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 metabolism of phosphatidylinositol (PtdIns) was studied in a mink lung epithelial cell line and its subclones transformed by feline sarcoma viruses containing either the v-fms or v-fes oncogenes. The transformed cell lines had a higher rate of PtdIns turnover but did not have elevated levels of phosphorylated PtdIns species or PtdIns kinase activity. Significantly higher specific activities of a guanine nucleotide-activated PtdIns-4,5-diphosphate phospholipase C were detected in both transformed cell lines (F3CL7(v-fes), 55 pmol/min/mg of protein and G2M(v-fms), 18 pmol/min/mg of protein) as compared to the nontransformed parental cell line (CCL64, 2 pmol/min/mg of protein). The guanine nucleotide-stimulated phospholipase C activity was specific for PtdIns-4,5-diphosphate, and the water-soluble hydrolysis product was inositol 1,4,5-triphosphate. Both GTP and nonhydrolyzable GTP analogs activated the phospholipase C, whereas ATP was weakly effective and GDP was inactive. The phospholipase C activity was maximally active in the presence of 9 mM sodium cholate, had a sharp pH optimum of pH 6.5, and was not activated by calcium although hydrolysis was inhibited by high concentrations of EDTA. These data point to enhanced production of diacylglycerol and inositol 1,4,5-triphosphate second messengers in transformed cells due to the activation of guanine nucleotide-dependent PtdIns-4,5-diphosphate-specific phospholipase C and suggest that the generation of aberrant hormonally independent signals is associated with cell transformation by oncogenes encoding tyrosine-specific protein kinases.
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PMID:A guanine nucleotide-dependent phosphatidylinositol 4,5-diphosphate phospholipase C in cells transformed by the v-fms and v-fes oncogenes. 300 85

The effect of guanine nucleotides on platelet and calf brain cytosolic phospholipase C was examined in the absence of membranes or detergents in an assay using labeled lipid vesicles. Guanine nucleotides stimulate hydrolysis of [3H]phosphatidylinositol 4,5-bisphosphate [( 3H]PtdIns-4,5-P2) catalyzed both by enzyme from human platelets and by partially purified enzyme from calf brain. Guanosine 5'-O-(3-thiotriphosphate) (GTP gamma S) was the most potent guanine nucleotide with a half-maximal stimulation at 1-10 microM, followed by guanosine 5'-(beta, gamma-imido)triphosphate greater than GTP greater than GDP = guanosine 5'-O-(2-thiodiphosphate). Guanosine 5'-O-(2-thiodiphosphate) was able to reverse the GTP gamma S-mediated stimulation. NaF also stimulated phospholipase C activity, further implying a role for a guanine nucleotide-binding protein. In the presence of GTP gamma S, the enzyme cleaved PtdIns-4,5-P2 at higher pH values, and the need for calcium ions was reduced 100-fold. The stimulation of PtdIns-4,5-P2 hydrolysis by GTP gamma S ranged from 2 to 25-fold under various conditions, whereas hydrolysis of [3H]phosphatidylinositol was only slightly affected by guanine nucleotides. We propose that a soluble guanine nucleotide-dependent protein activates phospholipase C to hydrolyze its initial substrate in the sequence of phosphoinositide-derived messenger generation.
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PMID:Guanine nucleotides stimulate soluble phosphoinositide-specific phospholipase C in the absence of membranes. 302 54

