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)

The phorbol ester 12-O-tetradecanoylphorbol 13-acetate (TPA) was found to stimulate phospholipase D activity in cultured primary astrocytes. Both the hydrolysis and the transphosphatidylation reaction catalyzed by phospholipase D were studied in cells labeled with [3H]glycerol. Phosphatidic acid (PA) synthesis was increased after addition of 100 nM TPA. When ethanol was present in the cell culture medium, phosphatidylethanol (Peth), a product of phospholipase D-catalyzed transphosphatidylation, was formed. The half-maximum effective concentrations (EC50) of TPA were 25 nM for PA increase as well as for Peth formation. The formation of Peth in ethanol-treated cells was accompanied by an inhibition of the TPA-induced increase in labeled PA. Increasing ethanol concentrations led to an increase in [3H]Peth and a decrease in [3H]PA. A protein kinase C inhibitor, 1-(5-isoquinolinesulfonyl)-2-methylpiperazine (H7), inhibited both the synthesis of PA and the formation of Peth observed after TPA addition to the astrocytes. Dioctanoyl-glycerol (100 microM) stimulated the formation of Peth in the presence of ethanol. In addition to the induction of Peth formation in astrocytes, TPA induced Peth formation in ethanol-treated neurons. The present results indicate that phospholipase D activity is stimulated by TPA in cultured primary brain cells. Modulation of phospholipase D activity by protein kinase C is a mechanism that may be important in signal transduction cascades.
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PMID:Stimulation of phospholipase D activity by phorbol esters in cultured astrocytes. 230 9

It is widely accepted that the activation of the NADPH oxidase of phagocytes is linked to the stimulation of protein kinase C by diacylglycerol formed by hydrolysis of phospholipids. The main source would be choline containing phospholipid via phospholipase D and phosphatidate phosphohydrolase. This paper presents a condition where the activation of the respiratory burst by FMLP correlates with the formation of phosphatidic acid, via phospholipase D, and not with that of diacylglycerol. In fact: 1) in neutrophils treated with propranolol, an inhibitor of phosphatidate phosphohydrolase, FMLP plus cytochalasin B induces a respiratory burst associated with a stimulation of phospholipase D, formation of phosphatidic acid and complete inhibition of that of diacylglycerol. 2) The respiratory burst by FMLP plus cytochalasin B lasts a few minutes and may be restimulated by propranolol which induces an accumulation of phosphatidic acid. 3) In neutrophils stimulated by FMLP in the absence of cytochalasin B propranolol causes an accumulation of phosphatidic acid and a marked enhancement of the respiratory burst without formation of diacylglycerol. 4) The inhibition of the formation of phosphatidic acid via phospholipase D by butanol inhibits the respiratory burst by FMLP.
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PMID:Phosphatidic acid and not diacylglycerol generated by phospholipase D is functionally linked to the activation of the NADPH oxidase by FMLP in human neutrophils. 232 8

Exposure of skate erythrocytes to hypotonic medium stimulates a rapid increase in levels of 1,2-diacylglycerol. Other treatments which produce cell swelling such as replacement of a portion of medium NaCl with the permeant solutes ethylene glycol or ammonium chloride also stimulate increases in diacylglycerol. Whereas the reduction of medium osmolarity to 460 mosm (from 940) stimulated a persistent diacylglycerol increase, the increase after reduction to 660 mosm was transient, peaking at 2.5 min and then slowly declining. This decline could be prevented by preincubation with the diacylglycerol kinase inhibitor R59022. To investigate the source of the increased diacylglycerol, the rate of incorporation of [32P]PO4 into each major phospholipid was measured. Reduction of osmolarity to 660 mosm stimulated the incorporation of phosphate into phosphatidylcholine markedly, with a smaller increase observed into phosphatidylinositol. To demonstrate phosphatidylcholine hydrolysis, erythrocytes were prelabeled with [32P]PO4. Subsequent exposure to hypotonic (660 mosm) medium stimulated a decrease in radioactivity in phosphatidylcholine and a large increase in radioactivity in phosphatidic acid. When stimulated in the presence of ethanol, 32PO4-labeled phosphatidylethanol was formed, suggesting activation of phospholipase D. In addition, the initial formation of 32PO4-labeled phosphatidic acid was not sensitive to inhibition of diacylglycerol kinase, supporting the role of direct activation of phospholipase D. These results indicate that hypotonicity and the accompanying cell swelling induce cell membrane phospholipid turnover, predominantly phosphatidylcholine, and production of the protein kinase C activator, diacylglycerol, which appears to occur via activation of phospholipase D.
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PMID:Hypotonicity stimulates phosphatidylcholine hydrolysis and generates diacylglycerol in erythrocytes. 237 88

