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)

Rat aortic smooth muscle rings without endothelial cells were subjected to alpha 1-adrenoceptor stimulation. We measured the contractile state of the smooth muscle cells and the formation of inositol phosphates (InsPs) on receptor stimulation. Using different extracellular calcium-containing solutions (2.5 mM, 0.1 mM and Ca(2+)-free) enabled us to discriminate three contractile phases after noradrenaline (10(-5) M) stimulation: an initial fast contraction (15 s) and a fast and slow component of the sustained contraction, which was established 10 min after stimulation. Under normal calcium conditions in the presence of 10 mM LiCl the formation of Ins(1,4,5)P3 was increased predominantly after stimulation, while the formation of Ins(1,3,4)P3, Ins(1,3,4,6)P4, Ins(1,3,4,5)P4, Ins(3,4,5,6)P4 and InsP5/InsP6 was also stimulated. The cAMP-inducing agent forskolin (0.5 microM) induced a relaxation of the basal tone and increased the level of the InsP4 isomers. The noradrenaline-induced contractile responses as well as the formation of InsP fractions mentioned were inhibited by forskolin. Further an increase in the formation of phosphatidylinositol bisphosphate was observed. It is concluded that in rat aorta InsPs and in particular Ins(1,4,5)P3 is involved in the different contractile phases caused by alpha 1-adrenoceptor stimulation. The relaxation induced by forskolin under these circumstances could be explained by an interaction of forskolin, most likely via the formation of cAMP, with InsPs formation at the level of phospholipase C activation.
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PMID:Inositol phosphates formed in rat aorta after alpha 1-adrenoceptor stimulation are inhibited by forskolin. 168 Jul 20

We have assessed the effect of somatostatin on the phospholipase C activity in isolated rat pancreatic islets. The phospholipase C activity was measured as the generation of inositol 1,4,5-trisphosphate and its metabolite inositol 1,3,4-trisphosphate from the hydrolysis of polyphosphoinositides. Inositol phosphates were measured using anion-exchange fast protein liquid chromatography analysis of extracts from islets prelabelled with myo-[3H]inositol. Somatostatin (1-1000 nmol l-1) significantly inhibited the glucose-induced (12 mmol l-1) phospholipase C activity in a concentration-dependent manner. The Ca2+ channel blocker verapamil (25 mumol l-1) also inhibited the glucose-induced (12 mmol l-1) phospholipase C, whereas the combination of somatostatin and verapamil did not induce any additional inhibition. At 3.3 mmol l-1 glucose, the hypoglycaemic sulphonylurea, tolbutamide (1 mmol l-1), increased the phospholipase C activity. This effect was reversed by somatostatin (100 nmol l-1). Tolbutamide did not further increase the glucose-induced (12 mmol l-1) phospholipase C activity. However, the somatostatin inhibition of glucose-induced (12 mmol l-1) phospholipase C was reversed by tolbutamide. The activator of adenylyl cyclase, forskolin (20 mumol l-1), did not exert any effect on the PLC-inhibition of somatostatin, whereas forskolin alone inhibited the phospholipase C activation at 12 mmol l-1 glucose. Our study demonstrates that somatostatin inhibits the hydrolysis of polyphosphoinositides in pancreatic islets, apparently via a mechanism dependent on Ca2+ and not on cAMP.
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PMID:Somatostatin inhibition of phospholipase C activity in isolated rat pancreatic islets. 168 20

