorbol dibutyrate (24 h), which depletes cells of protein kinase C, greatly attenuated bradykinin-stimulated [3H]phosphatidylethanol accumulation in intact cells. This treatment caused a 55% decrease in both fluoride-stimulated [3H]phosphatidylethanol production in the intact cell and phospholipase D activity as assessed by an in vitro assay using an exogenous substrate. Therefore, the effect of prolonged phorbol dibutyrate pretreatment on bradykinin-stimulated [3H]phosphatidylethanol production could not be attributed exclusively to the depletion of protein kinase C. Thus, although the data with phorbol ester suggest that activation of protein kinase C leads to an increase in phospholipase D activity, this kinase probably does not play a role in mediating the effect of bradykinin. Finally, although pretreatment with phorbol dibutyrate completely blocked bradykinin-stimulated [3H]phosphatidylethanol production in the intact cell, it only partially (approximately 50%) inhibited bradykinin-stimulated [3H]diacylglycerol formation.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Bradykinin and phorbol dibutyrate activate phospholipase D in PC12 cells by different mechanisms. 140 98

Phospholipase D catalyses a transphosphatidylation reaction in the presence of primary alcohols, resulting in the formation of phosphatidylalcohol derivatives. In the present work we show that application of phorbol esters and butanol to mouse skin causes the rapid accumulation of phosphatidylbutanol (PBol), indicating the activation of phospholipase D. A similar accumulation of PBol was observed when the skin was treated with phorbol esters in vivo and skin pieces incubated with butanol in vitro. PBol formation was stimulated by the active tumour promoters 12-O-tetradecanoylphorbol-13-acetate (TPA), mezerein and phorbol-12,13-didecanoate (PDD) but not by the inactive promoter 4 alpha-PDD. Accumulation of PBol was not observed 24 h after application of TPA, a treatment which has been shown to deplete epidermal protein kinase C activity.
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PMID:Tumour promoting phorbol esters activate phospholipase D in mouse skin. 142 51

Protein kinase C plays a crucial role in signal transduction for activating cellular function. Phosphatidylserine and Ca2+ are essential for the activation of protein kinase C, and diacylglycerol which is produced in the receptor-mediated hydrolysis of inositol phospholipids, increases the affinity of this enzyme for phosphatidylserine and Ca2+. In brain tissues, protein kinase C has been shown to be separated into three fractions, Type I, II, and III by hydroxyapatite column chromatography, and cDNA analysis has revealed that they correspond to gamma-, beta I-, beta II-, and alpha-cDNA, respectively. Phospholipase D has been known to catalyze the transphosphatidyl reaction between various membrane phospholipids and alcohols. In fact, phosphatidylethanol has been found in many tissues including brain of ethanol-treated rats. This report describes the different responses of three distinct forms of protein kinase C to phosphatidylethanol. Phosphatidylethanol can replace phosphatidylserine at high Ca2+ concentrations for the activation of Type I, II, and III protein kinase C. However, phosphatidylethanol can activate only Type I enzyme at physiological Ca2+ concentrations, which is expressed exclusively in the central nervous tissue. Consideration of these results suggests the possibility that ethanol may exert some effect on the signal transduction in neuronal tissue, via changes in protein phosphorylation.
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PMID:Distinct effects of phosphatidylethanol on three types of rat brain protein kinase C. 263 87

We have investigated the stimulation of phospholipase D activity by the gonadotropin-releasing hormone receptor agonist [D-Ala6, des-Gly10]GnRH N-ethylamide (GnRH-A) in preovulatory, cultured granulosa cells. GnRH-A stimulated up to 10-fold accumulation of phosphatidylethanol, produced by phospholipase D phosphatidyl transferase activity when ethanol acts as the phosphatidyl group acceptor. The effect of GnRH-A was concentration dependent (EC50 = 1 nM) and was inhibited by a specific GnRH receptor antagonist. Low GnRH-A concentrations (less than 10 nM) stimulated also accumulation of phosphatidic acid, but at higher concentrations this response was attenuated. Propranolol, which inhibits phosphatidic acid phosphohydrolase, increased both basal and GnRH-A-stimulated production of phosphatidic acid. A protein kinase C activator, 12-O-tetradecanoylphorbol-13-acetate (TPA, 100 nM), increased up to 30-fold phosphatidylethanol levels. The effects of supramaximal concentrations of GnRH-A (50 nM) and TPA (1 microM) on the accumulation of phosphatidylethanol were additive, suggesting that the two agents may not act via the same mechanism. This is supported by the fact that 1-(5-isoquinolinesulfonyl)-2-methylpiperazine, a protein kinase C inhibitor, inhibited the effect of TPA 50%, but not that of GnRH-A. However, 24 h pretreatment with TPA abolished cellular response to subsequent treatment with either TPA or GnRH-A. The stimulatory action of GnRH on steroidogenesis could be mimicked by elevating endogenous phosphatidic acid levels in granulosa cells. Exogenous phospholipase D (from Streptomyces chromofuscus, 10 IU/ml) significantly increased (2.7-fold) progesterone production by the cells; under the same conditions, GnRH-A and FSH stimulated progesterone production 3- and 2.6-fold, respectively. Similarly, propranolol stimulated progesterone production 2.2-fold. These results suggest that, in granulosa cells, GnRH receptors are coupled to a phospholipase D whose activation may participate in transducing the GnRH signal for accelerated steroidogenesis. Phospholipase D activity can be independently regulated also by protein kinase C. The possible interrelationships between phospholipase D and other phospholipases which may be activated by GnRH in these ovarian cells are discussed.
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PMID:Gonadotropin-releasing hormone activates phospholipase D in ovarian granulosa cells. Possible role in signal transduction. 266 40

