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:3.1.4.3 (phospholipase C)
18,461 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

In WRK1 cells vasopressin stimulates Ins(1,4,5)P3 accumulation and mobilizes intracellular calcium. These two phenomena are transient and exhibit similar time-courses. Experiments performed on intact cells or membrane preparations demonstrate that calcium may also stimulate an accumulation of inositol phosphates. This suggests a possible positive feedback regulation of the primary accumulation of Ins(1,4,5)P3 induced by vasopressin. In order to test such a possibility we studied the vasopressin-induced Ins(1,4,5)P3 accumulation, where intracellular calcium mobilization is artificially suppressed by incubating the cells with EGTA in the presence of ionomycin. Under these conditions the accumulation of Ins(1,4,5)P3 induced by 1 microM vasopressin is inhibited by around 50% when measured 5 s after stimulation. This inhibition is not due to an alteration of the VIa vasopressin receptor binding properties, a reduction of the amount of substrate available for the phospholipase C, a stimulation of the Ins(1,4,5)P3 5-phosphatase or an activation of the Ins(1,4,5,)P3 kinase. It is more likely the consequence of the suppression of calcium wave generated by Ins(1,4,5)P3 which may in its turn stimulate a phospholipase C. Different arguments favour this hypothesis: (1) calcium at an intracellular physiological concentration (0.1-1 microM) is able to stimulate a phospholipase C; (2) artificially increasing the [Ca2+]i inside the WRK1 cell induces an accumulation of Ins(1,4,5)P3; and (3) the time-course of the inhibition of Ins(1,4,5)P3 accumulation induced by an EGTA/ionomycin treatment correlates well with that of the calcium mobilization. Altogether these results suggest that Ins(1,4,5)P3 accumulation in WRK1 cells may result from two distinct mechanisms: a direct vasopressin receptor-mediated PLC activation which is independent of calcium and a calcium-mediated PLC activation related to the intracellular calcium mobilization.
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PMID:Positive feedback regulation of phospholipase C by vasopressin-induced calcium mobilization in WRK1 cells. 217 21

Adherence, chemotaxis, phagocytosis, and responses to cytokines are mediated by distinct classes of cell surface receptors in human neutrophils. Intracellular signaling by these different receptors is a subject of active investigation. Observation of single neutrophils adherent to surfaces reveals the presence of spontaneous oscillations of cytosolic-free calcium, [Ca2+]i, generated by mechanisms that are presently unknown. Chemoattractant receptor activation via a specific G-regulatory protein activates a plasma membrane phospholipase C and generates diacylglycerol and inositol(1,4,5)triphosphate. DG activates C kinase(s). Ins(1,4,5)P3 releases Ca2+ from a specific intracellular organelle, the calciosome. Calciosomes resemble sarcoplasmic reticulum: they contain a Ca2(+)-ATPase and a high capacity/low affinity calcium-binding, calsequestrin-like protein. Chemoattractant receptor stimulation of calcium influx across the plasma membrane in phagocytes correlates strongly with the conversion of Ins(1,3,4,5)P3 to Ins(1,3,4,5)P4 by a Ca2(+)-calmodulin-sensitive kinase. The transduction system of phagocytosis receptors also generates DG and Ins(1,4,5)P3 and elicits [Ca2+]i elevations. The Ca2+ signal is an important regulator of secretion (granule exocytosis, superoxide production), whereas C kinase(s)/and other unknown mediators appear to be more important for the control of movement. Several mechanisms that could account for the specificity of cell signaling by different receptors are discussed.
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PMID:Receptors and intracellular signaling in human neutrophils. 217 32

