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)

Platelet-derived growth factor (PDGF) stimulates phosphatidylcholine hydrolysis via phospholipase D (PLD) in several tissues. To determine whether PLD activation is dependent on phosphoinositide hydrolysis by phospholipase C (PLC), we measured the formation of phosphatidylbutanol (PtdBut), in TRMP cells overexpressing wild type or various mutant PDGF receptors. Both PLC and PLD were stimulated by PDGF in cells expressing wild type receptors whereas they were not in cells expressing kinase-deficient (R634) receptors. These data indicate that tyrosine phosphorylation is required for activation of both PLC and PLD. Mutation of Tyr-1021 of the PDGF receptor to Phe caused loss of PDGF stimulation of both PLC and PLD. On the other hand, a mutant PDGF receptor that was able to bind PLC gamma 1 but not other signaling proteins (including the Ras GTPase-activating protein, phosphatidylinositol 3-kinase, and a SH2-containing phosphotyrosine phosphatase (Syp)) restored the stimulatory effect of PDGF on PLC and PLD. Furthermore, receptors in which association with the GTPase-activating protein, phosphatidylinositol 3-kinase, or Syp was individually restored were unable to mediate PDGF stimulation of PLC or PLD. These data indicate that these other signal transduction proteins are not involved in the activation of PLD by PDGF. Treatment of the cells with the protein kinase C inhibitor, Ro-31-8220, and depletion of cellular protein kinase C by pretreatment with 4 beta-phorbol 12-myristate 13-acetate resulted in loss of PLD activation by PDGF indicating a PKC-dependent mechanism. In summary, these results indicate that activation of PLC gamma 1 and protein kinase C are necessary for the stimulation of PLD by PDGF and provide no evidence for alternative mechanisms.
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PMID:Activation of phospholipase C-gamma is necessary for stimulation of phospholipase D by platelet-derived growth factor. 796 10

Exposure of P11 cells to serotonin (5-HT) resulted in a transient increase in levels of 5-HT2A receptor mRNA. Exposure to 5-HT for as short a time as 1 min was sufficient to trigger a delayed increase in receptor mRNA. 5-HT-induced increases in receptor mRNA levels were not antagonized by the protein synthesis inhibitor cycloheximide. The increase in receptor mRNA levels was accompanied by a transient increase in the half-life of receptor mRNA; the rate of transcription of receptor mRNA was unchanged. Submaximal stimulation of phosphinositide hydrolysis by partial agonists or 6-fluoronorepinephrine, an alpha 1-adrenergic receptor agonist, also increased receptor mRNA levels. Exposure to phorbol 12-myristate 13-acetate (PMA), an activator of protein kinase C, mimicked these effects, whereas the protein kinase C inhibitor bisindolylmaleimide antagonized the effects of both 5-HT and PMA. When agonist-promoted increases in receptor mRNA were prevented, the rate of agonist-induced down-regulation was accelerated. These data suggest that levels of 5-HT2A receptor mRNA are regulated by phospholipase C-coupled receptors via a protein kinase C-dependent, post-transcriptional mechanism and indicate that agonist-promoted increases in levels of 5-HT2A receptor mRNA modulate receptor expression.
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PMID:Regulation of mRNA encoding 5-HT2A receptors in P11 cells through a post-transcriptional mechanism requiring activation of protein kinase C. 798 58

