EC:3.1.4.3 - FACTA Search

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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)

The mechanism of neutrophil activation by the chemotactic peptide formyl-methionyl-leucyl-phenylalanine (FMLP) has been studied by pretreatment of human neutrophils with pertussis toxin. Upon stimulation with FMLP, the cytosolic-free calcium concentration, [Ca2+]i, is increased both by stimulation of calcium influx and mobilization of cellular calcium. We have measured [Ca2+]i as well as the generation of the phospholipid breakdown product inositol trisphosphate (IP3), which is thought to mediate Ca2+ mobilization. As the phosphoinositide pool in human neutrophils is difficult to prelabel with [3H]myoinositol, experiments were also carried out in the cultured human promyelocytic leukemia cell line HL-60 after differentiation with dimethylsulfoxide. Pertussis toxin pretreatment of both cell types inhibited FMLP stimulated membrane depolarization, exocytosis, and superoxide production in a dose-dependent manner. This toxin effect was selective for the receptor agonist, since stimulation of these parameters by two substances bypassing the transduction mechanism, the calcium ionophore ionomycin and the phorbolester phorbol myristate acetate, were unaffected. Rises in [Ca2+]i, as well as generation of IP3 in response to FMLP, were inhibited in parallel; for the inhibition of functional responses, slightly lower toxin concentrations were required. The attentuation of the [Ca2+]i rise was more marked in the absence of extracellular calcium, i.e., when the rise is due only to calcium mobilization. The results provide evidence that phospholipase C stimulation by FMLP resulting in IP3 generation is involved in the signal transduction mechanism. Coupling of FMLP receptor occupancy to phospholipase C activation is sensitive to pertussis toxin, suggesting the involvement of a GTP binding protein (N protein), which has been shown to be a pertussis toxin substrate. The parallel changes in [Ca2+]i and IP3 further support the hypothesis that IP3 is the calcium-mobilizing mediator in FMLP-activated cells.
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PMID:Chemotactic peptide activation of human neutrophils and HL-60 cells. Pertussis toxin reveals correlation between inositol trisphosphate generation, calcium ion transients, and cellular activation. 387 77

To define the molecular mechanisms of cross-regulation among chemoattractant receptors, we stably coexpressed, in a rat basophilic leukemia (RBL-2H3) cell line, epitope-tagged receptors for the chemoattractants formylmethionylleucylphenylalanine (fMLP), a peptide of the fifth component of the complement system (C5a), and interleukin-8 (IL-8). All the expressed receptors underwent homologous phosphorylation and desensitization upon agonist stimulation. When co-expressed, epitope-tagged C5a receptor (ET-C5aR) and epitope-tagged IL-8 receptor (ET-IL-8RA) were cross-phosphorylated by activation of the other. Activation of epitope-tagged fMLP receptor (ET-FR) also cross-phosphorylated ET-C5aR and ET-IL-8RA, but ET-FR was totally resistant to cross-phosphorylation. Similarly, C5a and IL-8 stimulation of [35S]guanosine 5'-3-O-(thio) triphosphate (GTP gamma S) binding and Ca2+ mobilization were cross-desensitized by each other and by fMLP. Stimulation of [35S]GTP gamma S binding by fMLP was also not cross-desensitized by C5a or IL-8, however, Ca2+ mobilization was, suggesting a site of inhibition distal to G protein activation. Consistent with this desensitization of Ca2+ mobilization, inositol 1,4,5-trisphosphate release in RBL-2H3 cells expressing both ET-C5aR and ET-FR revealed that fMLP and C5a cross-desensitized each other's ability to stimulate phosphoinositide hydrolysis. Taken together, these results indicate that receptor cross-phosphorylation correlates directly with desensitization at the level of G protein activation. The ET-FR was resistant to this process. Of note, cross-desensitization of ET-FR at the level of phosphoinositide hydrolysis and Ca2+ mobilization was demonstrated in the absence of receptor phosphorylation. This suggests a new form of chemoattractant cross-regulation at a site distal to receptor/G protein coupling, involving the activity of phospholipase C.
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PMID:Cross-desensitization of chemoattractant receptors occurs at multiple levels. Evidence for a role for inhibition of phospholipase C activity. 749 54