In platelets activated by thrombin, the hydrolysis of phosphatidylinositol 4,5-bisphosphate by phospholipase C produces inositol 1,4,5-triphosphate (IP3) and diacylglycerol, metabolites which are known to cause Ca2+ release from the platelet dense tubular system and granule secretion. Previous studies suggest that phospholipase C activation is coupled to platelet thrombin receptors by a guanine nucleotide-binding protein or G protein. The present studies examine the contribution of this protein to thrombin-induced platelet activation and compare its properties with those of Gi, the G protein which mediates inhibition of adenylate cyclase by thrombin. In platelets permeabilized with saponin, nonhydrolyzable GTP analogs reproduced the effects of thrombin by causing diacylglycerol formation, Ca2+ release from the dense tubular system and serotonin secretion. In intact platelets, fluoride, which by-passes the thrombin receptor and directly activates G proteins, caused phosphoinositide hydrolysis and secretion. Fluoride also caused an increase in the platelet cytosolic free Ca2+ concentration that appeared to be due to a combination of Ca2+ release from the dense tubular system and increased Ca2+ influx across the platelet plasma membrane. Guanosine 5'-O-(2-thiodiphosphate) (GDP beta S), which inhibits G protein function, inhibited the ability of thrombin to cause IP3 and diacylglycerol formation, granule secretion, and Ca2+ release from the dense tubular system in saponin-treated platelets. Increasing the thrombin concentration overcame the effects of GDP beta S on secretion without restoring diacylglycerol formation. The effects of GDP beta S on platelet responses to thrombin which had been subjected to partial proteolysis (gamma-thrombin) were similar to those obtained with native alpha-thrombin despite the fact that gamma-thrombin is a less potent inhibitor of adenylate cyclase than is alpha-thrombin. Thrombin-induced diacylglycerol formation and 45Ca release were also inhibited when the saponin-treated platelets were preincubated with pertussis toxin, an event that was associated with the ADP-ribosylation of a protein with Mr = 41.7 kDa. At each concentration tested, the inhibition of thrombin-induced diacylglycerol formation by pertussis toxin paralleled the inhibition of thrombin's ability to suppress PGI2-stimulated cAMP formation.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Regulation of the phosphoinositide hydrolysis pathway in thrombin-stimulated platelets by a pertussis toxin-sensitive guanine nucleotide-binding protein. Evaluation of its contribution to platelet activation and comparisons with the adenylate cyclase inhibitory protein, Gi. 302 67

Binding of chemoattractants to their receptors on phagocytes activates a guanine nucleotide regulatory (N) protein through the substitution of GTP for GDP on N. The activated N protein in turn stimulates a membrane-associated phospholipase C by lowering the Ca2+ concentration required to activate this enzyme from supraphysiologic levels to ambient intracellular concentrations. The phospholipase C hydrolyzes phosphatidylinositol 4,5-bisphosphate into the Ca2+ mobilizer inositol 1,4,5-trisphosphate and the protein kinase C activator 1,2-diacylglycerol. In addition to promoting cellular activation, the products of this hydrolysis initiate processes which feed back to inhibit poly-phosphoinositide breakdown. The regulatory model proposed herein may be relevant to other receptors which stimulate polyphosphoinositide metabolism.
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PMID:Model for leukocyte regulation by chemoattractant receptors: roles of a guanine nucleotide regulatory protein and polyphosphoinositide metabolism. 302 15