The mechanism of phosphatidylcholine (PC) degradation stimulated by phorbol myristate acetate (PMA) was investigated in bovine pulmonary artery endothelial cells prelabeled with [methyl-3H]choline ([3H]choline) or [9,10-3H]myristic acid ([3H]myristic acid). Both labels were selectively incorporated into PC, and addition of PMA stimulated comparable losses of 3H from PC in cells prelabeled with [3H]choline or [3H]myristate. In cells prelabeled with [3H]choline, the loss of 3H from PC correlated with a rapid increase in intracellular free [3H]choline. The increase in intracellular [3H]choline stimulated by PMA was not preceded by an increase in any other 3H-labeled PC degradation product. PMA did not stimulate the formation of PC deacylation products in cells prelabeled with [3H]choline. In permeabilized cells prelabeled with [3H]choline, PMA stimulated the formation of [3H]choline but not [3H]phosphocholine. In intact cells prelabeled with [3H]myristate, the loss of 3H from PC induced by PMA correlated with the formation of [3H]phosphatidic acid ([3H]PA) and [3H]diacylglycerol. In the presence of ethanol, PMA stimulated the formation of [3H]phosphatidylethanol ([3H]PEt) at the expense of [3H]PA. The time-course of [3H]PEt formation was similar to the time-course of intracellular [3H]choline formation in cells stimulated with PMA. These data taken together support the notion that PC degradation in endothelial cells stimulated with PMA is mediated principally by phospholipase D. PC breakdown via phospholipase D was not observed in cells treated with phorbol esters incapable of interacting with protein kinase C. Activation of phospholipase D by phorbol esters was inhibited by long-term pretreatment of cells with PMA to down-regulate protein kinase C and by pretreatment of the cells with staurosporine. These data support the notion that activation of phospholipase D by phorbol esters is dependent upon protein kinase C.
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PMID:Phosphatidylcholine hydrolysis stimulated by phorbol myristate acetate is mediated principally by phospholipase D in endothelial cells. 238 95

The classical scheme involving inositol phospholipid breakdown by phospholipase C as the sole source of diacylglycerol (DAG) has recently been challenged by evidence that phosphatidylcholine (PC) is an alternative source. In synaptic membranes of canine cerebral cortex, cholinergic agonists caused rapid accumulation of [3H]phosphatidic acid (PA) from [3H]PC within 15 s, whereas [3H]DAG formation showed a transient lag period before becoming elevated and then exceeding the amount of [3H]PA. Additional evidence shows that DAG is produced from PC by the action of phospholipase D to yield PA, which is further dephosphorylated to DAG by PA phosphatase. Our results indicate that this muscarinic acetylcholine receptor-regulated PC phospholipase D-PA phosphatase pathway may be a novel mechanism in cell signal transduction processes for activation of protein kinase C in brain.
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PMID:A novel mechanism for acetylcholine to generate diacylglycerol in brain. 240 58

Quantitation of 1,2-diacylglycerol (AAG), 1-0-alkyl-2-acylglycerol (EAG) and phosphatidic acid (PA) was conducted in polymorphonuclear leukocytes (PMN) labeled with 1-0-[3H]alkyl-2-acyl-GPC following stimulation with 1 microM fMLP using Coomassie blue staining and densitometry. At 5s AAG and PA increased by 80% and 107%, respectively, over controls. The accumulation of PA, which reached a maximum by 30s, was higher than AAG by 302% at 5s, and 550% at 30s. EAG accumulation was delayed by 15s following stimulation of PMN. These results show that AAG accumulates before EAG and support the role of AAG in cellular activation, perhaps, via the stimulation of protein kinase C (PKC). EAG may serve to counter the effects of AAG or may itself elicit responses. The high concentrations of PA which accumulate early suggest that PA may be generated by the activation of phospholipase D in PMN stimulated with fMLP.
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PMID:Mass determination of receptor-mediated accumulation of phosphatidate and diglycerides in human neutrophils measured by Coomassie blue staining and densitometry. 246 63