We have previously shown that bradykinin-induced production of second messengers such as inositol trisphosphate and diacylglycerol in neurotumor cells is inhibited by raising cellular cyclic AMP levels, which in turn inhibit phospholipase C. A monoclonal antibody to phospholipase C-II immunoprecipitated the 140-kDa form of phospholipase C-II from [35S]methionine/[3H]eucine-labeled cells, but not [32P]orthophosphate-labeled phospholipase C-II, following treatment with either forskolin or dibutyryl cyclic AMP. This suggested that phospholipase C is not the target for cyclic AMP-dependent protein kinase-mediated phosphorylation. In vitro studies confirmed that phospholipase C activity was inhibited by raising cellular cAMP levels, and partial sensitivity to Bordetella pertussis toxin suggested the involvement of a GTP-binding protein which could be the target for protein kinase A. The involvement of a GTP-binding protein in coupling the bradykinin receptor to phospholipase C was further suggested by the ability of both guanosine 5'-O-(thio-triphosphate) and fluoride (NaF) to release inositol phosphates from NCB-20 cell membranes previously labeled with [3H]inositol. Both effects were blocked by pretreatment of the cells with protein kinase A activators, further suggesting a GTP-binding protein as the target for protein kinase A-mediated phosphorylation. When whole NCB-20 cell extracts were blotted onto nitrocellulose and incubated with [alpha- 32P]GTP, a major 24-kDa band plus minor bands at 22 and 20 kDa were revealed by autoradiography. A pH 3.0/6.0 soluble (basic protein) NCB-20 cell extract revealed the major 24-kDa band plus the 20-kDa band, and similar basic proteins were shown to be heavily phosphorylated following [32P]orthophosphate labeling and pretreatment with forskolin. The size and ability to bind GTP on Western blots are characteristic of the ras, rho, smg, etc. family of GTP-binding proteins recently suggested to be the much sought after GPLC (Lapetina, E.G., Lacal, J. C., Reep, B. R., and Molina y Vedia, L. (1989) Proc. Natl. Acad. Sci. U.S.A. 86, 3131-3134; Wang, P., Nishihata, J., Takabori, E., Yamamoto, K., Toyoshima, S., and Osawa, T. (1989) J. Biochem. (Tokyo) 105, 461-466; Nagata, K.-I., Nagao, S., and Nozawa, Y. (1989) Biochem. Biophys. Res. Commun. 160, 235-242). We propose that GPLC is uniquely sensitive to protein kinase A-mediated phosphorylation and that phosphorylation inhibits stimulus-secretion coupling in these cells.
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PMID:Phospholipase C activity in NCB-20 cells is inhibited by protein kinase A-mediated phosphorylation of low molecular mass GTP-binding proteins. 169 Nov 76

Kinins elicit prostaglandin and inositol phosphate production in 3T3 fibroblasts through stimulation of B2 receptors. Prostaglandin synthesis is maximum by 5 min, whereas inositol phosphate production continues for longer than 30 min. Prostaglandin synthesis is stimulated by phospholipase A2, which releases arachidonate from phospholipids, whereas a phosphatidylinositol-specific phospholipase C catalyzes formation of equimolar amounts of inositol phosphate and diacylglycerol. Stimulation of these two second-messenger systems occurs through independent pathways: (a) dexamethasone inhibits prostaglandin formation by inhibiting phospholipase A2, and, to a lesser degree, cyclooxygenase, but is without effect on inositol phosphate production; (b) neomycin inhibits inositol phosphate production without affecting prostaglandin synthesis; (c) phorbol esters inhibit inositol phosphate production while augmenting prostaglandin synthesis; and (d) indomethacin inhibits prostaglandin synthesis but does not affect inositol phosphate production. At later times (greater than 10 min), the two pathways interact. Stimulation with one agonist to increase diacylglycerol results in augmentation of prostaglandin synthesis in response to a second agonist. Inositol phosphates cause release of calcium from intracellular stores. Prostaglandins stimulate (by binding to their own receptors) adenylate cyclase to increase cAMP. Additionally, prostaglandins increase intracellular free calcium by increasing influx of extracellular calcium. Both inositol phosphates and prostaglandins play roles in mitogenesis in these cells.
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PMID:Kinin signal transduction: role of phosphoinositides and eicosanoids. 169 60

The localization of several GTP-binding regulatory proteins in teh apical membrane of intestinal epithelial cells has prompted us to investigate a possible role for G-proteins as modulators of apical Cl- channels. In membrane vesicles isolated from rat small intestine or human HT29-cl.19A colon carcinoma cells, the entrapment of guanosine 5'-O-(3-thiophosphate (GTP gamma S) led to a large increase in Cl- conductance, as evidenced by an increased 125I- uptake and faster SPQ quenching. The enhancement was observed in the presence, but not in the absence of the K+ ionophore valinomycin, indicating that the increased Cl- permeability is not secondary to the opening of K+ channels. The effect of GTP gamma S was counteracted by guanosine 5'-O-(2-thiophosphate (GDP beta S) and appeared to be independent of cytosolic messengers, including ATP, cAMP, and Ca2+, suggesting that protein phosphorylation and/or phospholipase C activation is not involved. Patch clamp analysis of apical membrane patches of HT29-cl.19A colonocytes revealed a GTP gamma S-activated, inwardly rectifying, anion-selective channel with a unitary conductance of 20 +/- 4 pS. No spontaneous channel openings were observed in the absence of GTP gamma S, while the open time probability (Po) increases dramatically to 0.81 +/- 0.09 upon addition with GTP gamma S. Since the electrophysiological characteristics and regulatory properties of this channel are markedly different from those of the more widely studied cAMP/protein kinase A-operated channel, we propose the existence of a separate Cl(-)-selective ion channel in the apical border of intestinal epithelial cells. Our results suggest an alternative regulatory pathway in transepithelial salt transport and a possible site for anomalous channel regulation as observed in cystic fibrosis patients.
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PMID:G-proteins mediate intestinal chloride channel activation. 170 25

