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)

Hydrolysis of phosphatidylinositol 4,5-bisphosphate (PIP2) by phosphatidylinositol-specific phospholipase C (PI-PLC) generates two second messengers, inositol 1,4,5-trisphosphate and 1,2-diacylglycerol. The polymerase chain reaction was used to isolate a Saccharomyces cerevisiae gene (PLC1) that encodes a protein of 869 amino acids (designated Plc1p) that bears greatest resemblance to the delta isoforms of mammalian PI-PLC in terms of overall sequence similarity and domain arrangement. Plc1p contains the conserved X and Y domains found in all higher eukaryotic PI-PLCs (51 and 29% identity, respectively, to the corresponding domains of rat delta 1 PI-PLC) and also contains a presumptive Ca(2+)-binding site (an E-F hand motif). Plc1p, modified by in-frame insertion of a His6 tract and a c-myc epitope near its amino terminus, was overexpressed from the GAL1 promoter, partially purified by nickel chelate affinity chromatography, and shown to be an active PLC enzyme in vitro with properties similar to those of its mammalian counterparts. Plc1p activity was strictly Ca2+ dependent: at a high Ca2+ concentration (0.1 mM), the enzyme hydrolyzed PIP2 at a faster rate than phosphatidylinositol, and at a low Ca2+ concentration (0.5 microM), it hydrolyzed PIP2 exclusively. Cells carrying either of two different deletion-insertion mutations (plc1 delta 1::HIS3 and plc1 delta 2::LEU2) were viable but displayed several distinctive phenotypes, including temperature-sensitive growth (inviable above 35 degrees C), osmotic sensitivity, and defects in the utilization of galactose, raffinose, and glycerol at permissive temperatures (23 to 30 degrees C). The findings reported here suggest that hydrolysis of PIP2 in S. cerevisiae is required for a number of nutritional and stress-related responses.
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PMID:Genetic and biochemical characterization of a phosphatidylinositol-specific phospholipase C in Saccharomyces cerevisiae. 839 15

Isolated hippocampal mossy fiber synaptosomes were used to characterize control mechanisms of prostaglandin F2 alpha (PGF2 alpha) synthesis at a central mammalian synapse. Exogenous arachidonic acid stimulated the dose-dependent synthesis of PGF2 alpha, as did the addition of phospholipase A2 or the activation of endogenous phospholipase A2. Phospholipase A2 inhibitors attenuated prostaglandin synthesis, but phospholipase C inhibitors had no effect. However, a diglyceride kinase inhibitor reduced PGF2 alpha accumulation. The cyclooxygenase inhibitor ibuprofen eliminated PGF2 alpha production, while the lipoxygenase inhibitors baicalein and NDGA reduced PGF2 alpha accumulation. The CA(2+)-ionophore-dependent stimulation of PGF2 alpha synthesis was abolished by Cd2+ or Ni2+. Further more, PGF2 alpha production appeared to be dependent on Ca2+ influx via L-type, but not N- or T-type, voltage-sensitive Ca2+ channels. Membrane depolarization with KC1, veratridine or 4-aminopyridine stimulated the synthesis of PGF2 alpha. This depolarization-dependent stimulation of PGF2 alpha synthesis was attenuated by L-type voltage-sensitive Ca2+ channel blockers, phospholipase A2 inhibitors, a K+ channel activator and a Na+ channel blocker. The activation of protein kinase C also led to a reduction of PGF2 alpha accumulation in depolarized nerve endings. These results may be used to suggest that PGF2 alpha production by hippocampal mossy fiber synaptosomes was controlled by the Ca(2+)- and phospholipase A2-dependent accumulation of unesterified arachidonic acid and was modulated by membrane depolarization and the activity of protein kinase C.
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PMID:Prostaglandin F2 alpha synthesis in the hippocampal mossy fiber synaptosomal preparation: I. Dependence in arachidonic acid, phospholipase A2, calcium availability and membrane depolarization. 844 49

