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)

Tumor necrosis factor (TNF) is a proinflammatory polypeptide that is able to induce a great diversity of cellular responses via modulating the expression of a number of different genes. One major pathway by which TNF receptors communicate signals from the membrane to the cell nucleus involves protein kinase C (PKC). In the present study, we have addressed the molecular mechanism of TNF-induced PKC activation. To this, membrane lipids of the human histiocytic cell line U937 were labeled by incubation with various radioactive precursors, and TNF-induced changes in phospholipid, neutral lipid, and water-soluble metabolites were analyzed by thin layer chromatography. TNF treatment of U937 cells resulted in a rapid and transient increase of 1'2'diacylglycerol (DAG), a well-known activator of PKC. The increase in DAG was detectable as early as 15 s after TNF treatment and peaked at 60 s. DAG increments were most pronounced (approximately 360% of basal levels) when cells were preincubated with [14C]lysophosphatidylcholine, which was predominantly incorporated into the phosphatidylcholine (PC) pool of the plasma-membranes. Further extensive examination of changes in metabolically labeled phospholipids indicated that TNF-stimulated hydrolysis of PC is accompanied by the generation of phosphorylcholine and DAG. These results suggest the operation of a PC-specific phospholipase C. Since no changes in phosphatidic acid (PA) and choline were observed and the production of DAG by TNF could not be blocked by either propranolol or ethanol, a combined activation of phospholipase D and PA-phosphohydrolase in DAG production appears unlikely. TNF-stimulated DAG production as well as PKC activation could be blocked by the phospholipase inhibitor p-bromophenacylbromide (BPB). Since BPB did not inactivate PKC directly, these findings underscore that TNF activates PKC via formation of DAG. TNF stimulation of DAG production could be inhibited by preincubation of cells with a monoclonal anti-TNF receptor (p55-60) antibody, indicating that activation of a PC-specific phospholipase C is a TNF receptor-mediated event.
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PMID:Tumor necrosis factor induces rapid production of 1'2'diacylglycerol by a phosphatidylcholine-specific phospholipase C. 165 88

Both 5-HT and the 9 amino acid neuropeptide SCPb modulate 3 ionic currents in B15, enhancing a voltage-dependent inward sodium current, decreasing an outward potassium current and increasing an inward rectifying potassium current. In contrast, FMRFamide decreases a voltage-dependent inward sodium current and increases an outward potassium current. We have also investigated the roles of several second-messenger systems that may be mediating the effects of these modulators. Bath application of membrane permeable analogs of cAMP enhance the voltage-dependent inward sodium current and both 5-HT and SCPb increase cAMP levels in B15, suggesting that cAMP may be mediating part of the observed effects of these transmitters on B15. Experiments with phorbol ester, a protein kinase inhibitor, and a phospholipase inhibitor suggest that the phospholipase C/protein kinase C cascade may decrease an outward potassium current. Thus, 5-HT and SCPb may activate multiple second-messenger systems to modulate 3 ionic currents in B15. Additional studies suggest that a cascade involving arachidonic acid may be involved in mediating part of the FMRFamide responses in B15. These studies are beginning to define molecular mechanisms whereby a neuron differentially modulates multiple ionic currents in response to distinct chemical messengers.
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PMID:Modulation of ionic currents in Aplysia motor neuron B15 by serotonin, neuropeptides, and second messengers. 247 12

The stimulation of the human neutrophil NADPH-oxidase is initiated by a variety of agonists, which appear to utilize more than one activation pathway. We have discerned that opsonized zymosan (OZ) stimulates O2- release by a mechanism distinct from that of phorbol myristate acetate (PMA). PMA differs from OZ stimulation in its susceptibility to H-7 (a protein kinase inhibitor) inhibition of O2- release and the lack of PMA-initiated release of radiolabeled arachidonic acid ([3H]AA) from prelabeled cells. That AA release was linked to O2- generation in OZ-stimulated cells was suggested by the finding that mepacrine, a phospholipase inhibitor, exhibits parallel dose response inhibition for both O2- generation and [3H]AA release, whereas mepacrine did not significantly inhibit the O2- generation induced by PMA. The specific involvement of phospholipase A2 (PLA2) in the release of AA was indicated by the lack of release of [3H]oleate, which is not released by PLA2 in intact cells; [3H]AA released from phosphatidylinositol and phosphatidylcholine and not accompanied by the formation of [3H]-arachidonyl phosphatidic acid, thus eliminating the involvement of phospholipase C; and the inhibition of [3H]AA release by p-bromophenacyl bromide, a specific PLA2 inhibitor. The reduction of O2- formation by inhibitors of AA metabolism (BW755C, acetylsalicylic acid, and indomethacin) further supports a linkage between AA release and O2- generation. That [3H]AA release, like O2- generation, in OZ-stimulated cells was calcium dependent further differentiates OZ from calcium-independent PMA activation. These studies in toto suggest that OZ stimulation of the NADPH-oxidase differs from PMA, in that the particulate stimulus is PLA2 mediated and independent of protein kinase C.
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PMID:Identification of distinct activation pathways of the human neutrophil NADPH-oxidase. 302 Jan 28