Guanine nucleotide-binding regulatory proteins (G proteins) transduce a remarkably diverse group of extracellular signals to a relatively limited number of intracellular target enzymes. In the neutrophil, transduction of the signal following fMet-Leu-Phe receptor-ligand interaction is mediated by a pertussis toxin substrate (Gi) that activates inositol-specific phospholipase C. We have utilized a plasma membrane-containing fraction from unstimulated human neutrophils as the target enzyme to explore the role of G proteins in arachidonate and cytosolic cofactor-dependent activation of the NADPH-dependent O-2-generating oxidase. When certain guanine nucleotides or their nonhydrolyzable analogues were present during arachidonate and cytosolic cofactor-dependent activation, they exerted substantial dose-dependent effects. The GTP analogue, GTP gamma S, caused a 2-fold increase in NADPH oxidase activation (half-maximal stimulation, 1.1 microM). Either GDP or its nonhydrolyzable analogue, GDP beta S, inhibited up to 80% of the basal NADPH oxidase activation (Ki GDP = 0.12 mM, GDP beta S = 0.23 mM). GTP caused only slight and variable stimulation, whereas F-, an agent known to promote the active conformation of G proteins, caused a 1.6-fold stimulation of NADPH oxidase activation. NADPH oxidase activation in the cell-free system was absolutely and specifically dependent on Mg2+. Although O2- production in response to fMet-Leu-Phe was inhibited greater than 90% in neutrophils pretreated with pertussis toxin, cytosolic cofactor and target oxidase membranes from neutrophils treated with pertussis toxin showed no change in basal- or GTP gamma S-stimulated NADPH oxidase activation. Cholera toxin treatment of neutrophils also had no effect on the cell-free activation system. Our results suggest a role for a G protein that is distinct from Gs or Gi in the arachidonate and cytosolic cofactor-dependent NADPH oxidase cell-free activation system.
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PMID:Regulation of neutrophil NADPH oxidase activation in a cell-free system by guanine nucleotides and fluoride. Evidence for participation of a pertussis and cholera toxin-insensitive G protein. 302 97

In a crude membrane preparation of rat 7315c cells, GTP was found to enhance thyrotropin-releasing hormone- (TRH) stimulated inositol triphosphate (IP3) formation with a potency of 0.97 +/- 0.1 microM. TRH stimulation of IP3 formation was inhibited by high GDP concentrations. Neither nucleotide had any effect in the absence of TRH. 5'-Guanosine gamma-thiotriphosphate (GTP gamma S) stimulated IP3 formation in the absence of TRH; the apparent affinity of GTP gamma S was 0.16 +/- 0.05 microM. GTP blocked GTP gamma S stimulation of IP3 formation in a concentration-dependent manner. The apparent affinity of GTP for the site of action shared by GTP gamma S was calculated to be 0.98 +/- 0.3 microM. TRH was able to reverse inhibition of GTP gamma S-stimulated IP3 formation by GTP but could not reverse inhibition by GDP. A lag in the rate of IP3 formation in response to GTP gamma S was abolished by addition of TRH. These data support the proposal that activation of the TRH receptor enhances turnover of guanine nucleotides at the binding protein coupling the receptor to phospholipase C. In addition, GTP gamma S diminished high affinity [3H]Me-TRH binding. The potency of GTP gamma S at decreasing [3H]Me-TRH binding was 0.092 +/- 0.03 microM. GTP gamma S (0.1 microM) decreased the affinity of the TRH receptor for [3H]Me-TRH from 2 to 100 nM. Maximally effective concentrations of GTP gamma S, Gpp(NH)p, GTP, and GDP decreased specific [3H]Me-TRH binding by 80%. Pretreatment of cells with pertussis toxin (30 ng/ml for 24 h) failed to affect TRH receptor affinity or the potency or efficacy of GTP gamma S in diminishing [3H]Me-TRH binding, supporting the identification of Gp (a GTP-binding protein associated with phospholipase C and Ca2+-mobilizing receptors) as distinct from Gi (an inhibitory GTP-binding protein). In contrast to its lack of effect on TRH receptor binding, 3-h pertussis toxin treatment decreased agonist affinity of the mu-opiate receptor and abolished the ability of GTP gamma S to shift the affinity of the mu-opiate receptor for its agonist. The affinities calculated for GTP, GDP, GTP gamma S, and Gpp (NH)p for the G-protein regulating receptor affinity and IP3 formation are nearly identical for each guanine nucleotide tested, suggesting the same G-protein regulates both activities.
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PMID:Regulation of thyrotropin-releasing hormone receptor binding and phospholipase C activation by a single GTP-binding protein. 303 63

