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)

Phospholipase D (PLD) is activated in mammalian cells in response to a variety of growth factors and may play a role in cell proliferation. Lysophosphatidic acid (LPA) is a bioactive metabolite potentially generated as a result of PLD activation. Two human prostate cancer cell lines, PC-3 and LNCaP, express membrane PLD activity. The effects of LPA on PLD activity and proliferation were examined in PC-3 cells, which express hPLD1a/1b. Phorbol 12-myristate 13-acetate (PMA) induced a prolonged activation of PLD, as detected in both intact cells and membranes. LPA induced a transient activation of PLD that was maximal by 10 minutes. The EC50 for LPA-induced PLD activation was approximately 1 microM. Pertussis toxin did not inhibit activation of PLD by LPA or PMA. Ro-31-8220 and bisindolylmaleimide I, inhibitors of protein kinase C, blocked activation by PLD by both PMA and LPA. PMA-induced activation of PLD did not appear to require translocation of PLDs from cytosol to membrane. LPA stimulated proliferation of PC-3 cells with an EC50 of approximately 0.2 microM; this response was not inhibited by pertussis toxin. Perillyl alcohol, an anti-cancer drug, reversibly inhibited proliferation in response to either serum or LPA but did not inhibit activation of PLD by PMA or LPA. These data establish that LPA activates PLD and stimulates proliferation via Gi-independent pathways in a human prostate cancer cell line.
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PMID:Lysophosphatidic acid stimulates phospholipase D activity and cell proliferation in PC-3 human prostate cancer cells. 942 12

Phospholipase D (PLD) activity was determined in rat hippocampal slices between postnatal days 3 and 35. After birth, basal PLD activity was low and, within 2 weeks, increased to reach a plateau that was maintained up to the adult age. Likewise the response to glutamate developed postnatally to reach a maximum at day 8, but then faded rapidly and was almost absent at day 35. Activation of PLD by 4beta-phorbol 12beta,13alpha-dibutyrate (PDB) was independent of age, whereas the effect of aluminum fluoride (AlF4-) increased to a plateau within the first week. At day 8, PLD stimulation by glutamate via metabotropic receptors involved protein kinase C activation, but was independent of Ca2+ influx; the time course of PLD activation by PDB or AlF4- was linear throughout the experiment, whereas the response to glutamate or 1-aminocyclopentane-1,3-dicarboxylic acid followed a biphasic pattern: the rapid "first phase activation" desensitized within a few minutes and disclosed a small, but maintained "second phase." Pretreatment experiments confirmed desensitization of PLD activation by glutamate, but not by AlF4- or PDB. The biphasic pattern of glutamatergic PLD activation changed during development, i.e., the first phase activation faded and the second phase remained. These results were fully confirmed by the time courses of the PLD-mediated efflux of choline evoked by glutamate. In conclusion, postnatal glutamatergic activation of hippocampal PLD is composed of a pronounced and desensitizing first phase activation and a small, but nondesensitizing second phase. The first, but not the second, phase activation fades rapidly during development. The hypothesis is discussed that the glutamatergic activation of PLD occurs along different pathways in neonate and adult tissue.
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PMID:Glutamatergic activation of hippocampal phospholipase D: postnatal fading and receptor desensitization. 952 86

Amyloid beta protein is the major protein component of neuritic plaques found in the brain of Alzheimer's disease. The activation of phospholipase D by amyloid beta protein (25-35), quisqualate and phorbol 12, 13-dibutyrate was investigated in LA-N-2 cells by measuring phosphatidylethanol formation. The activation of phospholipase D by quisqualate and APP (25-35) was calcium-independent. The AbetaP (25-35) and quisqualate activation of phospholipase D appeared to be mediated through a pertussis toxin-sensitive GTP-binding protein. Phospholipase D activation by AbetaP (25-35), quisqualate and phorbol dibutyrate was not blunted by the protein kinase C inhibitors, staurosporine, H-7 and RO-31-8220. However, it was abolished by overnight exposure to phorbol dibutyrate. This activation of phospholipase D was prevented by the tyrosine kinase inhibitor, genistein but not by tyrophostin A. Several excitatory amino acid antagonists were tested for their ability to prevent the phospholipase D activation by quisqualate and AbetaP (25-35). Only NBQX was effective with an IC50 of 75 microM for AbetaP (25-35) and quisqualate. Activation of phospholipase D by AbetaP or quisqualate was absent in LA-N-2 cells previously desensitized by quisqualate or AbetaP (25-35), but the activation by phorbol dibutyrate was unaltered. The responsiveness to AbetaP and quisqualate in previously desensitized cells reappeared subsequent to a period of resensitization. The observations with the antagonist NBQX, and the desensitization and resensitization experiments, are consistent with a receptor occupancy mediated activation of phospholipase D by quisqualate and by AbetaP (25-35).
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PMID:Activation of LA-N-2 cell phospholipase D by amyloid beta protein (25-35). 980 77