Thrombin induced an increase in [Ca2+]i in mouse mastocytoma P-815 cells. This increase was markedly reduced by prior exposure to pertussis toxin (PT) but not by removal of extracellular Ca2+, suggesting that thrombin stimulates phospholipase C via a PT-sensitive GTP-binding protein. ATP also induced an increase in [Ca2+]i. This increase was insensitive to PT but completely suppressed on removal of extracellular Ca2+, suggesting that ATP stimulates Ca2+ influx in a PT-insensitive manner. Iloprost, a stable prostacyclin analogue, increased the cellular cAMP level and dose-dependently inhibited the thrombin-induced increase in [Ca2+]i, whereas the ATP-induced increase in [Ca2+]i was markedly enhanced by iloprost. Cyclic AMP analogues, dibutyryl cAMP and 8-bromo cAMP, also inhibited the increase in [Ca2+]i induced by thrombin and promoted that by ATP, indicating that the inhibitory and stimulatory effects of iloprost are mediated by cAMP. These results suggest that the prostacyclin receptor differentially regulates two distinct Ca2+ mobilizing systems via cAMP in mastocytoma cells.
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PMID:Differential regulation of thrombin- or ATP-induced mobilization of intracellular Ca2+ by prostacyclin receptor in mouse mastocytoma cells. 170 39

Mastoparan, a basic tetradecapeptide isolated from wasp venom, is a novel mitogen for Swiss 3T3 cells. This peptide induced DNA synthesis in synergy with insulin in a concentration-dependent manner; half-maximum and maximum responses were achieved at 14 and 17 microM, respectively. Mastoparan also stimulated DNA synthesis in the presence of other growth promoting factors including bombesin, insulin-like growth factor-1, and platelet-derived growth factor. The synergistic mitogenic stimulation by mastoparan can be dissociated from activation of phospholipase C. Mastoparan did not stimulate phosphoinositide breakdown, Ca2+ mobilization or protein kinase C-mediated phosphorylation of a major cellular substrate or transmodulation of the epidermal growth factor receptor. In contrast, mastoparan stimulated arachidonic acid release, prostaglandin E2 production, and enhanced cAMP accumulation in the presence of forskolin. These responses were inhibited by prior treatment with pertussis toxin. Hence, mastoparan stimulates arachidonic acid release via a pertussis toxin-sensitive G protein in Swiss 3T3 cells. Arachidonic acid, like mastoparan, stimulated DNA synthesis in the presence of insulin. The ability of mastoparan to stimulate mitogenesis was reduced by pertussis toxin treatment. These results demonstrate, for the first time, that mastoparan stimulates reinitiation of DNA synthesis in Swiss 3T3 cells and indicate that this peptide may be a useful probe to elucidate signal transduction mechanisms in mitogenesis.
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PMID:Mastoparan, a novel mitogen for Swiss 3T3 cells, stimulates pertussis toxin-sensitive arachidonic acid release without inositol phosphate accumulation. 170 71