The mode of phospholipase C activation initiated with platelet-derived growth factor (PDGF) has been studied in comparison with that initiated with vasopressin and bombesin in a rat fibroblast line, WFB. Stimulation of WFB cells by PDGF, vasopressin, and bombesin elicites rapid hydrolysis of polyphosphoinositides and an increase in cytoplasmic free Ca2+ concentration ([Ca2+]i). On stimulation by PDGF, there was a lag period of about 10 s before an increase in [Ca2+]i. No measurable lag period was observed in the [Ca2+]i response induced by vasopressin or bombesin. Pretreatment of WFB cells with phorbol 12-myristate 13-acetate profoundly inhibited inositol phosphate formation evoked by vasopressin and bombesin, but enhanced to some extent inositol phosphate formation stimulated by PDGF. In membranes prepared from WFB cells, GTP markedly augmented inositol polyphosphate formation induced by vasopressin and bombesin. It was not successful in showing the PDGF-stimulated formation of inositol phosphates in the membrane preparation. The effects of GTP, guanosine 5'-O-(2-thiodiphosphate) (GDP beta S), and guanosine 5'-O-(3-thiotriphosphate) (GTP gamma S) on polyphosphoinositide hydrolysis stimulated by growth factors were studied in WFB cells made permeable to nucleotides by treatment with either saponin or Pseudomonas aeruginosa cytotoxin. PDGF, vasopressin, and bombesin elicited inositol phosphate production in the permeabilized WFB cells in the absence of added GTP. GDP beta S, a competitive inhibitor of GTP-binding proteins (G-proteins), markedly reduced the bombesin- and vasopressin-stimulated production of inositol phosphates. However, the PDGF-stimulated production of inositol phosphates was not affected by the addition of GDP beta S. GTP gamma S, an agonist of G-proteins, largely enhanced the vasopressin- and bombesin-stimulated hydrolysis of inositol lipids when added at 10-100 microM. In the presence of GTP gamma S, the PDGF-stimulated hydrolysis of inositol lipids was not enhanced, but was reduced: 100 microM GTP gamma S reduced the stimulated hydrolysis to about a half of the control level. Only GTP gamma S, and no other nucleoside triphosphates, was found to have these effects. Activation of G-proteins in WFB cells by fluoroaluminate resulted in the inhibition of inositol phosphate production elicited with not only PDGF, but also with vasopressin and bombesin. These results indicate that a G-protein couples vasopressin and bombesin receptors to the activation of phospholipase C. Moreover, these results suggest that coupling of the PDGF receptor to phospholipase C is not mediated through a G-protein.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Pathway of phospholipase C activation initiated with platelet-derived growth factor is different from that initiated with vasopressin and bombesin. 304 15

The effects of GTP gamma S, a stable GTP analogue that can activate guanine nucleotide-binding proteins, on phospholipase C activation/calcium mobilization were studied in intact cultured bovine aortic endothelial cells (BAEC). Phosphoinositide metabolism and cytosolic free Ca2+ concentration [( Ca2+]i; fura-2 fluorescence) were studied after the cells were transiently permeabilized, loaded with different guanine nucleotides, and then allowed to reseal and recover. Intracellular GTP gamma S stimulated a dose-dependent [median effective concentration (EC50) 2.5 microM] decrease in basal [3H]phosphoinositide content. Phosphatidylinositol 4,5-bisphosphate, phosphatidylinositol 4-bisphosphate, and phosphatidylinositol levels decreased to 57 +/- 9, 63 +/- 8, and 74 +/- 8% control levels, respectively, in BAEC loaded with approximately 85 microM GTP gamma S. Basal inositol trisphosphate (IP3) and [Ca2+]i were increased in GTP gamma S-loaded BAEC when compared with sham-loaded BAEC. In control BAEC, the purinergic receptor agonist ATP (100 microM) induced rapid increases in [Ca2+]i and IP3. However, BAEC that had been intracellularly loaded with GTP gamma S [median inhibitory constant (IC50) 1 microM] or 5'-guanylyl-imidodiphosphate exhibited decreased calcium mobilization in response to ATP. Ionomycin (calcium ionophore)-releasable pools of calcium were similar in sham- and GTP gamma S-loaded cells, suggesting that total intracellular calcium had not been depleted by the permeabilization protocol. The diminished calcium mobilization in response to ATP was associated with decreases in ATP-stimulated PIP2 hydrolysis and IP3 formation. In addition, GTP gamma S loading did not increase basal levels of cyclic AMP. Intracellular GDP beta S, GDP, or GTP did not inhibit ATP-stimulated increases in [Ca2+]i or IP3.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:GTP gamma S loading of endothelial cells stimulates phospholipase C and uncouples ATP receptors. 305 27

