EC:3.1.4.3 - FACTA Search

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)

The catalytic subunit of cholera toxin (CT) can chemically modify the alpha polypeptides of certain G-binding proteins and thus alter their function. In order to study the involvement of CT-sensitive G proteins in T cell activation, we have utilized CT in an in vitro system in which purified, resting human peripheral T cells are activated by anti-CD3 antibodies and rIL-2. Perturbation of the TCR/CD3 molecular complex by anti-CD3 antibodies causes changes in membrane phospholipids and induces a rise in cytoplasmic Ca2+. These events, however, are insufficient to allow progression into cellular proliferation and addition of IL-2 is required. Under these conditions, treatment of cells with a low concentration of CT (2 ng/ml) causes a significant inhibition of the anti-CD3-induced calcium event as well as the anti-CD3 plus IL-2-stimulated proliferation. Under our experimental conditions, inhibition of both proliferation and intracellular Ca2+ elevation by CT requires the involvement of the TCR/CD3 complex. This is supported by the observation that the toxin does not inhibit either the proliferation triggered by ionomycin and PMA or the Ca2+ influx induced by the ionophore. These data suggest that in TCR/CD3-mediated T cell activation CT acts at a point between TCR/CD3 perturbation and the generation of intracellular Ca2+. In view of the ability of CT to activate the alpha subunit of the G protein that stimulates adenyl cyclase (G alpha s), it is possible that the effect of CT on T cells is secondary to intracellular elevation of cAMP. However, measurement of cAMP levels both early after CT addition and at later time points, when proliferation is maximal, reveals lack of cyclic nucleotide accumulation. The presented data are consistent with the interpretation that the CT-mediated inhibition is caused by the modification of a G-binding protein that is either directly or indirectly associated with triggering of T cells via the TCR/CD3 molecular complex. The data also suggest that this protein is not G alpha s and it probably represents an as yet unidentified moiety or one of the several G proteins that have been recently described as regulators of phospholipase C activation.
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PMID:Cholera toxin inhibits resting human T cell activation via a cAMP-independent pathway. 255 13

Y1 adrenal tumor cells are resistant to the steroidogenic effect of A-II though they possess specific A-II binding sites. The number of these binding sites is lower in Y1 cells than in bovine adrenal cells, but the affinity is similar in the two models. Moreover, Y1 cells are shown to contain a high level of cytosolic protein kinase C whose properties appear similar to those observed in bovine adrenal cells. However, the activation of protein kinase C by a phorbol ester (PMA) or diacylglycerol (OAG) does not induce steroidogenesis in Y1 cells. On the other hand, A-II, without any effect on adenylate cyclase in basal conditions, reduces the ACTH-induced cAMP production in Y1 cells. This inhibitory effect of A-II is not blocked by phosphodiesterase inhibitor but is completely abolished after 24 hours of pretreatment of intact cells with pertussis toxin. This inhibition is probably mediated by the inhibitory guanine nucleotide regulatory protein (Gi) since the labeled 41 KD-ADP ribosylated protein disappeared after 24 hours of pretreatment of intact cells with pertussis toxin. Moreover, the accumulation of inositol phosphates under A-II stimulation was low, which suggests that the coupling of A-II receptors with phospholipase C is reduced in Y1 cells. The Y1 cell line is probably a good model to study the post membrane events in A-II action.
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PMID:Angiotensin II (A-II) steroidogenic refractoriness in Y-1 cells in the presence of A-II receptors negatively coupled to adenylate cyclase. 282 18