It has recently been demonstrated that the chemotactic peptide N-formyl-Met-Leu-Phe activates phospholipase D (PLD) in dimethyl sulfoxide-differentiated HL-60 granulocytes to produce phosphatidic acid (PA) and, in the presence of ethanol, phosphatidylethanol (PEt) (Pai, J.-K., Siegel, M. I., Egan, R. W., and Billah, M. M. (1988) J. Biol. Chem. 263, 12472-12477). We now report that biologically active phorbol esters, a cell-permeable diacylglycerol, 1-oleoyl-2-acetylglycerol (OAG), and calcium ionophore A23187 are also potent inducers of PLD in these HL-60 granulocytes. HL-60 granulocytes have been selectively labeled in 1-O-alkyl-2-acyl-sn-glycero-3-phosphocholine (alkyl-PC) with 32P by incubating the cells with alkyl-[32P]lyso-phosphatidylcholine (PC). When these labeled cells are treated with phorbol 12-myristate 13-acetate (PMA), phorbol 12,13-dibutyrate, OAG, or A23187, alkyl-[32P]PA is formed. Because cellular ATP has not been labeled with 32P, the formation of alkyl-[32P]PA conclusively demonstrates PLD activation by these agents. In the presence of 0.5% ethanol, phorbol esters, OAG, and A23187 also induce formation of alkyl-[32P]PEt, demonstrating that the activated PLD catalyzes transphosphatidylation between the phosphatidyl moiety of the alkyl-[32P]PC and ethanol. Formation of alkyl-[32P]PA and alkyl-[32P]PEt in response to these various agents occurs in a time- and dose-dependent manner and exhibits differential Ca2+ requirements. Based on experiments with both [3H]alkyl-PC and alkyl-[32P]PC, it is concluded that alkyl-PA and alkyl-PEt formed in response to PMA, OAG, or A23187 are derived exclusively from PLD action on alkyl-PC. Furthermore, subthreshold concentrations of PMA (0.5-2.0 nM) or OAG (1.0-25 microM) combined with subthreshold levels of A23187 (15-60 nM) induce the formation of alkyl-[32P]PA and alkyl-[32P]PEt, suggesting that receptor-mediated activation of PLD might involve cooperative interactions between Ca2+ and diglyceride. Although PLD is activated by agents that also activate protein kinase C, the protein kinase C inhibitor, K252a, inhibits PMA-induced protein phosphorylation but causes only partial inhibition of PLD activation. We conclude that phorbol esters, OAG, and A23187 activate PLD in HL-60 granulocytes via protein kinase-independent as well as protein kinase-dependent mechanisms.
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PMID:Regulation of phospholipase D in HL-60 granulocytes. Activation by phorbol esters, diglyceride, and calcium ionophore via protein kinase- independent mechanisms. 249 24

The hydrolytic activity of phosphatidylcholine phospholipase D in the synaptosomes from canine brain was examined using a radiochemical assay with 1,2-dipalmitoyl-sn-glycerol-3-phosphoryl[3H]choline as the exogenous substrate. The involvement of G protein(s) in regulation of this enzyme was demonstrated by a 2- to 3-fold stimulation of the basal activity (4.81 +/- 0.44 nmol choline released/mg protein/h) with guanosine 5'-(3-O-thiol)triphosphate (GTP gamma S), guanyl-5'-yl-(beta, gamma-methylene)diphosphonate, aluminum fluoride, or cholera toxin. The stimulation of phospholipase D hydrolytic activity by GTP gamma S was inhibited by 2 mM guanosine 5'-(2-O-thiol)diphosphate. GTP gamma S at the maximum stimulatory concentration (10 microM) had an additive effect on the maximum cholera toxin stimulation of phospholipase D activity. However, the reverse was not true, thus indicating the possibility that more than one G protein may be involved. Furthermore, cholinergic agonists, including acetylcholine, carbachol, and muscarine, were able to increase the phospholipase D hydrolytic activity at low but not maximally stimulatory concentrations of guanine nucleotide. These cholinergic stimulations were antagonized by atropine, a muscarinic blocker. In addition, O-tetradecanoylphorbol 13-acetate, a protein kinase C activator, was able to stimulate the hydrolytic activity of phospholipase D more than 300% in the presence of 0.2 microM GTP gamma S. However, in the absence of GTP gamma S, stimulation was less than 60%. Our results not only indicate that the receptor-G protein-regulated phospholipase D may be directly responsible for the rapid accumulation of choline and phosphatidic acid in the central nervous system but also reveal that muscarinic acetylcholine receptor-G protein-regulated phospholipase D is a novel signal transduction process coupling the neuronal muscarinic receptor to cellular responses.
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PMID:Muscarinic acetylcholine receptor regulates phosphatidylcholine phospholipase D in canine brain. 251 26