The non-hydrolysable guanine analogues guanosine 5'-[gamma-thio]triphosphate (GTP[S]) and guanosine 5'-[beta-thio]diphosphate (GDP[S]) have been used extensively (as promoters and inhibitors respectively) to probe the importance of G-protein function. We report on the use of GDP[S] in permeabilized and intact platelets. The stimulatory analogue GTP[S] (9-60 microM) induces shape change, aggregation and 5-hydroxy[14C]-tryptamine secretion when added to saponin (12-14 micrograms/ml)-permeabilized platelets, but not to intact platelets. In line with the activation responses in permeabilized cells, GTP[S] induces an increase in [32P]-phosphatidic acid, which is indicative of phospholipase C activity. GDP[S] (greater than 400 microM) totally inhibits GTP[S] (90 microM)-stimulated phospholipase C activity and functional responses in saponized platelets. GDP[S] (1 mM) was also effective at inhibiting low-dose thrombin (0.1 unit/ml)-induced aggregation and secretion responses (without affecting shape change) in permeabilized platelets with inhibition of [32P]-phosphatidic acid formation. At higher doses of thrombin (greater than 0.5 unit/ml), both functional responses and [32P]phosphatidic acid formation are restored in the presence of GDP[S]. Studies on intact cells revealed that GDP[S] was as effective at inhibiting low-dose thrombin-induced functional responses as in the permeabilized cells, but there was no inhibition of [32P]phosphatidic acid formation, indicating that the agent is nonmembrane-penetrating. This reflected the fact that GDP[S] has additional inhibitory sites on the surface of platelets. In Fura-2-loaded cells GDP[S] inhibited thrombin-induced Ca2+ mobilization, as measured by Fura-2 fluorescence, in a dose-dependent manner. In studies with and without Ca2+ present on the outside, the effect of GDP[S] was to block Ca2+ influx. These studies indicate that, although GDP[S] is a valuable tool in studying G-protein function in permeabilized cells, it also has inhibitory activities on the surface of platelets, and one of these has been identified as an effect on the Ca2+-influx channel after agonist stimulation.
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PMID:Action of guanosine 5'-[beta-thio]diphosphate on thrombin-induced activation and Ca2+ mobilization in saponin-permeabilized and intact human platelets. 306 57

The hydrolysis of [3H]phosphatidylinositol 4,5-bisphosphate (PIP2) by cytosolic phospholipase C from human platelets was determined. Cytosolic fractions were prepared from platelets that had or had not been preactivated with thrombin. Thrombin pretreatment did not affect cytosolic phospholipase C activity. In both cytosolic fractions, phospholipase C was activated by GTP and GTP gamma S. This action is observed in the presence of 2 mM EGTA. GDP was as effective as GTP in stimulating cytosolic phospholipase C in the presence of Ca2+ or EGTA. Partially purified phospholipase C obtained from platelet cytosol is activated by GTP, but not by GTP gamma S, in the presence of 2 mM EGTA. However, in the presence of 6 microM Ca2+, both GTP and GTP gamma S stimulated the partially purified phospholipase C. Our present information indicates that GTP and GDP have a direct effect on the cytosolic phospholipase C.
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PMID:GTP and GDP will stimulate platelet cytosolic phospholipase C independently of Ca2+. 309 25

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