1. We examined whether or not caffeine caused an endothelium-dependent contraction (EDC) in canine mesenteric artery and whether the endothelium-dependent contracting factors (EDCF) were arachidonic acid metabolites. 2. Caffeine (1, 3 and 10 mM) caused a transient contraction in endothelium-intact arterial strips. Removal of the endothelium significantly attenuated the caffeine (1 and 3 mM)-induced contraction. 3. Caffeine (1 mM)-induced EDC was not affected by quinacrine and manoalide (phospholipase A2 inhibitors), indomethacin and aspirin (cyclo-oxygenase inhibitors), ONO-3078 and S-1452 (thromboxane A2 antagonists) or AA-861 and TMK-777 (lipoxygenase inhibitors). 4. Caffeine (1 mM)-induced EDC was also unaffected by 50-235 (an endothelin A receptor antagonist). In addition, catalase combined treatment with superoxide dismutase, or allopurinol (antioxidant) did not affect the EDC. 5. Gro-PIP and NCDC (phospholipase C inhibitors) did not affect the caffeine-induced EDC. However, wortmannin (a phospholipase D inhibitor) and staurosporine (a protein kinase C inhibitor) attenuated the caffeine-induced EDC. 6. The present experiments demonstrate that caffeine causes an EDC in canine mesenteric artery and suggest that the EDCF mediating this response is probably not arachidonic acid metabolites, endothelin or superoxide. Instead, caffeine-induced EDC may be due to activation of the phospholipase D pathway.
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PMID:An endothelium-dependent contraction in canine mesenteric artery caused by caffeine. 800 88

1. Small strips from third-order branches of rabbit mesenteric artery (approximately 150-200 microM wide) contracted in response to noradrenaline (10 microM) or 5-hydroxytryptamine (5-HT; 10 microM) in oxygenated Krebs solution containing 2.5 mM Ca2+. In a Ca(2+)-free mock intracellular solution (0 Ca2+ plus 0.2 mM EGTA), noradrenaline (10 microM) and caffeine (10 mM) induced only a single, transient contraction in artery strips, while 5-HT (10 microM) failed to induce any response. 2. In strips of mesenteric artery which had been permeabilized with Staphylococcus alpha-toxin and bathed in Ca(2+)-free mock intracellular solution, noradrenaline (10 microM), caffeine (10 mM) and D-myo-inositol (1,4,5)-trisphosphate (IP3, 100 microM), but not 5-HT (10 or 100 microM) induced a transient contraction. In contrast to the non-permeabilized strips, contractions to noradrenaline, caffeine and IP3 were restored by prior incubation (10 min) in solution containing 0.08 microM Ca2+. The contractions to noradrenaline and IP3 in permeabilized muscle strips required the presence of 100 microM guanosine 5'-triphosphate (GTP), although in the absence of Ca2+. GTP alone did not induce contraction. 3. Exposure of permeabilized mesenteric artery strips to IP3 significantly reduced the subsequent contractile responses to caffeine. Contractile responses to caffeine and IP3 were abolished by the Ca(2+)-ATPase inhibitor, thapsigargin (1 microM). 4. Ca2+ (0.1-10 microM) induced concentration-dependent contraction in permeabilized artery strips. In strips which were submaximally contracted with 0.5 microM Ca2+/100 microM GTP, the subsequent addition of 5-HT (10 microM) stimulated further contraction. The protein kinase C inhibitor, H-7 (1 microM) abolished the 5-HT/GTP-induced contraction, but did not alter the contraction to Ca2+. 5. In non-permeabilized, endothelium-denuded segments of rabbit mesenteric artery bathed in Ca2+-replete Krebs solution, noradrenaline (10 microM) stimulated a rapid, transient accumulation of IP3. 5-HT(100 microM) failed to stimulate IP3 accumulation during exposure periods of up to 5 min. 5-HT (100 microM)did stimulate IP3 accumulation if the external K+ concentration was raised (to around 25 mM). This concentration of K+ alone did not stimulate IP3 production and the 5-HT-stimulated IP3 accumulation in the presence of elevated extracellular [K+] was abolished by the alpha l-adrenoceptor antagonist, prazosin(O.1 microM).6. These results suggest that intracellular Ca2+ release does not play an important role in 5-HT-induced smooth muscle contraction in the rabbit mesenteric artery. This is despite the fact that a significant intracellular Ca2+ pool is present in these cells, which can be discharged by either noradrenaline or IP3.However, 5-HT did stimulate smooth muscle contraction in the presence of raised intracellular calcium,suggesting that a component of the contraction to 5-HT will reflect an increase in myofilament Ca2+sensitivity, possibly due to the activation of protein kinase C.
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PMID:Importance of inositol (1,4,5)-trisphosphate, intracellular Ca2+ release and myofilament Ca2+ sensitization in 5-hydroxytryptamine-evoked contraction of rabbit mesenteric artery. 800 97