We have recently identified gonadotropes as target cells for ATP action via ATP receptors of the P2U subtype. The present studies have used gonadotrope-derived alpha T3-1 cells to examine the possible signaling mechanisms subserving ATP action in gonadotropes. Addition of ATP produced a biphasic intracellular Ca2+ (Ca2+i) response: a transient spike followed by a small plateau. Removal of extracellular Ca2+ or depolarization with KCl abolished the plateau but had no effect on the spike. The plateau was also blocked by cadmium or nifedipine but not nickel. Pretreatment with GnRH or thapsigargin but not ryanodine inhibited the subsequent Ca2+i response to ATP. Pertussis toxin had no effect on ATP-induced Ca2+i response, whereas the phospholipase C inhibitor U73122 reduced the response. These observations suggest that the Ca2+i response is mediated by a pertussis toxin-insensitive and phospholipase C-coupled G-protein and reflects Ca2+ release from the GnRH- and thapsigargin-sensitive Ca2+ pool followed by Ca2+ influx through high voltage-gated Ca2+ channels. Activation of these ATP receptors had no apparent effects on the cAMP and cGMP signaling systems. Treatment with ATP-gamma S caused the translocation of protein kinase C (PKC) epsilon but not PKC zeta and PKC alpha to the particulate fraction. These data not only characterize the ATP receptor-mediated intracellular signaling in alpha T3-1 cells and render further evidence for a mediator role for nucleotides in gonadotrope function but also provide the first direct demonstration of PKC translocation by ATP receptors.
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PMID:Effects of extracellular nucleotides in the pituitary: adenosine triphosphate receptor-mediated intracellular responses in gonadotrope-derived alpha T3-1 cells. 853 20

Interactions between human platelets and human umbilical vein endothelial cells (HUVEC) were studied by monitoring changes in cytosolic [Ca2+]i in both cell types. Confluent monolayers of Fura-2-loaded HUVEC, grown on gelatin-coated coverslips, responded to repeated addition of a suspension of unstimulated platelets by transient increases in cytosolic [Ca2+]i. These platelet-evoked Ca2+ responses were not caused by products secreted from the platelets and were insensitive to inhibitors of platelet activation and/or platelet aggregation. The platelet-evoked rises in [Ca2+]i in endothelial cells, similarly as the thrombin-evoked rises, were blocked by preincubation of HUVEC with the phospholipase C inhibitor U73122 or the Ca2+ influx blocker Ni2+. In contrast, treatment with the protein tyrosine kinase inhibitor genistein was without effect. Video imaging experiments, in which the fluorescence signal was analysed from the individual cells of an endothelial monolayer, showed that only 2-20% of the cells, scattered over the monolayer, responded to the addition of platelets by a transient increase in [Ca2+]i, whereas most of the cells responded to thrombin. This leads to the conclusion that unstimulated platelets can activate HUVEC putatively by mechanical interaction with individual endothelial cells in the monolayer.
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PMID:Unstimulated platelets evoke calcium responses in human umbilical vein endothelial cells. 860 5

delta-Opioids mobilize Ca2+ from intracellular stores in undifferentiated NG108-15 cells, but the mechanism involved remains unclear. Therefore, we examined the effect of [D-Pen 2,5] enkephalin on inositol 1,4,5-trisphosphate formation in these cells. [D-Pen 2,5] enkephalin caused a dose-dependent (EC50= 3.1 nM) increase in inositol 1,4,5-trisphosphate formation (measured using a specific radioreceptor mass assay), which peaked (25.7+/-1.2 pmol/mg of protein with 1 microM, n=9) at 30 s and returned to basal levels (10.6+/-0.9 pmol/mg of protein, n=9) within 4-5 min. This response was fully naloxone (1 microM) reversible and pertussis toxin (100ng/ml for 24 h) sensitive. Preincubation with Ni2+ (2.5 mM) or nifedipine (1 microM) had no effect on the [D-Pen 2,5] enkephalin (1 microM)-induced inositol 1,4,5-triphosphate response, and K+ (80mM) was unable to stimulate inositol 1,4,5-trisphosphate formation, indicating Ca2+ influx-induced activation of phospholipase C is not involved. Preincubation with the protein kinase C inhibitor Ro 31-8220 (1 microM) enhanced, whereas acute expo sure to phorbol 12,13-dibutyrate (1 microM) abolished, the [D-Pen 2,5] enkephalin (0.1 microM)-induced inositol 1,4,5-triphosphate response, suggesting protein kinase C exerts an autoinhibitory feedback action. [D-Pen 2,5] Enkephalin also dose-dependently (EC50 =2.8 nM) increased the intracellular [Ca2+], which was maximal (24 nM increase with 1 microM, n=5) at 30 s. This close temporal and dose-response relationship strongly suggests that delta-opioid receptor-mediated increases in intracellular [Ca2+] results from inositol 1,4,5-trisphosphate-induced Ca2+ release from intracellular stores, in undifferentiated NG108-15 cells.
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PMID:delta-Opioids stimulate inositol 1,4,5-trisphosphate formation, and so mobilize Ca2+ from intracellular stores, in undifferentiated NG108-15 cells. 862 99