U-937 cells differentiated by exposure to dibutyryl cyclic AMP respond to complement fragment C5a with a marked increase in cytoskeletal F-actin, which can be detected by fluorescence-activated cell sorting (f.a.c.s.) analysis of their rhodamine phalloidin-stained cytoskeletons. The C5a-induced increase in F-actin content can be prevented by prior exposure of the cells to cytochalasin B and pertussis toxin. It is insensitive to removal of extra cellular Ca2+, to cholera toxin or to neomycin. Phorbol myristate acetate (PMA), an activator of protein kinase C, does not induce actin polymerization in the differentiated cells. Both C5a and PMA stimulate superoxide production. The action of C5a on superoxide formation is also inhibited by neomycin, a phospholipase inhibitor. These results suggest that the cytoskeletal response to C5a requires activation of a G protein, but probably does not involve phospholipase C and protein kinase C, and is not highly dependent on the availability of Ca2+. Phospholipase C and kinase C may, however, be components of the pathway leading from C5a binding to superoxide production.
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PMID:Recruitment of actin to the cytoskeletons of human monocyte-like cells activated by complement fragment C5a. Is protein kinase C involved? 342 21

Human hairy cell leukemia (HCL) cells in culture showed a marked increase in both [1-14C]acetate and [14C]choline incorporation into phosphatidylcholine (PC) when treated with a 10 nM concentration of 12-O-tetradecanoylphorbol 13-acetate (TPA) for 3 h. Dramatic morphological changes occurred and synthesis of most phospholipids was stimulated. However, the most dramatic increase was seen in the [14C]acetate labeling of both long- and short-chain fatty acid-containing sphingomyelins (from 200-425% of control levels), sphingomyelin being especially enriched in HCL cells. Negligible incorporation of [14C]choline into sphingomyelin was observed and phospholipase inhibitor (U10029A) studies indicated that PC was the major source of sphingomyelin choline. These changes were most clearly seen by autoradiography of two-dimensional thin-layer chromatography plates. Chronic myelogenous leukemia (CML) blasts, which did not respond morphologically to TPA, showed no increased phospholipid synthesis under the same conditions and increases in sphingomyelin synthesis were modest. Other non-TPA-responding leukemic cells were similarly refractive. However, one out of four acute monomyelocytic leukemic (AMMoL) cells studied responded morphologically in a manner identical to HCL cells and exhibited the same dramatic increase in sphingomyelin synthesis. Data are presented which suggest that TPA may also stimulate PC phospholipase C activity in addition to activating the calcium-dependent protein kinase by mimicking diacylglycerol.
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PMID:Phorbol ester tumor promoters specifically stimulate choline phospholipid metabolism in human leukemic cells. 659 31

We have previously reported that LiCl increases considerably the cytotoxic activity of TNF towards some transformed cell lines such as L929. Here we show that treatment of these cell lines with the combination of TNF and LiCl leads to the prolonged accumulation of inositol monophosphate, inositol bisphosphate, and inositol trisphosphate, whereas treatment with TNF or LiCl alone did not. In contrast, both a LiCl-unresponsive TNF-sensitive cell line and TNF-resistant cell lines did not respond with increased accumulation of inositol phosphates (IPn) upon treatment with the combination of TNF and LiCl. Furthermore, the combination of TNF and LiCl induced a transient increase in cytidine diphosphate-diacylglycerol in L929 cells. Increased IPn and cytidine diphosphate-diacylglycerol accumulation preceded the onset of cell killing by approximately 1 h. TNF-mediated cytotoxicity and TNF-induced IPn accumulation were equally sensitive to inhibition by the phospholipase inhibitor neomycin and to stimulation by the protein kinase inhibitor staurosporine. Characterization of the inositol bisphosphate isomers by HPLC analysis revealed that the TNF + LiCl-induced increase in IPn levels was due to activation of a phospholipase C and not of a phospholipase D. In contrast to TNF, several other cytotoxic agents did not increase IPn production upon application in the presence of LiCl. The TNF + LiCl-induced increase in inositol triphosphate suggests a role for intracellular Ca2+ mobilization in TNF action. Moreover, several agents that lower the intracellular Ca2+ concentration inhibited TNF cytotoxicity. In conclusion, our data provide evidence that TNF cytotoxicity and its enhancement by LiCl are mediated by increased IPn accumulation resulting in Ca2+ mobilization.
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PMID:Enhancement of tumor necrosis factor cytotoxicity by lithium chloride is associated with increased inositol phosphate accumulation. 839 97