Phospholipase D (PLD) has been implicated in vesicle trafficking in the Golgi and hence secretion. In this study, we show that the secretion of matrix metalloproteinase-9 (MMP-9) from HT 1080 human fibrosarcoma cells was stimulated by phorbol 12-myristate 13-acetate in a time- and dose-dependent manner that involved protein kinase C. The phorbol ester also increased PLD activity in the cells. Evidence that PLD was involved in the stimulation of MMP-9 secretion was provided by the observations that the secretion of MMP-9 was stimulated by the introduction of short-chain phosphatidic acid (PA) into the growth medium and that inhibition of PA production by 1-propanol inhibited secretion. Using a short-chain diacylglycerol we excluded the possibility that MMP-9 secretion was induced by diacylglycerol formed from PA by phosphatidic acid phosphatase. Furthermore, propranolol, an inhibitor of this enzyme, had no effect on secretion induced by either phorbol 12-myristate 13-acetate or PA. The data presented here indicate that activation of protein kinase C increases MMP-9 secretion in HT 1080 cells and implicate PLD and PA formation in the effect.
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PMID:Phospholipase D mediates matrix metalloproteinase-9 secretion in phorbol ester-stimulated human fibrosarcoma cells. 987 9

Endothelins (ETs) are 21-amino-acid peptides produced in many cells and tissues. The vascular ET system is represented mainly by ET-1 produced in endothelial cells. PreproET-1 gene expression is regulated by transactivating signals dependent on cooperative interaction of GATA-2 and AP-1 sites. ProET-1 is acted on by a furin-like enzyme to generate big ET-1, a 38-39-amino-acid peptide, which is converted to the mature 21-amino-acid peptide ET-1 by ET-converting enzyme (ECE) in endothelial cells, both intracellularly and on the cell membrane, and on the surface of underlying smooth muscle cells. The mature peptide ET-1 acts in a paracrine manner on smooth muscle cell ET(A) and ET(B) receptors to induce contraction and growth, and in an autocrine or paracrine manner on endothelial cells to induce production of the vasorelaxant and growth-inhibitory agents nitric oxide (NO) and prostacyclin. ET receptors are G-protein-coupled, resulting in activation of phospholipase C and generation of two second messengers, inositol triphosphate and diacylglycerol, which respectively stimulate calcium release and protein kinase C activation. Phospholipase D activation with generation of diacylglycerol, phospholipase A2 stimulation with release of arachidonic acid, activation of the Na+/H+ exchanger, and activation of tyrosine kinases and MAP kinases, are other pathways that contribute to contraction and growth induced by ET receptor stimulation. ET receptors may be downregulated by ET, especially under conditions in which large amounts of ET are being produced in the vasculature. This has been demonstrated in some models of experimental hypertension and in some forms of human hypertension. Some of the effects of angiotensin II, particularly growth of the smooth muscle media of blood vessels, have been shown under some conditions to be mediated by ET-1 via ET(A) receptors. Many ET-induced effects on smooth muscle cells can be blocked by ET(A)-selective ET antagonists, which makes possible an identification of the physiologic and pathophysiologic roles of the ET system in cardiovascular diseases such as hypertension, heart failure, atherosclerosis, coronary heart disease, restenosis after angioplasty, primary pulmonary hypertension, and other pathologic conditions.
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PMID:Vascular biology of endothelin. 988 41

Phospholipase D catalyses the hydrolysis of phosphatidylcholine to generate phosphatidate. The regulation of PLD activity is complex involving a number of small GTP binding proteins, but in particular Arf and Rho, phosphatidylinositol 4,5-bisphosphate and protein kinase C. The cDNA for PLD1 has recently been cloned and shows homology to the yeast and plant genes but only within four domains. Domains I and IV each contain a putative catalytic triad. PLD activity has been detected in plasma membranes, Golgi membranes and in nuclear membranes; it is unclear if different isoenzymes are responsible for this variation, or if the PLDs are differently regulated. The product of PLD activity, PA, appears to be a messenger molecule regulating the actin cytoskeleton and maybe playing a role in the control of membrane traffic and secretion.
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PMID:Phospholipase D. 1002 94