It has been suggested that murine neuroblastoma C1300 cells express endogenous neurokinin NK2 receptors with features that differ from those of NK2 receptors characterized in other systems. In this study, we have further characterized the neurokinin receptor types present in this cell line. RNA blots showed that mRNAs of NK2 and NK3 receptors, but not of NK1 receptors, were expressed in C1300 cells. The increase in the cytosolic calcium concentration ([Ca2+]i) induced by 0.33 microM neurokinin A was completely inhibited by SR 48968, an NK2 receptor antagonist, whereas the partial response to 0.33 microM neurokinin B was unaffected, and the response was completely inhibited by SR 142801, and NK3 receptor antagonist. In addition, the [Ca2+]i increase by 0.33 microM senktide, an NK3 receptor agonist, was inhibited by SR 142801 but not by SR 48968. These findings indicated that C1300 cells endogenously express functional NK2 and NK3 receptors. It was also demonstrated that NK2 and NK3 receptors can be activated independently by 3.3 microM neurokinin A in the presence of 1.0 microM SR 142801 or 1.0 microM senktide, respectively. Therefore, the mechanisms of Ca2+ signaling mediated by endogenous NK2 and NK3 receptors were investigated. The independent activation of NK2 or NK3 receptors induced not only the [Ca2+]i increase, but also stimulated the formation of inositol trisphosphates; both these responses were inhibited by U73122, a phospholipase C (PLC) inhibitor. In addition, NK2 and NK3 receptor-mediated [Ca2+]i increase was partially attenuated in the absence of extracellular Ca2+ or in the presence of nickel, an inorganic Ca2+ influx blocker, but was unaffected by nifedipine and omega-conotoxin, L- and N-type voltage-dependent Ca2+ channel blockers, respectively. Furthermore, the depolarization by 60 mM K+ did not affect the [Ca2+]i. These findings suggested that the NK2 and NK3 receptor-mediated [Ca2+]i increase was due to the activation of PLC and was dependent on the mobilization of internal Ca2+ and the entry of extracellular Ca2+ through voltage-independent channels. This study showed that the C1300 cell line is a useful system with which to investigate pharmacological functions and signaling pathways of endogenous NK2 and NK3 receptors.
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PMID:Further identification of neurokinin receptor types and mechanisms of calcium signaling evoked by neurokinins in the murine neuroblastoma C1300 cell line. 875 37

Intracellular Ca2+ signals of intact endothelium from rabbit aortic or pulmonic valves loaded with fura 2 were studied using imaging fluorescence microscopy. Agonists such as ATP or carbachol and inhibitors of endoplasmic reticulum (ER) Ca(2+)-ATPase such as cyclopiazonic acid (CPA), thapsigargin, and 2', 5'-di(tert-butyl)-1, 4,-benzohydroquinone (BHQ) induced an increase in cytoplasmic free Ca2+ concentration ([Ca2+]i) that was maintained above the prestimulated levels as long as extracellular Ca2+ was present, indicating that the maintained [Ca2+]i increase is dependent on the entry of extracellular Ca2+. The voltage-gated channel was not found to contribute to [Ca2+]i increase. SK&F-96365, a receptor-operated cation channel (ROC) blocker, and 2-nitro-4-carboxyphenyl-N, N-diphenylcarbamate (NCDC), a postulated phospholipase C inhibitor, were shown to effectively block ROC, since they greatly reduced the maintained [Ca2+]i increase caused by ATP, but not that caused by CPA, which was blocked by Ni2+. To further investigate the Ca2+ influx involved in this process, divalent cation entry was measured as Mn2+ quenching of fura 2 fluorescence at 360-nm excitation wavelength. At rest, fluorescence quenching at 360 nm by Mn2+ was observed, which was inhibited by Ni2+ but not by NCDC, indicating Mn2+ entry through the leak pathway. The quenching was enhanced following ATP stimulation, and this enhancement was abolished by pretreatment with NCDC. In contrast, the rate of Mn2+ quenching was unaffected by the application of CPA. These results demonstrate that ATP stimulates divalent cation influx that is not related to the Ca2+ content of ER. Abolition of Ca2+ uptake into ER was postulated to increase the effectiveness of the Ca2+ leak in raising [Ca2+]i.
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PMID:Agonist- and CPA-induced elevation of cytoplasmic free Ca2+ in intact valvular endothelium from rabbits. 878 Jan 77