The binding of small peptide ligands to high affinity chemoattractant receptors on the surface of neutrophils and monocytes leads to activation of heterotrimeric G-proteins, stimulation of phosphatidylinositol-phospholipase C (PI-PLC), and subsequently to the inflammatory response. It was recently shown (Amatruda, T. T., Gerard, N. P., Gerard, C., and Simon, M. I. (1993) J. Biol. Chem. 268, 10139-10144) that the receptor for the chemoattractant peptide C5a specifically interacts with G alpha 16, a G-protein alpha subunit of the Gq class, to trigger ligand-dependent stimulation of PI-PLC in transfected cells. In order to further characterize this chemoattractant peptide signal transduction pathway, we transfected cDNAs encoding the formylmethionylleucylphenylalanine receptor (fMLPR) into COS cells and measured the production of inositol phosphates. Ligand-dependent activation of PI-PLC was seen in COS cells transfected with the fMLPR and G alpha 16 and stimulated with fMLP but not in cells transfected with receptor alone or with receptor plus G alpha q. Chimeric receptors in which the N-terminal extracellular domain, the second intracellular domain, or the intracellular C-terminal tail of the fMLP receptor was replaced with C5a receptor domains (Perez, H. D., Holmes, R., Vilander, L. R., Adams, R. R., Manzana, W., Jolley, D., and Andrews, W. H. (1993) J. Biol. Chem. 268, 2292-2295) were capable of ligand-dependent activation of PI-PLC when co-transfected with G alpha 16. A chimeric receptor exchanging the first intracellular domain of the fMLPR was constitutively activated, stimulating PI-PLC in the absence of ligand. Constitutive activation of PI-PLC, to a level 233% of that seen in cells transfected with wild-type fMLP receptors, was dependent on G alpha 16. Site-directed mutagenesis of the first intracellular domain of the fMLPR (amino acids 54-62) reveals this to be a domain necessary for ligand-dependent activation of G alpha 16. These results suggest that different receptors which mediate similar biochemical responses may utilize distinct mechanisms to activate G-proteins. Differences among the signaling pathways triggered by chemoattractant factor receptors suggest an opportunity for pharmacologic modifications of the inflammatory response.
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PMID:Signal transduction by the formyl peptide receptor. Studies using chimeric receptors and site-directed mutagenesis define a novel domain for interaction with G-proteins. 749 83

In neutrophils, activation of receptors for the chemotactic peptide N-formylmethionyl-leucyl-phenylalanine (fMLP) leads to changes in intracellular events such as phosphoinositide turnover and Ca2+ mobilization. Studies have shown that activation of the cloned fMLP receptor can also lead to inhibition of cyclic AMP (cAMP) accumulation [Lang, Boulay, Li and Wollheim (1993) EMBO J. 12, 2671-2679; Uhing, Gettys, Tomhave, Snyderman and Didsbury (1992) Biochem. Biophys. Res. Commun. 183, 1033-1039]. These responses are apparently mediated through pertussis toxin-sensitive Gi proteins. Since other chemotactic factor receptors can couple to multiple G proteins, we examined the ability of the fMLP receptor to utilize a pertussis toxin-insensitive G protein, Gz, in its signal transduction pathways. The human fMLP receptor was transiently expressed in 293 and Ltk- cells, and subsequently assayed for receptor-mediated inhibition of cAMP accumulation and stimulation of phosphoinositide-specific phospholipase C. In transfected 293 cells, fMLP inhibited choriogonadotropin-stimulated cAMP accumulation by 50% and the response could be abolished by pertussis toxin. Co-expression of the fMLP receptor with the alpha subunit of Gz rendered the fMLP response pertussis toxin-insensitive, indicating that the endogenous Gi proteins can be substituted efficiently by Gz. In contrast, Ltk- cells expressing the fMLP receptor were able to respond to fMLP with an increase in the production of inositol phosphates, but this response was completely abolished by pertussis toxin even in cells co-expressing the alpha subunit of Gz. Thus, although both signalling pathways appeared to utilize Gi-like proteins, Gz can only replace Gi in mediating inhibition of cAMP accumulation, and not in the stimulation of phospholipase C. Differential interaction with Gz might represent a novel mechanism by which fMLP receptors regulate intracellular events.
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PMID:Differential coupling of the formyl peptide receptor to adenylate cyclase and phospholipase C by the pertussis toxin-insensitive Gz protein. 761 76