Evidences have been provided in our laboratory that in neutrophils different signal transduction sequences for the activation of O2(-)-forming NADPH oxidase can be triggered by the same stimulus (Biochem. Biophys. Res. Commun. 1986, 135, 556-565; 1986, 135, 785-794; 1986, 140, 1-11). The results presented here show that the transduction sequence triggered by fluoride via dissociation of G-proteins and involving messengers produced by stimulation of phosphoinositide turnover, Ca2+ changes and translocation of protein kinase C from the cytosol to the plasmamembrane, can be bypassed when a primed state of neutrophils is previously induced. In fact: i) fluoride causes a pertussis toxin insensitive and H-7 sensitive respiratory burst in human neutrophils, which is linked to the activation of hydrolysis of PIP2, rise in [Ca2+]1 and translocation of PKC. In Ca2+-depleted neutrophils these responses to fluoride do not occur and are restored by addition of CaCl2. ii) The pretreatment of Ca2+-depleted unresponsive neutrophils with non stimulatory doses of PMA restores the activation of the NADPH oxidase by fluoride but not the turnover of phosphoinositides and PKC translocation. The nature of the alternative transduction sequence, the reactions different from phospholipase C activated by G-protein for the alternative sequence and the role of these discrete pathways for NADPH oxidase activation are discussed.
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PMID:Fluoride can activate the respiratory burst independently of Ca2+, stimulation of phosphoinositide turnover and protein kinase C translocation in primed human neutrophils. 282 1

Interactions between the different signaling roles of myo-inositol 1,4,5-trisphosphate and 1,2-diacylglycerol, the products of agonist-stimulated phosphatidylinositol 4,5-bisphosphate breakdown, are assessed in isolated rat hepatocytes. Measurements of the kinetics of accumulation of individual [3H]inositol phosphates after the addition of different Ca2+-mobilizing agonists in general support the role of inositol 1,4,5-trisphosphate as the second messenger responsible for release of sequestered intracellular Ca2+. Various agonists, when added at maximal concentrations, however, produce qualitatively and quantitatively different responses, which reflect varying abilities of the agonists to activate phospholipase C. Qualitative differences are revealed by a pronounced biphasic pattern to the Ins(1,4,5)P3 accumulation after vasopressin and phenylephrine stimulation, which is indicative of negative feedback. It is suggested that this effect is mediated by a partial diacylglycerol activation of protein kinase C, which in vitro causes an activation of inositol phosphate 5-phosphatase and hence promotes removal of Ins(1,4,5)P3 to Ins(1,4)P2. An alternative mechanism proposed by Biden and Wollheim (1986) of a secondary Ca2+ activation of Ins(1,4,5)P3 3-kinase is considered less likely as a general mechanism, since highly purified kinase prepared from rat brain shows only an inhibition by Ca2+. Glucagon, 8-Br-cAMP, and EGF induce small increases of Ins(1,4,5)P3 in hepatocytes, together with slower and smaller increases of cytosolic free Ca2+ than those produced by vasopressin or phenylephrine, with Ca2+ being mobilized from the same intracellular pools with each of the agonists. The Ca2+-mobilizing effect of glucagon, therefore, may be entirely due to a cAMP-dependent process, although a direct receptor-mediated activation of phospholipase C, as suggested by Wakelam et al. (1986), remains a possibility. The EGF receptor appears to be coupled to phospholipase C, presumably via a G-protein. It is speculated that the mechanism by which cAMP increases Ins(1,4,5)P3 levels in hepatocytes could either be by phosphorylation and inhibition of inositol phosphate 5-phosphatase or by phosphorylation and facilitation of the coupling between the G-protein and phospholipase C. When protein kinase C is maximally activated by pretreatment of hepatocytes with PMA, the stimulatory effects of phenylephrine, glucagon, 8-Br-cAMP, and EGF on the accumulation of inositol phosphates and increase of cytosolic free Ca2+ are largely inhibited.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Mechanisms involved in receptor-mediated changes of intracellular Ca2+ in liver. 285 Jun 13