In this study we provide evidence for the involvement of protein kinase C (PKC) in phorbol diester-induced phosphatidylcholine (PC) hydrolysis by the phospholipase D pathway. Rat embryo fibroblasts (REF52) were prelabeled with either tritiated choline or myristic acid; these compounds are preferentially incorporated into cellular PC. Phorbol diester-induced PC degradation was determined by measuring the release of [3H]choline, and the formation of [3H]myristoyl-containing phosphatidate (PA), diacylglycerol (DG), and phosphatidylethanol (PE). Staurosporine, a PKC inhibitor, blocked from 73 to 90% of the phorbol diester-induced PC hydrolysis. The inhibition of phorbol diester-induced choline release by staurosporine was dose dependent with an approximate ED50 of 150 nM. Pretreatment of cells with phorbol diester inhibited subsequent phorbol diester-induced PC degradation by 78-92%. A close correlation between the ED50 for phorbol diester-stimulated choline release and the Kd for phorbol diester binding was demonstrated. Neither forskolin nor dibutyryl cAMP elicited cellular PC degradation. In vitro experiments using phospholipase D from Streptomyces chromofuscus showed that staurosporine did not inhibit and TPA did not stimulate enzyme activity.
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PMID:Evidence for a protein kinase C-directed mechanism in the phorbol diester-induced phospholipase D pathway of diacylglycerol generation from phosphatidylcholine. 253 66

We examined the relationship between phosphatidylcholine (PC) hydrolysis, phosphoinositide hydrolysis, and diacylglycerol (DAG) formation in response to muscarinic acetylcholine receptor (mAChR) stimulation in 1321N1 astrocytoma cells. Carbachol increases the release of [3H]choline and [3H]phosphorylcholine ([3H]Pchol) from cells containing [3H]choline-labeled PC. The production of Pchol is rapid and transient, while choline production continues for at least 30 min. mAChR-stimulated release of Pchol is reduced in cells that have been depleted of intracellular Ca2+ stores by ionomycin pretreatment, whereas choline release is unaffected by this pretreatment. Phorbol 12-myristate 13-acetate (PMA) increases the release of choline, but not Pchol, from 1321N1 cells, and down-regulation of protein kinase C blocks the ability of carbachol to stimulate choline production. Taken together, these results suggest that Ca2+ mobilization is involved in mAChR-mediated hydrolysis of PC by a phospholipase C, whereas protein kinase C activation is required for mAChR-stimulated hydrolysis of PC by a phospholipase D. Both carbachol and PMA rapidly increase the formation of [3H]phosphatidic acid ([3H]PA) in cells containing [3H]myristate-labeled PC. [3H]Diacylglycerol ([3H]DAG) levels increase more slowly, suggesting that the predominant pathway for PC hydrolysis is via phospholipase D. When cells are labeled with [3H]myristate and [14C]arachidonate such that there is a much greater 3H/14C ratio in PC compared with the phosphoinositides, the 3H/14C ratio in DAG and PA increases with PMA treatment but decreases in response to carbachol. By analyzing the increase in 3H versus 14C in DAG, we estimate that the DAG that is formed in response to PMA arises largely from PC. Muscarinic receptor activation also causes formation of DAG from PC, but approximately 20% of carbachol-stimulated DAG appears to arise from hydrolysis of the phosphoinositides.
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PMID:Muscarinic receptor activation of phosphatidylcholine hydrolysis. Relationship to phosphoinositide hydrolysis and diacylglycerol metabolism. 254 33


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