Changes in the intracellular free calcium ([Ca2+]i) of cultured normal human epidermal keratinocytes (NHEK) were investigated in order to determine whether the adenylate cyclase cAMP (AC) system and phospholipase C activating system are involved in increasing [Ca2+]i. NHEK were obtained from neonatal foreskin and grown in serum-free medium (K-GM) supplemented with 2% bovine pituitary extract. [Ca2+]i was measured by fluorescence ratio imaging microscopy using Fura-2 as the indicator. In the case of the AC system, transient increases in [Ca2+]i were observed in response to stimulation with epinephrine, norepinephrine, isoproterenol and salbutamol. Methoxamine, clonidine and dobutamine did not induce any [Ca2+]i increase. The [Ca2+]i increase evoked by epinephrine was inhibited by pretreatment with propranolol, but not by prazosin or yohimbine, indicating that epinephrine-induced [Ca2+]i elevation via beta 2-adrenergic stimulation. Similar changes were observed when NHEK were stimulated with histamine, adenosine, GTP gamma S, forskolin and dibutyryl cAMP respectively. The absence of extracellular Ca2+ had no effect on the epinephrine-induced [Ca2+]i increase. It appears that activated protein kinase A, based on cAMP accumulation via stimulatory GTP binding protein, elicited the release of Ca2+ from intracellular stores. On the other hand, when drugs known to activate phospholipase C in a wide variety of cell types were tested, a transient increase in [Ca2+]i was demonstrated in response to the addition of thrombin, bradykinin and substance P. This reaction was not affected by the presence of EGTA, suggesting that these drugs raise [Ca2+]i via phosphatidylinositol breakdown. Vasopressin, angiotensin II, serotonin and acetylcholine did not induce any increase in [Ca2+]i. On the basis of these studies, it was concluded that NHEK possess the mechanism which increase [Ca2+]i via AC system and phospholipase C activating system. It seems probable that this rise in [Ca2+]i initiates a calcium-dependent cellular response, such as activation of calcium/calmodulin dependent kinase, and subsequently regulates the proliferation and differentiation of human epidermal keratinocytes.
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PMID:[Changes in the intracellular free calcium of cultured human epidermal keratinocytes]. 171 97

Although most studies of protein phosphorylation have focused on intracellular protein kinases, evidence for protein kinase activity on the surface of several types of cells has been described. Evidence was recently provided for the existence of ecto-protein kinase activity on the surface of human neutrophils. Evidence for three distinct ecto-protein kinase activities was detected, one that phosphorylates endogenous surface proteins, one that phosphorylates exogenous substrates in a cAMP-independent manner and is released in the presence of substrate, and a low level of activity of one that phosphorylates exogenous Kemptide in a cAMP-dependent manner. To begin to elucidate its role in neutrophil function, we have characterized several properties of the releasable ecto-protein kinase activity on human neutrophils. This enzyme activity was inhibited by impermeant stilbene disulfonic acids, which are known to alter neutrophil function, as well as by impermeant sulfhydryl reactive agents. Enzyme activity was detectable at physiologic concentrations of Mg2+, but was higher in the presence of Mn2+. Protein kinase activity was strongly inhibited by heparin, whereas trifluoperazine, cAMP, and cGMP had little effect on kinase activity. Protein kinase activity was selectively removed from the cell surface by incubation with the ecto-kinase substrates casein and phosvitin, but the enzyme was not released by phosphatidylinositol-specific phospholipase C. Repeated exposure of neutrophils to substrate depleted ecto-protein kinase activity from the cell surface, but activity was rapidly restored by incubation in buffer lacking substrate. The released protein kinase had a Km for ATP of approximately 0.5 microM and a pH maximum between 7.0 and 7.5. At least four ecto-protein kinase substrates were detected in serum; vitronectin was identified as one of these substrates by immunoprecipitation studies. Although the exact role of ecto-protein kinase activity in neutrophil function remains undefined, the identification of vitronectin as a serum substrate suggests that it interacts with a physiologically important substrate.
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PMID:Characterization of human neutrophil ecto-protein kinase activity released by kinase substrates. 171 14

Activated p21ras alters the platelet-derived growth factor (PDGF) signal transduction pathway in fibroblasts by inhibiting autophosphorylation of the receptor as well as by inhibiting the induction of the growth-related genes c-myc, c-fos, and JE. To elucidate the cause and effect relationships between receptor autophosphorylation and other second messenger events in the PDGF signaling pathway we created revertants of v-ras transformed cells by two methods: 1) the use of cAMP analogues, and 2) the introduction of a gene, Krev-1, which has been reported previously to revert ras transformed cells to normal morphology. Analysis of the revertants shows that the PDGF-mediated tyrosine phosphorylation of the 180-kDa PDGF receptor remains inhibited; however, the PDGF-mediated activation of phospholipase C and the induction of the growth-related genes c-myc, c-fos, and JE have been restored. These data suggest the presence of parallel pathways for PDGF signal transduction which are not dependent on autophosphorylation of the PDGF receptor.
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PMID:Dissociation of platelet-derived growth factor (PDGF) receptor autophosphorylation from other PDGF-mediated second messenger events. 171 14

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