The interconversions of the inositol-containing lipids (PI, PI-P and PI-P2) and their products (DG, inositol phosphates and PA) in human and rabbit neutrophils stimulated with fMetLeuPhe and PMA have been examined. PMA causes only the phosphorylation of PI to PI-P whereas fMetLeuPhe causes phosphorylation of both PI and PI-P yielding PI-P2 and the hydrolysis of all three lipids. While the predominant reaction is breakdown of PI to PA catalysed by phospholipase D, approx. 2% of PI is converted to polyphosphoinositides and then broken down by the phospholipase C route yielding inositol phosphates and DG. The latter reaction occurs without detectable lag and is a function of receptor occupancy. The amount of inositol trisphosphate thus formed would be sufficient to release Ca2+ from intracellular stores.
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PMID:Breakdown and synthesis of polyphosphoinositides in fMetLeuPhe-stimulated neutrophils. 298 60

Previous studies demonstrated that oligopeptide chemoattractant receptors on PMN and macrophages exist in high and low affinity states which are interconvertible by guanosine di- and triphosphates. These observations suggest that guanine nucleotide regulatory (N) proteins play a role in phagocyte activation by chemotactic factors. The data presented here indicate that chemotactic factor receptors on monocytes utilize an N protein to activate phospholipase C and subsequent biologic responses by the cells. This conclusion is based on the findings that inactivation of an N protein of 41,000 m.w. by Bordetella pertussis toxin (PT) treatment abolishes monocyte responsiveness to chemoattractants but not to lectins, PMA, or the Ca2+ ionophore A23187. Treatment with PT inhibited IP3 production, Ca2+ mobilization, and cellular activation as assessed by chemotaxis and changes in forward light scattering in response to the chemoattractants by at least 80%. Therefore, a PT-sensitive N protein plays an important role in the activation of monocytes by chemoattractants.
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PMID:A guanine nucleotide regulatory protein controls polyphosphoinositide metabolism, Ca2+ mobilization, and cellular responses to chemoattractants in human monocytes. 301 6

Although cross-linking of murine B cell membrane Ig (mIg) has been shown to induce a rapid increase in intracellular free calcium [Ca++)i), both the source and the function of the Ca++ in lymphocyte activation is unclear. Toward elucidation of its function, we investigated the relationship between the initial (Ca++)i response and other cell physiologic changes that occur early after mIg cross-linking, apparently as a linear cascade, leading to increased membrane I-A expression. Results suggest that the (Ca++)i response results from polyphosphoinositol hydrolysis induced by mIg cross-linking. The (Ca++)i response cannot be induced by activation of protein kinase C (PKC) with phorbol diesters (e.g., PMA) or synthetic diacylglycerol (DAG), suggesting that this response precedes the PKC activation. However, inhibition of phosphatidylinositol turnover by exposure of cells to dbcAMP during anti-Ig stimulation significantly inhibits the (Ca++)i response, suggesting that phosphatidylinositol turnover may be causally related to Ca++ mobilization. The ability of exogenous phospholipase C to induce the (Ca++)i response also supports this conclusion. Of the products of mono- and poly-phosphatidylinositol hydrolysis, the inositol phosphates (InsP, InsP2, InsP3) are implicated as promoters of Ca++ mobilization, because exogenous synthetic diacylglycerol is without effect on (Ca++)i. In light of recent evidence obtained with other systems, we suggest that InsP3 is responsible for mIg cross-linking-induced Ca++ mobilization from intracellular stores in B lymphocytes. Both depolarization and increased I-A expression are induced by increasing (Ca++)i with the Ca++ ionophores A23187 and ionomycin. These events can also be induced by the activation of PKC with high doses of PMA. When suboptimal doses of both A23187 and PMA are present, these reagents synergize in the induction of depolarization. This suggests that one role for the initial rise in (Ca++)i is to act with the DAG liberated from PtdIns turnover, possibly by enhancing translocation of cytosolic PKC to the plasma membrane, and thereby promote changes in ion transport that are apparent as a decrease in the membrane potential.
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PMID:B cell activation. VII. Independent and synergistic effects of mobilized calcium and diacylglycerol on membrane potential and I-A expression. 307 12