The generation of diradylglycerol (DRG) and phosphatidic acid (PdtOH) was investigated in neutrophils primed with granulocyte-macrophage colony-stimulating factor (GM-CSF). Mass accumulation of DRG and PdtOH was measured using reversed-phase high performance liquid chromatography and thin layer chromatography, respectively. GM-CSF had no direct effect on the levels of PdtOH and DRG, but it increased PdtOH generation and the late phase of DRG accumulation in human neutrophils stimulated with FMLP. The elevation of the mass of PdtOH peaked approximately 100 s and clearly preceded that of DRG, which peaked at 150 s. The diacylglycerol kinase inhibitor R59022 enhanced the sustained increase in DRG but did not produce a parallel inhibition in PdtOH production. GM-CSF was without effect on the level of inositol 1,4,5-triphosphate [Ins(1,4,5)P3] and did not affect the liberation of Ins(1,4,5)P3 induced by FMLP. These findings exclude the involvement of the PtdIns(4,5)P2-specific phospholipase C/diacylglycerol pathway in the sustained phase of DRG accumulation. The early (30-s) appearance of PdtOH clearly suggests that GM-CSF enhanced FMLP receptor-linked phospholipase D (PLD) generation of PdtOH. PLD was assessed more directly by formation of labeled phosphatidylethanol (PEt) through PLD capacity of catalyzing a trans-phosphatidylation in presence of ethanol. The formation of PEt associated with a concomitant decrease in PdtOH directly demonstrated that the mechanism by which GM-CSF enhances PdtOH production is activation of a PLD active on phosphatidylcholine. This study provides evidence that the mechanism of action of GM-CSF involves upregulation of PLD activity leading to enhanced generation of PdtOH and DRG in FMLP-stimulated neutrophils. These findings may provide the basis for several of the priming effects of GM-CSF.
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PMID:Involvement of a phospholipase D in the mechanism of action of granulocyte-macrophage colony-stimulating factor (GM-CSF): priming of human neutrophils in vitro with GM-CSF is associated with accumulation of phosphatidic acid and diradylglycerol. 220 47

In voltage-clamped Xenopus oocytes injected with embryonic guinea pig mRNA, effective concentrations of extracellular ATP elicited an inward fluctuating current. This current, carried by Cl-ions, was mainly dependent upon liberation of Ca2+ ions from stores as demonstrated by experiments using intracellular EGTA loading and TMB-8 superfusion. Neomycin inhibited these fluctuating currents indicating that the transplanted purinoceptor is linked to phospholipase C activity and triggers Ins(1,4,5)P3 formation. Ins(1,4,5)P3 production evoked by external ATP was clearly demonstrated by directly measuring the water-soluble Ins(1,4,5)P3 level in injected oocytes. Finally, it is suggested that the ATP effect was mediated by a Ca2+ release from Ins(1,4,5)P3 sensitive pools since heparin blocked the ATP responsiveness. The acquired purinoceptor may be made apparent to a P2 subtype since ATP and ADP were equipotent in eliciting Cl- current while AMP and Adenosine were ineffective in injected oocytes.
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PMID:Ins(1,4,5)P3 formation and fluctuating chloride current response induced by external ATP in Xenopus oocytes injected with embryonic guinea pig brain mRNA. 226 56

Skeletal muscle triads are possessing the whole set of enzymes of the phosphatidylinositol (PI)-linked signal generating pathway, PI-kinase, PI(4)P-kinase, and PI(4,5)P2-phospholipase C (PLC). The activities of these enzymes are comparable to those found in other cell types for which a functional role of the PI-pathway in intracellular signal transduction has been established. For skeletal muscle an unequivocal function and an initiating signal for Ins(1,4,5)P3-liberation is still unknown. However, the observed Ca-dependency of PLC activity suggests that here Ins(1,4,5)P3 production is a consequence rather than a cause of increasing cytosolic Ca2+. Recently, the glycolytic enzyme aldolase, whose activity can be modulated by inositol polyphosphates, has been localized in the triadic structure. The enzyme which has a high affinity to Ins(1,4)P2, Ins(1,4,5)P3 and Ins(1,3,4,5)P4, seems to be compartmentalized to the junctional foot structure from which it is released upon binding of these molecules. This phenomenon could reflect a capability for regulation of the glycolytic flux even for aldolase, especially if a non steady-state situation in the junctional gap is considered. Meanwhile we have accumulated evidence for the operation of a partial glycolytic sequence in the junctional region established by the enzymes aldolase, glyceraldehyde-3-P (GAP) dehydrogenase and phosphoglycerate kinase. This system is able to produce ATP upon oxidation of GAP and could be, because of the inositol polyphosphate-sensing abilities of aldolase, a target for the membrane associated PI-pathway. The ATP production is however transient which indicates the coupling to an ATP hydrolyzing reaction.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Relation of phosphatidylinositol metabolism to glycolytic pathway in skeletal muscle membranes. 228 42