Differentiated HL-60 cells acquire responsiveness to fMet-Leu-Phe (fMLP), which activates phospholipase C and O2- generation in a pertussis toxin-sensitive manner. Addition of retinoic acid (RA) for the last 24 h during dimethyl sulfoxide (Me2SO)-induced differentiation enhanced fMLP-dependent signals and interaction between fMLP receptor and G(i). RA modifies both the function and subunit composition of G(i)2, the predominant G(i) of HL-60 membranes, as shown by comparing purified G(i)2 from membranes of Me2SO-treated cells (D-G(i)2) to G(i)2 from membranes of cells treated with both Me2SO and RA (DR-G(i)2). As compared to D-G(i)2, DR-G(i)2 induced more fMLP binding when added to membranes of pertussis toxin-treated HL-60 cells and, in the presence of GTP gamma S, stimulated beta gamma-sensitive phospholipase C in extracts of HL-60 cells to a much greater extent at a lower concentrations. Immunoblasts revealed that RA induced expression of the gamma 2 subunit, which was otherwise undetectable in G(i)2 purified from HL-60 cells or in HL-60 membranes. Possibly by inducing expression of gamma 2, RA alters two functions of the G(i) beta gamma subunit, modulation of fMLP receptor-G(i)2 coupling and activation of the effector, Phospholipase C.
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PMID:Potentiation of Gi-mediated phospholipase C activation by retinoic acid in HL-60 cells. Possible role of G gamma 2. 789 Jul 21

In neutrophils, N-formyl-Met-Leu-Phe (FMLP) stimulates a respiratory burst with subsequent generation of superoxide anion (O2-.) by NADPH oxidase. Signal transduction involved in this process includes FMLP receptor stimulation of phosphoinositide hydrolysis with formation of inositol 1,4,5-trisphosphate and diacylglycerol and phosphatidylcholine hydrolysis with formation of phosphatidic acid. Generation of these second messengers would lead to activation of NADPH oxidase and generation of O2-.. Neutrophils from diabetic subjects and normal neutrophils exposed to glucose have diminished ability to activate the respiratory burst in response to various agonists. The mechanism of this suppression remains unknown. We report herein that treatment of neutrophils with 15 and 50 mM glucose significantly suppresses the O2-. formation in response to receptor-mediated stimulation. The decreased O2-. generation is associated with marked inhibition of phospholipase D (PLD) activity, with limited hydrolysis of phosphatidylcholine and formation of phosphatidic acid. Sorbitol (50 mM), a nonmetabolizable sugar with a similar osmotic effect, has no influence on O2-. generation or PLD activation. The 4 beta-phorbol 12-myristate 13-acetate (PMA)-induced O2-. generation as well as PLD activation are unaffected by glucose. Furthermore, the intracellular Ca2+ transient in response to FMLP is not influenced by glucose. Taken together, these data suggest that glucose differentially interferes with activation of PLD but not phospholipase C. And, the fact that PMA-induced activation of PLD is not altered by glucose further suggests that a protein kinase C independent step leading to the activation of PLD may be altered by glucose.
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PMID:Glucose suppresses superoxide generation in normal neutrophils: interference in phospholipase D activation. 838 32

In neutrophils fMet-Leu-Phe activates phospholipase C via a pertussis toxin sensitive G-protein and induces granule secretion. We have transfected a human cDNA sequence encoding the fMet-Leu-Phe receptor into the insulin secreting cell line RINm5F to study receptor-effector coupling with special regard to secretion. Stable overexpression resulted in membrane hyperpolarization, reduction of cAMP accumulation and inhibition of insulin secretion upon exposure of cells to fMet-Leu-Phe with EC50 values in the pmol range. As in the neutrophil, nanomolar concentrations of ligand induced membrane depolarization and activation of phospholipase C, with subsequent mobilization and influx of calcium. In permeabilized cells the inhibitory effect of fMet-Leu-Phe on secretion was partially retained indicating a direct action of the fMet-Leu-Phe receptor on exocytosis. Pertussis toxin abolished the effects of fMet-Leu-Phe. Our results suggest conserved coupling from fMet-Leu-Phe receptor to pertussis toxin sensitive transducers analogous to the mechanism in neutrophils. However, the net biological effect of receptor activation is determined by additional factors intrinsic to the host cell.
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PMID:Conserved transducer coupling but different effector linkage upon expression of the myeloid fMet-Leu-Phe receptor in insulin secreting cells. 839 32