Changes of intracellular activity of lysolecithin acyltransferase (LAT) during an interaction between endothelial cells (EC) and low-density lipoprotein (LDL) were investigated. Following an incubation of EC with LDL, endothelial LAT activity was assayed using [3H]lysophosphatidylcholine as the substrate. Stimulation of EC with either thrombin (0.01-1 U/ml) or Ca(2+)-ionophore A23187 (10(-10)-10(-7) M) dose- and time-dependently enhanced LAT activity in the presence of LDL (1 mg protein/ml), but no enhancement was observed in quiescent cells. Ionomycin together with 1-oleoyl-2-acetyl glycerol, a synthetic analog of diacylglycerols enhanced LAT activity in a similar degree to thrombin in the presence of LDL. Either staurosporine, a protein kinase C inhibitor or neomycin, a phospholipase C inhibitor completely blocked an increase of LAT activity in stimulated EC. Stimulation of EC with various agonists including 12-o-tetradecanoylphorbol-13-acetate, an activator of protein kinase C caused a marked increase in cellular uptake of LDL, and staurosporine inhibited the uptake. These results suggest that the transport of LDL into EC is facilitated by stimulation with thrombin and other agonists, and LDL subsequently activates intracellular LAT. Protein kinase C seems to mediate LDL uptake into EC. Intracellular regulatory roles of LDL in the presence of vasoactive substances were discussed.
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PMID:Enhancement of lysolecithin acyltransferase activity by LDL in thrombin-stimulated porcine-cultured endothelial cells. 801 83

The alpha T3-1 cell line, an immortalized gonadotroph cell line, expresses high levels of the gonadotrophin-releasing hormone (GnRH) receptor. Sustained exposure of these cells to the GnRH receptor agonist des-Gly10-[D-Ala6]luteinizing hormone-releasing hormone ethylamide resulted in a substantial down-regulation of cellular levels of a combination of the alpha subunits of the phospholipase C-beta 1-linked G proteins Gq and G11, as assessed by immunoblotting with an antiserum able to identify these two proteins equally. This effect was dependent upon the concentration of agonist used (EC50 = 4 nM) and on the time of the treatment (t1/2 = 6 hr) when a maximally effective concentration of agonist (1 microM) was used. Comparison of agonist regulation of inositol phosphate generation and Gq alpha/G11 alpha down-regulation demonstrated that effects on inositol phosphate production were approximately 3-fold more potent. In contrast to Gq alpha/G11 alpha, membrane-associated levels of Gs alpha and G12 alpha, the G proteins that transduce stimulatory and inhibitory regulation, respectively, of adenylyl cyclase, were not altered by agonist treatment. Analysis of mRNA by reverse transcriptase/polymerase chain reaction indicated the coexpression by alpha T3-1 cells of mRNA corresponding to both Gq alpha and G11 alpha. Immunoblotting with antisera selective for either Gq alpha or G11 alpha confirmed their coexpression. Resolution of membranes from untreated and agonist-treated alpha T3-1 cells under sodium dodecyl sulfate-polyacrylamide gel electrophoresis conditions able to separate Gq alpha from G11 alpha indicated that G11 alpha was more prevalent than Gq alpha at steady state but that agonist treatment regulated cellular levels of both of these G proteins in a nonselective manner. Sustained activation of protein kinase C with phorbol myristate acetate was unable to mimic agonist regulation of cellular Gq alpha/G11 alpha levels, as was treatment of alpha T3-1 cells with the selective protein kinase C inhibitor chelerythrine. These data suggest that the GnRH receptor is able to interact functionally with both Gq alpha and G11 alpha in alpha T3-1 cells and that sustained exposure to a GnRH receptor agonist selectively regulates the cellular levels of the G proteins that interact with the receptor.
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PMID:The gonadotrophin-releasing hormone receptor of alpha T3-1 pituitary cells regulates cellular levels of both of the phosphoinositidase C-linked G proteins, Gq alpha and G11 alpha, equally. 805 44