Activation of the extracellularly regulated kinase (ERK) pathway is part of the early biochemical events that follow lipopolysaccharide (LPS) treatment of macrophages or their infection by virulent and attenuated Salmonella strains. Phagocytosis as well as the secretion of invasion-associated proteins is dispensable for ERK activation by the pathogen. Furthermore, the pathways used by Salmonella and LPS to stimulate ERK are identical, suggesting that kinase activation might be solely mediated by LPS. Both stimuli activate ERK by a mechanism involving herbimycin-dependent tyrosine kinase(s) and phosphatidylinositol 3-kinase. Phospholipase D activation and stimulation of protein kinase C appear to be intermediates in this novel pathway of MEK/ERK activation.
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PMID:Salmonella typhimurium and lipopolysaccharide stimulate extracellularly regulated kinase activation in macrophages by a mechanism involving phosphatidylinositol 3-kinase and phospholipase D as novel intermediates. 1002 37

Phospholipase D (PLD) activity is commonly elevated in response to mitogenic signals. We reported previously that although the transformed phenotype induced by v-Src was dependent upon Raf-1, the PLD activity induced by v-Src was independent of Raf-1. This observation suggested to us that Raf would not likely be an activator of PLD. However, upon examination of PLD activity in v-Raf-transformed cells, surprisingly, we found that PLD activity is elevated to levels that were even higher than that observed in v-Src-transformed cells. To characterize the mechanism of v-Raf-induced PLD activity, we examined the dependence of v-Raf-induced PLD activity upon protein kinase C (PKC) the small GTPases Ral and Rho, which have all been implicated in the activation of PLD. The v-Raf-induced PLD activity was inhibited by dominant negative mutants for both Ral and Rho. The dependence upon Ral was particularly surprising since Ral is a downstream target of Ras, which is an upstream activator of Raf. Depleting cells of PKC by long term phorbol ester treatment actually increased PLD activity in v-Raf-transformed cells, indicating that v-Raf-induced PLD activity is not dependent on PKC. These data describe a novel mechanism for PLD activation by v-Raf that is independent of PKC, but dependent upon both Ral and Rho GTPases.
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PMID:Ral and Rho-dependent activation of phospholipase D in v-Raf-transformed cells. 1004 38

Phospholipase D (PLD) activity has been shown to be GTP-dependent both in vivo and in vitro. One protein that confers GTP sensitivity to PLD activity in vitro is the low-molecular-mass G-protein ADP-ribosylation factor (Arf). However, members of the Rho family and protein kinase C (PKC) have also been reported to activate PLD in various cell systems. We have characterized the stimulation of PLD in HL60 cell membranes by these proteins. The results demonstrate that a considerable proportion of HL60 PLD activity is located in a detergent-insoluble fraction of the cell membrane that is unlikely to be a caveolae-like domain, but is probably cytoskeletal. This PLD activity required the presence of Arf1, a Rho-family member and PKC for efficient catalysis of the lipid substrate, suggesting that the activity represents PLD1. We show that recombinant human PLD1b is regulated in a similar manner to HL60-membrane PLD, and that PKCalpha and PKCdelta are equally effective PLD activators. Therefore maximum PLD activity requires Arf, a Rho-family member and PKC, emphasizing the high degree of regulation of this enzyme.
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PMID:Characterization of the regulation of phospholipase D activity in the detergent-insoluble fraction of HL60 cells by protein kinase C and small G-proteins. 1008 31

Phospholipase D (PLD) is a phosphodiesterase that catalyses hydrolysis of phosphatidylcholine to produce phosphatidic acid and choline. In the presence of ethanol, PLD also catalyses the formation of phosphatidylethanol, which is a unique characteristic of this enzyme. Muscarinic receptor-induced changes in the activity of PLD were investigated in porcine tracheal smooth muscle by measuring the formation of [3H]phosphatidic acid ([3H]PA) and [3H]phosphatidylethanol ([3H]PEth) after labeling the muscle strips with [3H]palmitic acid. The cholinergic receptor agonist acetylcholine (Ach) significantly but transiently increased formation of both [3H]PA and [3H]PEth in a concentration-dependent manner (>105-400% vs. controls in the presence of 10(-6) to 10(-4) M Ach) when pretreated with 100 mM ethanol. The Ach receptor-mediated increase in PLD activity was inhibited by atropine (10(-6) M), indicating that activation of PLD occurred via muscarinic receptors. Activation of protein kinase C (PKC) by phorbol-12-myristate-13-acetate (PMA) increased PLD activity that was effectively blocked by the PKC inhibitors calphostin C (10(-8) to 10(-6) M) and GFX (10(-8) to 10(-6) M). Ach-induced increases in PLD activity were also significantly, but incompletely, inhibited by both GFX and calphostin C. From the present data, we conclude that in tracheal smooth muscle, muscarinic acetylcholine receptor-induced PLD activation is transient in nature and coupled to these receptors via PKC. However, PKC activation is not solely responsible for Ach-induced activation of PLD in porcine tracheal smooth muscle.
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PMID:Activation of muscarinic receptors in porcine airway smooth muscle elicits a transient increase in phospholipase D activity. 1008 40


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