Phospholipase D belongs to a group of membrane associated phospholipases which have been shown to be activated by G-protein coupled neurotransmitter receptors. Phosphatidylcholine is the primary substrate for phospholipase D generating phosphatidic acid (PA) and choline. In the presence of 1% ethanol, phospholipase D catalyzes a transphosphatidylation reaction generating phosphatidylethanol (PEt) which is an indicator of phospholipase D activation. In the present study, we utilized Chinese hamster ovary (CHO) cells stably transfected with and expressing a rat V1a vasopressin receptor to study the regulation of phospholipase D by protein kinase C and calcium. Arginine-vasopressin (AVP) stimulated the release of 3H-PEt and 3H-PA in cells pre-labelled overnight with 3H-palmitic acid. The phorbol ester, phorbol 12-myristate 13-acetate (PMA), stimulated the release of PEt and PA that was additive with AVP over 15 min. However, long-term stimulation with PMA, which desensitizes protein kinase C, decreased PEt production while simultaneously increasing PA production. Differential regulation of PEt and PA production by PMA suggests the existence of more than one phospholipase D isoenzyme. Though differentially regulated by protein kinase C, both AVP-stimulated PEt and PA production required extracellular and not intracellular calcium.
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PMID:Vasopressin Vla receptor-stimulated phospholipase D: differential regulation of transphosphatidylation and phospholipid hydrolysis by protein kinase C [corrected]. 760 88

Fibroblast contraction of stressed collagen matrices results in activation of a cAMP signal transduction pathway. This pathway involves influx of extracellular Ca2+ ions and increased production of arachidonic acid. We report that within 5 min after initiating contraction, a burst of phosphatidic acid release was detected. Phospholipase D was implicated in production of phosphatidic acid based on observation of a transphosphatidylation reaction in the presence of ethanol that resulted in formation of phosphatidylethanol at the expense of phosphatidic acid. Activation of phospholipase D required extracellular Ca2+ ions and was regulated by protein kinase C. Ethanol treatment of cells also inhibited by 60-70% contraction-dependent release of arachidonic acid and cAMP but had no effect on increased cAMP synthesis after addition of exogenous arachidonic acid or on phospholipase A2 activity measured in cell extracts. Moreover, other treatments that inhibited the burst of phosphatidic acid release after contraction--chelating extracellular Ca2+ or down-regulating protein kinase C--also blocked contraction activated cyclic AMP signaling. These results were consistent with the idea that phosphatidic acid production occurred upstream of arachidonic acid in the contraction-activated cAMP signaling pathway.
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PMID:Role of phospholipase D in the cAMP signal transduction pathway activated during fibroblast contraction of collagen matrices. 765 4

The signaling pathways by which intermittent strain (60 cycles/min, 15 min/h) regulates proliferation of mixed fetal rat lung cell in vitro have been investigated. Adenosine 3',5'-cyclic monophosphate (cAMP) content and cAMP-dependent protein kinase (PKA) activity were not affected by strain. The stimulatory effect of strain on DNA synthesis was also not influenced by the cyclic nucleotide-dependent protein kinase inhibitors H-8 or HA-1004, the adenylate cyclase inhibitor SQ-22536, or a PKA inhibitor and cAMP antagonist, adenosine 3',5'-cyclic monophosphothioate (Rp-cAMPS). In contrast, intracellular concentrations of two second messengers, inositol 1,4,5-trisphosphate (IP3) and diacylglycerol (DAG), were dramatically increased after a short period of strain. This increase in second messengers was accompanied by an increased tyrosine phosphorylation of phospholipase C-gamma 1. Phospholipase D activity was also increased by strain. Mechanical strain elicited a shift in the subcellular distribution of PKC activity from cytosol to membranes shortly after the onset of strain. The specific activity of PKC in the membranes increased 6- to 10-fold within 5-15 min and remained increased throughout a 48-h period of intermittent strain. Strain-induced PKC activation and DNA synthesis were blocked by the PKC inhibitors H-7, staurosporine, and calphostin C, as well as by the phospholipase C inhibitor U-73,122. We conclude that mechanical strain of mixed fetal rat lung cells activates phospholipid turnover via phospholipases, followed by PKC activation, which then triggers the downstream events that lead to cell proliferation.
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PMID:Mechanical strain-enhanced fetal lung cell proliferation is mediated by phospholipase C and D and protein kinase C. 776 75