The hemolytically inactive complement component complex C5b67, designated iC5b67, can signal human polymorphonuclear leukocytes (PMN) both as a pertussis toxin-inhibitable agonist for chemotaxis and as an antagonist for C5a- and FMLP-stimulated chemotaxis and superoxide production. The signaling pathways utilized by iC5b67 have been further investigated. In contrast to mastoparan, iC5b67 failed to directly activate G proteins to stimulate inositol phosphate formation in COS cells that had been transfected with G alpha 16. In COS cells co-transfected with both G alpha 16 and the C5a receptor, iC5b67 could neither activate phospholipase C nor inhibit C5a receptor-mediated activation of phospholipase C. iC5b67 stimulated GTPase activity in a membrane-enriched fraction from PMN. These data support the hypothesis that iC5b67 signals through a unique receptor, likely G protein linked, but distinct from the C5a receptor. iC5b67 was able to mobilize intracellular stores to elicit increases in intracellular Ca2+. Based on the effects of herbimycin A, wortmannin, and chelerythrine on iC5b67-induced PMN chemotaxis, iC5b67 signaling involved activation of tyrosine and phosphatidylinositol 3-kinases, but not protein kinase C. Relevant to the capacity of iC5b67 to antagonize PMN superoxide production, iC5b67 induced rapid and sustained increases in intracellular cAMP, which others have shown can inhibit superoxide formation. Although iC5b67 antagonizes C5a and FMLP receptor-mediated superoxide generation, iC5b67 had no effect on PMA-induced superoxide formation. The distinct agonist and antagonist signaling pathways activated by iC5b67 in the PMN diverge soon after initial iC5b67 receptor-mediated transduction steps.
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PMID:Signaling by hemolytically inactive C5b67, an agonist of polymorphonuclear leukocytes. 854 34

Formylated peptides (e.g. n-formyl-Met-Leu-Phe (fMLP)) and platelet-activating factor (PAF) mediate chemotactic and cytotoxic responses in leukocytes through receptors coupled to G proteins that activate phospholipase C (PLC). In RBL-2H3 cells, fMLP utilizes a pertussis toxin (ptx)-sensitive G protein to activate PLC, whereas PAF utilizes a ptx-insensitive G protein. Here we demonstrate that fMLP, but not PAF, enhanced intracellular cAMP levels via a ptx-sensitive mechanism. Protein kinase A (PKA) inhibition by H-89 enhanced inositol phosphate formation stimulated by fMLP but not PAF. Furthermore, a membrane-permeable cAMP analog 8-(4-chlorophenylthio)-cAMP (cpt-cAMP) inhibited phosphoinositide hydrolysis and secretion stimulated by fMLP but not PAF. Both cpt-cAMP and fMLP stimulated PLCbeta3 phosphorylation in intact RBL cells. The purified catalytic subunit of PKA phosphorylated PLCbeta3 immunoprecipitated from RBL cell lysate. Pretreatment of intact cells with cpt-cAMP and fMLP, but not PAF, resulted in an inhibition of subsequent PLCbeta3 phosphorylation by PKA in vitro. These data demonstrate that fMLP receptor, which couples to a ptx-sensitive G protein, activates both PLC and cAMP production. The resulting PKA activation phosphorylates PLCbeta3 and appears to block the ability of Gbetagamma to activate PLC. Thus, both fMLP and PAF generate stimulatory signals for PLCbeta3, but only fMLP produces a PKA-dependent inhibitory signal. This suggests a novel mechanism for the bidirectional regulation of receptors which activate PLC by ptx-sensitive G proteins.
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PMID:Differential regulation of formyl peptide and platelet-activating factor receptors. Role of phospholipase Cbeta3 phosphorylation by protein kinase A. 955 82

The presence of binding sites for formyl-methionyl-leucyl-phenylalanine (fMLP), its effect on prostaglandin E (PGE) release, and the signal transduction pathway activated by the peptide were investigated in human amnion-derived WISH cells. Our results demonstrate that specific binding sites for fMLP are present on WISH cells and that the peptide induces a significant increase of prostaglandin (PG)E2 release. The kinetic properties of binding are similar to those previously found in amnion tissue prior to the onset of labor, i.e., only one population of binding sites with low affinity for the peptide is present. Binding of 3H-fMLP in WISH cells is inhibited by N-t-butoxycarbonyl-methionyl-leucyl-phenylalanine, an fMLP receptor antagonist, with an IC50 value very close to that shown by nonlaboring amnion. The fMLP-induced PGE2 output is inhibited by indomethacin, quinacrine, and U-73122, inhibitors of cyclooxygenase, phospholipase A2, and phospholipase C, respectively. As regards the transduction pathway activated by fMLP, we demonstrate that phospholipase C activation, followed by an increase of intracellular calcium concentration ([Ca2+]i), is involved in response to the peptide. Our results add further evidence to the role of proinflammatory agents in the determination of labor. Furthermore, because WISH cells appear to behave like nonlaboring amnion tissue, they represent the ideal candidate for in vitro investigation of the events triggering the mechanism of delivery.
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PMID:Formyl-methionyl-leucyl-phenylalanine induces prostaglandin E2 release from human amnion-derived WISH cells by phospholipase C-mediated [Ca+]i rise. 1120 2

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