Classically, opioids inhibit Ca2+ influx, but recent reports suggest opioids may also stimulate Ca2+ entry. Therefore, we have measured the effect of opioids on intracellular Ca2+ ([Ca2+]i), fluorimetrically, in Fura-2-loaded SH-SY5Y cells. Fentanyl 0.3 mumol litre-1 caused a mean increase in [Ca2+]i of 18.8 (SEM 2.1) nmol litre-1 in some (30.3%) batches of SH-SY5Y cells. In responding cells, the fentanyl-induced increase in [Ca2+]i was dose-dependent, with an EC50 of 0.73 mumol litre-1. This response was naloxone-reversible, and the delta opioid agonist [D-Pen2,5]enkephalin had no effect on [Ca2+]i, suggesting the fentanyl-induced Ca2+ response was entirely mediated by the mu opioid receptor. Fentanyl 0.3 mumol litre-1 increased [Ca2+]i without preactivation of phospholipase C by another agonist, and this was markedly reduced by Ni2+ 2.5 mmol litre-1. These data suggest that mu opioids directly increase [Ca2+]i by stimulating Ca2+ influx in SH-SY5Y cells.
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PMID:Fentanyl increases intracellular Ca2+ concentrations in SH-SY5Y cells. 878 53

The involvement of the early signaling messengers, inositol tris-phosphate (IP3), intracellular calcium, [Ca2+]i, and protein kinase C (PKC), in angiotensin II (AII)-induced fluid phase endocytosis was investigated in human brain capillary and microvascular endothelial cells (HCEC). ALL (0.01-10 microM) stimulated the uptake of Lucifer yellow CH, an inert dye used as a marker for fluid phase endocytosis, in HCEC by 50-230%. AII also triggered a fast accumulation of IP3 and a rapid increase in [Ca2+]i in cells loaded with the Ca(2+)-responsive fluorescent dye fura-2. The prompt AII-induced [Ca2+]i spike was not affected by incubating HCEC in Ca(2+)-free medium containing 2 mM EGTA or by pretreating the cultures with the Ca2+ channel blockers, methoxyverapamil (D600; 50 microM), nickel (1 mM), or lanthanum (1 mM), suggesting that the activation of AII receptors on HCEC triggers the release of Ca2+ from intracellular stores. The AII-triggered increases in IP3, [Ca2+]i, and Lucifer yellow uptake were inhibited by the nonselective AII receptor antagonist, Sar1, Val5, Ala8-AII (SVA-AII), and by the phospholipase C (PLC) inhibitors, neomycin and U-73122. By contrast, the protein kinase C (PKC) inhibitors, staurosporine and calphostin C, failed to affect any of these AII-induced events. This study demonstrates that increased fluid phase endocytotosis induced by AII in human brain capillary endothelium, an event thought to be linked to the observed increases in blood-brain barrier permeability in acute hypertension, is likely dependent on PLC-mediated changes in [Ca2+]i and independent of PKC.
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PMID:Angiotensin II-induced fluid phase endocytosis in human cerebromicrovascular endothelial cells is regulated by the inositol-phosphate signaling pathway. 895 95

The aim of this study was to assess the contribution of alpha 1-adrenoceptor subtypes to noradrenaline (NA)-induced inositol phosphate formation in rat striatum. In cross-chopped slices and in the presence of 10 mM LiCl, NA stimulated the accumulation of [3H]inositol phosphates. After 60-min incubation with 100 microM NA, [3H]IP1 was the major product detected (82 +/- 3% of total [3H]inositol phosphates). Best-fit values for the concentration-response curve for NA-induced [3H]IP1 accumulation yielded an EC50 of 9.4 +/- 1.1 microM, maximum effect of 210 +/- 3% of basal, and Hill coefficient (nH) of 1.1 +/- 0.1. Pre-treatment of the slices for 30 min with the alkylating agent chloroethylclonidine (100 microM) failed to decrease significantly the response to 100 microM NA. Inhibition curves for four alpha 1-antagonists, (+)-niguldipine, prazosin, WB-4101 and 5-methylurapidil (5-MU), best-fit to a single-site model with pKi values of 9.4 ((+)-niguldipine), 9.2 (prazosin and WB-4101) and 8.8 (5-MU). The putative alpha 1 D-selective antagonist BMY 7378 reduced the response to NA only partially (30 +/- 3% inhibition at 1 microM: pKi 7.24). NA-induced [3H]IP1 accumulation was significantly reduced (to 20 +/- 9% of controls) by Ca2+ removal and increased as the extracellular Ca2+ concentration was raised from nominally zero (no added Ca2+) to 1 mM Ca2+. NA-induced [3H]IP1 accumulation was reduced by both the non-selective Ca2+ channel blocker Ni2+ (58 +/- 3% inhibition at 2 mM) and nimodipine, an antagonist of L-type voltage-operated Ca2+ channels (77 +/- 4% inhibition at 3 microM). Taken together these results indicate that NA-induced inositol phosphate formation in striatal slices is mediated by activation of alpha 1A-adrenoceptors coupled to Ca2+ entry and Ca2+ activation of phospholipase C.
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PMID:Noradrenaline-induced inositol phosphate formation in rat striatum is mediated by alpha 1A-adrenoceptors. 902 8


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