Recombinant human tumor necrosis factor (TNF)-alpha increased the expression of epidermal growth factor receptor (EGFR) mRNA and protein in all of six human pancreatic carcinoma cell lines tested. In addition, TNF-alpha increased the expression of an EGFR ligand, transforming growth factor (TGF)-alpha, at the mRNA and protein level in all cell lines. Increased expression of EGFR protein was associated with elevated steady-state EGFR mRNA levels. Nuclear run-on analysis showed that increase in EGFR mRNA was due to an increased rate of transcription. Induction of EGFR mRNA expression by TNF-alpha was abrogated by cycloheximide but occurred independently of TNF-alpha-induced production of TGF-alpha protein. Protein kinase A or Gi-type guanine nucleotide-binding proteins were not involved in this process as assessed by using appropriate stimulators and inhibitors of these signal transduction pathways. By contrast, staurosporine, an inhibitor of protein kinase C, partially inhibited, and 4-bromophenacyl bromide, a phospholipase inhibitor, completely inhibited TNF-alpha-dependent EGFR mRNA expression. The phospholipase C-specific inhibitor tricyclodecan-9-yl xanthogenate did not alter TNF-alpha-dependent EGFR mRNA expression, suggesting that phospholipase A2 is involved in the modulation of EGFR expression by TNF-alpha. The simultaneous induction of a ligand/receptor system by TNF-alpha suggests that this cytokine modulates autocrine growth-regulatory pathways in pancreatic cancer cells.
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PMID:Tumor necrosis factor alpha induces the expression of transforming growth factor alpha and the epidermal growth factor receptor in human pancreatic cancer cells. 843 98

The contributions of several Ca(2+)-dependent processes to neurotoxicity were examined in primary cultures of rat cortical neurons. The Ca2+ ionophore ionomycin induced a rapid loss of axonal morphology and concomitant release of inositol phosphates that preceded morphological alterations of neuronal cell bodies, choline and arachidonate release, and protein degradation. These events were followed by a degree of neuronal lysis proportional to the external Ca2+ concentration and exposure time. The phospholipase inhibitor neomycin decreased both arachidonate release and the phospholipid hydrolysis catalysed by phospholipases C and D. Proteolysis was abated by the protease inhibitor leupeptin, but not by lysosomal proteolysis inhibitors. Neuronal lysis was inhibited partially by either leupeptin or neomycin and almost completely by both in combination. However, neither agent, alone or in combination, affected the morphological derangements. The diacylglycerol lipase inhibitor RHC-80267 reduced arachidonate release, but not neuronal lysis. Phospholipase A2 inhibitors had no effect on either arachidonate release or lysis. Treatment of mixed cultures of neurons and glia with a Ca(2+)-dependent glutamate challenge caused similar morphological changes and a delayed neuronal lysis that was also diminished by leupeptin and neomycin, but not by inhibitors of lysosomal proteolysis. These data describe several distinct stages of Ca(2+)-dependent injury to cortical neurons, a key feature of which is the stimulation of protease, and phospholipase C and D activities. The initial stage is characterized by a rapid loss of axonal morphology and increased phosphatidylinositol hydrolysis. An intermediate stage involves changes in cell body morphology plus the degradation of neuronal protein and phosphatidylcholine. In a later stage, the loss of plasma membrane integrity denotes neuronal death.
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PMID:Ca(2+)-dependent mechanisms of cell injury in cultured cortical neurons. 969 20

1. Whole-cell patch-clamp recordings were made from smooth muscle cells isolated from the longitudinal muscle layer of guinea-pig ileum. Carbachol (acting at muscarinic receptors) or histamine (acting at H1 histamine receptors) suppressed Ca2+ channel current. The effect of either agonist had an initial transient component followed by a sustained component. 2. Wortmannin inhibited transient and sustained components of carbachol-induced Ca2+ channel current suppression: half-effective inhibitory concentrations (IC50) were 1.1 microM and 0.6 microM for the two components respectively. Wortmannin also inhibited the transient phase of carbachol-induced cationic current (IC50 1.6 microM) and Ca2+-dependent K+-current (IC50 1.7 microM). Wortmannin did not appear to produce any direct block of cationic channels or Ca2+ channels. 3. Intracellular application of the phospholipase inhibitor D609 (tricyclodecan-9-ylxanthogenate) inhibited transient and sustained components of histamine action on the Ca2+ channel current: the IC50 was about 130 microM for both components. Carbachol action on Ca2+ channels was also inhibited by D609. D609 had no significant direct blocking effect on Ca2+ channels, cationic channels activated by carbachol, or Ca2+-activated K+-current in response to flash-photolysis of caged-inositol 1,4,5-trisphosphate. 4. Micromolar concentrations of wortmannin and D609 are inhibitors of both components of spasmogen-induced Ca2+ channel suppression. The data suggest that both components are mediated by a common, or similar, signal transduction element which is a phospholipase C (PLC) or phospholipase D (PLD) isoform.
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PMID:Inhibitors of spasmogen-induced Ca2+ channel suppression in smooth muscle cells from small intestine. 983

A model of tissue cyst formation was developed using D609, a specific inhibitor of phosphatidylcholine specific-phospholipase C. The phospholipase inhibitor induced a decrease in Toxoplasma gondii multiplication and several successive treatments could lead to an arrest in parasite multiplication and full encystment of the parasites. This could be a first step towards an in vitro model of T. gondii reactivation.
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PMID:Induction of Toxoplasma gondii cystogenesis and multiplication arrest by treatments with a phosphatidylcholine-specific phospholipase C inhibitor. 1038 62


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