In isolated cells from the avian supra-orbital nasal gland, used as a model for exocrine ion secretion, addition of NaF (2-15 mM) produced a slow Al3(+)-enhanced increase in intracellular Ca2+ concn. ([Ca2+]i), resulting in a more than 2-fold sustained elevation in [Ca2+]i. Simultaneously, cellular Ins(1,4,5)P3 contents became markedly elevated, suggesting an AlF4- activation of a phospholipase C-specific G-protein. Subsequent addition of the muscarinic agonist carbachol failed to produce any further sustained increase in [Ca2+]i, indicating that the AlF4(-)-induced increase in [Ca2+]i involves a Ca2(+)-entry pathway identical with that activated by carbachol. In low-Ca2+ media (extracellular [Ca2+] = 0.04 mM) no such increase in [Ca2+]i, either sustained or transient, is seen, although cellular Ins(1,4,5)P3 levels were markedly elevated. Despite the failure to observe any change in [Ca2+]i in the low-Ca2+ medium, estimation of the size of the agonist-sensitive Ca2+ stores (determined as the magnitude of the transient change in [Ca2+]i induced by carbachol) revealed that these are progressively emptied by the action of AlF4-. However, the onset of this emptying showed an initial lag period of at least 2 min (with 5 mM-NaF plus 10 microM-AlCl3). In marked contrast, determinations of the magnitude of the Ca2(+)-entry pathway under identical conditions showed that this was significantly activated after as little as 1 min of AlF4- treatment. This suggests that, under these conditions, activation of Ca2+ entry in these cells preceded the release of Ca2+ from agonist-sensitive stores, contradicting current models in which the receptor-enhanced entry of extracellular Ca2+ is entirely dependent on, and subsequent to, the prior release of Ca2+ from the intracellular stores.
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PMID:Fluoroaluminate activation of different components of the calcium signal in an exocrine cell. 238 84

The influence of extracellular Ca2+ on the mediation of carbachol stimulation in isolated rabbit gastric parietal cells was studied. Removing Ca2+ from extracellular medium caused a 42% decrease of the aminopyrine accumulation due to carbachol with the same EC50 value (approximately 5 microM). A short time depletion in extracellular calcium suppressed the carbachol-dependent Ca2+ influx without affecting Ca2+ release from internal stores (fura-2 measurements). Similarly, the production of inositol phosphates under cholinergic stimulation was reduced by 29%. A rapid increase in Ins(1,4,5)P3 was obtained 5 s after carbachol stimulation, and this increase was not changed in Ca2(+)-depleted medium. In contrast, a 20 min incubation with carbachol caused a 50% reduction in both basal and carbachol-stimulated inositol phosphate accumulations. In conclusion, phospholipase C activation, intracellular Ca2+ release and aminopyrine accumulation were sequentially observed following carbachol stimulation of the isolated gastric parietal cell and extracellular calcium contributed to sustain this acid secretory response.
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PMID:Calcium involvement in the muscarinic response of the gastric parietal cell. 240 Jun 33

As previously described, WRK1 plasma membrane possesses a vasopressin-sensitive phospholipase C [G. Guillon et al., 1986, FEBS Lett. 196, 155-159]. In the present study, we examined the sensitivity of this enzyme to guanylnucleotides. GTP gamma S induces a time- and dose-dependent stimulation of Ins(1,4,5)P3 and Ins(1,4)P2 accumulation. No accumulation of InsP1, Ins(1,3,4)P3 or Ins(1,3,4,5)P4 occurred under similar conditions. Gpp(NH)p produced the same effect but was less potent. GTP and a nonhydrolyzable analogue of ATP, App(NH)p, were without effect. Calcium also stimulated the phospholipase C activity in a time- and dose-dependent manner. In the absence of calcium, the activity of GTP gamma S was considerably reduced. Physiological calcium concentrations (between 10(-8) and 10(-7) M), allowed maximal GTP gamma S stimulation of phospholipase C activity. In this system, the presence of vasopressin alone did not generate inositol phosphate accumulation. However, this hormone: (i) reduced the lag-time observed during GTP gamma S stimulation, (ii) increased the sensitivity of phospholipase C to GTP and to GTP gamma S, and (iii) did not modify the stimulation of phospholipase C induced by maximal doses of GTP gamma S. Unlike sodium fluoride, GTP gamma S elicited an irreversible activation of phospholipase C. Calcium, GTP gamma S and sodium fluoride stimulated the phospholipase C activity via mechanisms sharing a common step, since their maximal effects were not additive. Cholera toxin treatment, known to produce complete ADP-ribosylation of 'alpha s' subunits, partially reduced the basal and the maximal GTP gamma S-mediated stimulation of phospholipase C activity as well as that caused by vasopressin. This inhibition was not mimicked by treatment with either forskolin or pertussis toxin.
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PMID:Properties of membranous phospholipase C from WRK1 cell: sensitivity to guanylnucleotides and bacterial toxins. 253 43