Addition of fluoroaluminate to human platelet suspension stimulated thromboxane synthesis and inositol-1,4,5-triphosphate formation in a time and dose dependent manner. Neomycin inhibited markedly fluoroaluminate induced inositol-1,4,5-triphosphate formation without significantly affecting thromboxane synthesis. Preincubation of platelets with PGE1, also inhibited significantly inositol-1,4,5-triphosphate formation with modest reduction of thromboxane synthesis. On the contrary, pretreatment of platelets with pertussis toxin inhibited fluoroaluminate stimulated thromboxane synthesis without affecting inositol-1,4,5-triphosphate formation. Similarly, preincubation of platelets with phorbol ester, PMA, inhibited markedly thromboxane synthesis with modest reduction of inositol-1,4,5-triphosphate formation. These results indicate that inositol-1,4,5-triphosphate formation and arachidonate release and thromboxane synthesis are controlled separately and are mediated by different G-proteins which are coupled to phospholipase C and phospholipase A2 respectively in platelets.
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PMID:Stimulations of arachidonate release and inositol-1,4,5-triphosphate formation are mediated by distinct G-proteins in human platelets. 311 25

The tumor promoter phorbol ester (PMA) has been shown to stimulate protein kinase C (PKC) in MDCK cells. At the concentrations that produce stimulation of PKC, PMA (100 microM) inhibits BK-induced I1,4,5P3 (IP3) formation and calcium transients in these cells. 1-5-isoquinolinyl-2-methyl-piperazine (H7) a known inhibitor of PKC in MDCK cells reverses the effect of PMA on BK-stimulated IP3 formation and Ca2+ transients in these cells. PMA also stimulates arachidonate release which can be inhibited by preincubation with H7. A dual mechanism of regulation by PKC at the level of phospholipase C (down regulation) and phospholipase A2 (stimulation) is suggested in these cells.
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PMID:Protein kinase C modulates phospholipase C and increases arachidonic acid release in bradykinin stimulated MDCK cells. 313 68

Two experiments were conducted to determine if the ability of oxytocin to stimulate release of prostaglandin (PG)F2 alpha from ovine uterine tissue involved activation of phospholipase C (PLC). In the first experiment, 9 ewes were injected with progesterone for 11 d (12 mg/d, im). On days 11 and 12, ewes received an injection of estradiol (100 micrograms, im). Caruncular endometrial tissue was collected on d 13 and incubated in the presence or absence of oxytocin (10(-6) M). Concentrations of PGF2 alpha and its metabolite, 13,14-dihydro-15-keto-PGF2 alpha (PGFM), in culture media were determined by radioimmunoassay. PLC activity was determined by measuring the intracellular accumulation of 3H-inositol phosphates after preincubation with 3H-inositol. Concentrations of PGF2 alpha and total PGF (PGF2 alpha + PGFM) in culture media were greater for explants treated with oxytocin than for controls (p. less than .02, p less than .06, respectively). A similar effect of oxytocin on intracellular concentrations of 3H-inositol phosphates was observed (p less than .01). A second experiment was conducted to determine if agonists of second messengers, produced by activation of PLC, could stimulate release of PGF2 alpha from ovine endometrial tissue. Seven ewes were treated with progesterone and estradiol as in experiment 1. Explants of caruncular tissue from each ewe were incubated with 1) control medium, 2) A23187 (10(-5) M), 3) oxytocin (10(-6) M), 4) phorbol 12-myristate 13-acetate (PMA, 10(-7) M), 5) PMA + A23187 and 6) PMA + oxytocin. Significant stimulatory effects of oxytocin, PMA and A23187 on concentrations of PGF2 alpha and total PGF in culture media were observed (p. less than .05, p less than .1, p less than .1, respectively). In conclusion, oxytocin stimulated release of PGF2 alpha and activity of PLC in explants of ovine endometrial tissue in vitro. Second messengers associated with activation of PLC enhanced release of PGF2 alpha from ovine endometrial tissue.
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PMID:Role of phospholipase C in mediating oxytocin-induced release of prostaglandin F2 alpha from ovine endometrial tissue. 324 71

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