Addition of glucose to cells of the yeast Saccharomyces cerevisiae causes rapid activation of plasma membrane H(+)-ATPase and a stimulation of cellular H+ extrusion. We show that addition of diacylglycerol and other activators of protein kinase C to intact cells also activates the H(+)-ATPase and causes at the same time a stimulation of H+ extrusion from the cells. Both effects are reversed by addition of staurosporine, a protein kinase C inhibitor. Addition of staurosporine or calmidazolium, an inhibitor of Ca2+/calmodulin-dependent protein kinases, separately, causes a partial inhibition of glucose-induced H(+)-ATPase activation and stimulation of cellular H+ extrusion; together they cause a more potent inhibition. Addition of neomycin, which complexes with phosphatidylinositol 4,5-bisphosphate, or addition of compound 48/80, a phospholipase C inhibitor, also causes near complete inhibition. Diacylglycerol and other protein kinase C activators had no effect on the activity of the K(+)-uptake system and the activity of trehalase and glucose-induced activation of the K(+)-uptake system and trehalase was not inhibited by neomycin, supporting the specificity of the effects observed on the H(+)-ATPase. The results support a model in which glucose-induced activation of H(+)-ATPase is mediated by a phosphatidylinositol-type signaling pathway triggering phosphorylation of the enzyme both by protein kinase C and one or more Ca2+/calmodulin-dependent protein kinases.
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PMID:Possible involvement of a phosphatidylinositol-type signaling pathway in glucose-induced activation of plasma membrane H(+)-ATPase and cellular proton extrusion in the yeast Saccharomyces cerevisiae. 806 Oct 44

Alkalosis and ATP increase surfactant secretion in alveolar type II cells, possibly via non-receptor- and receptor-mediated mechanisms respectively. We compared the effects of these two agonists on phosphatidylinositol (PI) and 1,2-diacylglycerol (DAG) pools and on phosphatidylcholine (PC) hydrolysis in alveolar type II cells. Alkalosis, caused by transfer of cells from 5% (control) to 0% CO2 in air, and ATP increased the secretion of surfactant compared with the controls. The stimulated secretion was inhibited by staurosporine, a protein kinase C inhibitor. DAG and PI contents of control cells were 50 +/- 1.1 (mean +/- S.E.M., n = 8) and 14 +/-0.8 nmol/mg phospholipid (n = 7) respectively. The DAG content increased by approximately 50 nmol (100%) within 5 s of treatment with both alkalosis and ATP, returned to control levels by 1 min, and increased again at 5 min by approximately 20 nmol. The PI content decreased maximally by approximately 6 nmol (40%) at 5 s and returned to control levels by 30 s with both alkalosis and ATP, but was unchanged thereafter. Mass-balance analysis of net changes in DAG and PI pools suggests that additional sources, possibly PC, must also contribute to the DAG increase. ATP or alkalosis also increased the hydrolysis of PC. The labelling of phosphocholine was increased (approximately 60%) at as early as 5 s and remained elevated at subsequent time points, whereas labelling of choline was higher only with ATP at 50 s and later, suggesting activation of phospholipase C by both agonists, and of phospholipase D by only ATP. Our studies demonstrate that ATP and alkalosis stimulate rapid hydrolysis of inositol and choline phospholipids to increase the DAG mass in type II cells, and that phospholipase C-stimulated PC hydrolysis is the major pathway for DAG formation.
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PMID:Alkalosis- and ATP-induced increases in the diacyglycerol pool in alveolar type II cells are derived from phosphatidylcholine and phosphatidylinositol. 814 83