Activation of adenosine A1-, bradykinin- or P2U-receptors on DDT1 MF-2 smooth muscle cells all increased the formation of inositol 1,4,5-trisphosphate and the mobilization of intracellular calcium. All three types of agents could increase [Ca2+]i in the same cell. Activation of the P2U receptor with ATP or UTP produced larger responses than activation of bradykinin- and adenosine A1-receptors, with bradykinin and N6-cyclopentyladenosine. When agonist-stimulated levels of diacylglycerol were determined, all agonists caused biphasic changes of similar magnitudes. If anything, ATP and UTP tended to give larger increases in the second phase of stimulation. Phospholipase D, measured as the formation of phosphatidylethanol in cells labeled with [3H]palmitic acid and activated in the presence of ethanol, was activated similarly as phospholipase C, i.e. ATP or UTP caused the largest increase in phosphatidylethanol formation, followed by N6-cyclopentyladenosine and bradykinin which caused weaker responses. Activation of PLD by P2U receptors was pertussis toxin insensitive. The activation of PLD by the agonists was only weakly affected by a PKC inhibitor, Ro 31-7549 (3-[1-(3-aminopropanyl)-3- indolyl]-4-(1-methyl-3-indolyl)-1H-pyrrole-2,5-dione). In contrast, ATP or UTP did not activate protein kinase C, determined in a permeabilized cell assay using two specific protein kinase C substrates, whereas N6-cyclopentyladenosine and bradykinin caused a substantial activation.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Activation of phospholipase C and phospholipase D by stimulation of adenosine A1, bradykinin or P2U receptors does not correlate well with protein kinase C activation. 777 Jan 1

Phosphatidic acid has been proposed to contribute to the mitogenic actions of various growth factors. In 32P-labeled neonatal rat cardiac fibroblasts, 100 nM [Sar1]angiotensin II was shown to rapidly induce formation of 32P-phosphatidic acid. Levels peaked at 5 min (1.5-fold above control), but were partially sustained over 2 h. Phospholipase D contributed in part to phosphatidic acid formation, as 32P- or 3H-phosphatidylethanol was produced when cells labeled with [32P]H3PO4 or 1-O-[1,2- 3H]hexadecyl-2-lyso-sn-glycero-3-phosphocholine were stimulated in the presence of 1% ethanol. [Sar1]angiotensin II-induced phospholipase D activity was transient and mainly mediated through protein kinase C (PKC), since PKC downregulation reduced phosphatidylethanol formation by 68%. Residual activity may have been due to increased intracellular Ca2+, as ionomycin also activated phospholipase D in PKC-depleted cells. Phospholipase D did not fully account for [Sar1]angiotensin II-induced phosphatidic acid: 1) compared to PMA, a potent activator of phospholipase D, [Sar1]angiotensin II produced more phosphatidic acid relative to phosphatidylethanol, and 2) PKC downregulation did not affect [Sar1]angiotensin II-induced phosphatidic acid formation. The diacylglycerol kinase inhibitor R59949 depressed [Sar1]angiotensin II-induced phosphatidic acid formation by only 21%, indicating that activation of a phospholipase C and diacylglycerol kinase also can not account for the bulk of phosphatidic acid. Thus, additional pathways not involving phospholipases C and D, such as de novo synthesis, may contribute to [Sar1]angiotensin II-induced phosphatidic acid in these cells. Finally, as previously shown for [Sar1]angiotensin II, phosphatidic acid stimulated mitogen activated protein (MAP) kinase activity.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Angiotensin II induces phosphatidic acid formation in neonatal rat cardiac fibroblasts: evaluation of the roles of phospholipases C and D. 789 71

Phospholipase D activation was studied in NG 108-15 cells after manipulation of the phospholipid fatty acid composition. Cultivation of cells in media containing different polyunsaturated fatty acids induced extensive and specific changes in the phospholipid fatty acid composition. General for all phospholipids was an increase in polyunsaturated fatty acids at the expense of monounsaturated fatty acids. To examine phospholipase D activation, cells were stimulated with phorbol esters in the presence of ethanol and the formation of phosphatidylethanol was analyzed. In cells cultured with linolenic acid, a significantly higher amount of phosphatidylethanol was formed compared to control cells. On the other hand, supplementation with linoleic, arachidonic or docosahexaenoic acids did not induce any changes in phospholipase D activity. The effect was not due to free fatty acids in the cell culture medium and thus probably induced by fatty acids incorporated into membrane phospholipids or fatty acid metabolites. The results indicate a specific effect of linolenic acid and/or its metabolites on protein kinase C-mediated phospholipase D activity.
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PMID:Protein kinase C-mediated phospholipase D activity is increased by linolenic acid supplementation in NG 108-15 cells. 791 8


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