Activation of a variety of cell surface receptors results in the phospholipase C-catalyzed hydrolysis of the minor plasma membrane phospholipid phosphatidylinositol 4,5-bisphosphate, with concomitant formation of inositol 1,4,5-trisphosphate and diacylglycerol. There is strong evidence that inositol 1,4,5-trisphosphate stimulates Ca2+ release from intracellular stores. The Ca2+-releasing actions of inositol 1,4,5-trisphosphate are terminated by its metabolism through two distinct pathways. Inositol 1,4,5-trisphosphate is dephosphorylated by a 5-phosphatase to inositol 1,4-bisphosphate; alternatively, inositol 1,4,5-trisphosphate can also be phosphorylated to inositol 1,3,4,5-tetrakisphosphate by a 3-kinase. Although the mechanism of Ca2+ mobilization is understood, the precise mechanisms involved in Ca2+ entry are not known; the proposal that inositol 1,4,5-trisphosphate secondarily elicits Ca2+ entry by emptying an intracellular Ca2+ pool is considered.
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PMID:How do inositol phosphates regulate calcium signaling? 254 10

The kinetics of [3H]inositol phosphate metabolism in agonist-activated rat parotid acinar cells were characterized in order to determine the sources of [3H]inositol monophosphates and [3H]inositol bisphosphates. The turnover rates of D-myo-inositol 1,4,5-trisphosphate and its metabolites, D-myo-inositol 1,4-bisphosphate and D-myo-inositol 1,3,4-trisphosphate, were examined following the addition of the muscarinic receptor antagonist, atropine, to cholinergically stimulated parotid cells. D-myo-Inositol 1,4,5-trisphosphate declined with a t1/2 of 7.6 +/- 0.7 s, D-myo-inositol 1,3,4-trisphosphate declined with a t1/2 of 8.6 +/- 1.2 min, and D-myo-inositol 1,4-bisphosphate was metabolized with a t1/2 of 6.0 +/- 0.7 min. The sum of the rates of flux through D-myo-inositol 1,4-bisphosphate and D-myo-inositol 1,3,4-trisphosphate (2.54% phosphatidylinositol/min) did not exceed the calculated rate of breakdown of D-myo-inositol 1,4,5-trisphosphate (2.76% phosphatidylinositol/min). Thus, there is no evidence for the direct hydrolysis of phosphatidylinositol 4-phosphate in intact cells since D-myo-inositol 1,4-bisphosphate formation can be attributed to the dephosphorylation of D-myo-inositol 1,4,5-trisphosphate. The source of the [3H]inositol monophosphates also was examined in cholinergically stimulated parotid cells. When parotid cells were stimulated with methacholine, D-myo-inositol 1,4,5-trisphosphate, D-myo-inositol 1,3,4,5-tetrakisphosphate, D-myo-inositol 1,4-bisphosphate, and D-myo-inositol 4-monophosphate levels increased within 2 s, whereas D-myo-inositol 1-monophosphate accumulation was delayed by several seconds. Rates of [3H]inositol monophosphate accumulation also were examined by the addition of LiCl to cells stimulated to steady state levels of [3H]inositol phosphates. The sum of the rates of accumulation of D-myo-inositol 1-monophosphate and D-myo-inositol 4-monophosphate did not exceed the rate of breakdown of D-myo-inositol 1,4,5-trisphosphate or the sum of the rates of flux through D-myo-inositol 1,4-bisphosphate and D-myo-inositol 1,3,4-trisphosphate. These kinetic analyses suggest that agonist-stimulated [3H]inositol bis- and monophosphate formation in intact rat parotid acinar cells can be accounted for by the metabolism of D-myo-[3H]inositol 1,4,5-trisphosphate rather than by phospholipase C-catalyzed hydrolysis of phosphatidylinositol or phosphatidylinositol 4-phosphate.
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PMID:Source of 3H-labeled inositol bis- and monophosphates in agonist-activated rat parotid acinar cells. 254 8


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