The incorporation of [3H]serine into lipids, water-soluble metabolites and proteins by the human neuroblastoma cell line LA-N-1 exposed to oxotremorine-M, a muscarinic agonist, was investigated. Oxotremorine-M increased the incorporation of this labelled precursor into phosphatidylserine and proteins in a concentration-dependent manner, with the maximal stimulation at 250 microM. This activation was blunted by 100 microM atropine. There were no detectable changes of the radioactivity in the water-soluble metabolites. Acetylcholine, another muscarinic agonist, slightly decreased the serine incorporation into lipids, but did not affect the protein or water-soluble compartments. Several other muscarinic agonists, including 250 microM pilocarpine, 100 microM McN-A-343 and 1 mM carbachol, did not effect these [3H]serine incorporations. Preincubation of cells with 1 mM oxotremorine M, or 1 mM carbachol, or 1 mM McN-A-343, for 4 h prevented the oxotremorine-M-induced increase of serine incorporation. These observations are consistent with the oxotremorine-M action being mediated by muscarinic-receptor occupancy. The G-protein inhibitor guanosine 5'-[beta-thio]diphosphate (1 mM) and the G-protein activators, guanosine 5'-[gamma-thio]triphosphate (100 microM) and A1F3, prevented the oxotremorine stimulation. The muscarinic agonists, 250 microM oxotremorine-M, 1 mM carbamoylcholine and 500 microM acetylcholine, triggered the accumulation of inositol mono- and di-phosphates by cells that had been prelabelled with myo-[3H]inositol, and this phospholipase C activation was blunted by 100 microM atropine. The protein kinase C inhibitor H7 prevented the oxotremorine-M stimulation of serine incorporation. Over-night exposure of LA-N-1 cells to 100 nM phorbol 12-myristate 13-acetate resulted in a decrease of cytosolic protein kinase C activity, and prevented the oxotremorine-M stimulation of serine incorporation. Neither oxotremorine-M nor acetylcholine caused a redistribution of protein kinase C activity between the cytosol and membrane compartments. In addition, oxotremorine-M did not activate phospholipase D of the LA-N-1 cells.
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PMID:Modulation of phosphatidylserine synthesis by a muscarinic receptor occupancy in human neuroblastoma cell line LA-N-1. 817 97

High blood pressure is one of the major risk factors for atherosclerosis. In this study, we examined the effects of pressure on cell proliferation and DNA synthesis in cultured rat vascular smooth muscle cells. Pressure without shear stress and stretch promotes cell proliferation and DNA synthesis in a pressure-dependent manner. Pressure-induced DNA synthesis was inhibited significantly by the phospholipase C (PLC) inhibitor 2-nitro-4-carboxyphenyl-N,N-diphenylcarbamate, the protein kinase C inhibitor H-7, 1-(5-isoquinolinylsulfonyl)-2-methyl-piperazine, staurosporine, and the tyrosine kinase inhibitor ([3,4,5-trihydroxyphenyl]methylene)propanedinitrile. To clarify whether activation of PLC and calcium mobilization are involved in pressure-induced DNA synthesis, production of 1,4,5-inositol trisphosphate (IP3) and intracellular Ca2+ was measured. Pure pressure increased IP3 and intracellular Ca2+ in a pressure-dependent manner. The increases in both IP3 and intracellular Ca2+ were inhibited significantly by 2-nitro-4-carboxyphenyl-N,N-diphenylcarbamate. This study demonstrates a novel cellular mechanism whereby pressure regulates DNA synthesis in vascular smooth muscle cells, possibly via activation of PLC and protein kinase C.
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PMID:Pressure promotes DNA synthesis in rat cultured vascular smooth muscle cells. 818 28


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