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)

Aluminum (Al) is believed to exert a primary role in the neurotoxicity associated with dialysis encephalopathy and has been suggested to be involved in a number of other neurological disorders, including Alzheimer's disease. Al, complexed with fluoride to form fluoroaluminate (AlF4-), can activate the GTP-binding (G) proteins of the adenylate cyclase and retinal cyclic GMP phosphodiesterase systems. Since an involvement of G-proteins with cerebral phosphoinositide (PtdIns) metabolism has also been suggested, in this study we investigated the interaction of the stable GTP analogue GTP(S), Al salts and NaF with this system. In rat cerebral cortical membranes, GTP(S) dose-dependently stimulated [3H]inositol phosphates ([3H]InsPs) accumulation. This effect was potentiated by carbachol and was partially prevented by the GTP-binding antagonist GDP(S), indicating that CNS muscarinic receptor activation is coupled to PtdIns hydrolysis via putative G-protein(s). GTP(S) stimulation was also inhibited by phorbol 12-myristate 13-acetate (PMA), an activator of protein kinase C, which is known to exert a negative feedback control on agonist-stimulated PtdIns metabolism. Both Al salts and NaF mimicked the action of GTP(S) in stimulating PtdIns turnover. Their actions were highly synergistic, suggesting that AlF4- could be the active stimulatory species. However, the stimulatory effects of AlCl3 and/or NaF were not potentiated by carbachol and were not inhibited by GDP(S) and PMA, suggesting that separate sites of action might exist for GTP(S) and AlF4-. In the nervous tissue, activation of PtdIns hydrolysis by Al (probably as AlF4-) may be mediated by activating a regulatory G-protein at a location distinct from the GTP-binding site or by a direct stimulation of phospholipase C.
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PMID:Interaction of aluminum ions with phosphoinositide metabolism in rat cerebral cortical membranes. 194 39

Muscarinic receptor-induced changes in the activities of phospholipase D (PLD) and of phosphoinositide-phospholipase C (PI-PLC) were investigated in human embryonic kidney (HEK) cells transfected with, and stably expressing, the human m1, m2, m3, and m4 mAChR subtypes, respectively. PLD and PI-PLC activities in these four transfected cell lines as well as in nontransfected cells were measured by the formation of [3H]phosphatidylethanol [( 3H]PEt) and [3H]inositol phosphates [( 3H]IP) after labeling cellular phospholipids with [3H]oleic acid and [3H]inositol. The muscarinic receptor agonist carbachol had no significant effects on [3H]PEt and [3H]IP formation in nontransfected HEK cells. In cells expressing the m1 or m3 receptors carbachol (1 mM; in the presence of 400 mM ethanol and 10 mM lithium chloride) caused the formation of [3H]PEt of about 12,000 cpm/mg protein (basal PEt formation was not measurable) and increased [3H]IP formation by 20,000-30,000 cpm/mg (a 7-10-fold increase over basal levels). The EC50 values (0.3-1.5 microM) were similar for both effects and both mAChR subtypes. In contrast, in cells expressing m2 or m4 receptor subtypes the magnitude of [3H]PEt (about 4,000 cpm/mg protein) or [3H]IP (3,000-4,000 cpm/mg) formation was much smaller and the EC50 values (20-40 microM) much higher than for the m1 and m3 receptors. Neomycin (1 mM) inhibited the m1 and m3 receptor-mediated production of IP by 50%, whereas the PEt formation was attenuated by 20% in the same cells. We conclude that activation of all of the four mAChR subtypes, although with different efficiencies, can stimulate PLD. The m1 and m3 receptor-mediated stimulation of the PLD may be at least partially independent of the PI-PLC stimulation.
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PMID:Coupling of transfected muscarinic acetylcholine receptor subtypes to phospholipase D. 200 63

Receptors stimulating phospholipase C do so through heterotrimeric GTP-binding proteins to produce two second messengers, inositol 1,4,5-trisphosphate (InsP3) and diacylglycerol. In spite of the detailed understanding of phospholipase C structure and phosphatidyl inositol signalling, the identity of the GTP-binding protein involved is so far unknown. To address this issue, we have used the Xenopus oocyte in which muscarinic receptors couple to phospholipase C through a pertussis toxin-sensitive GTP-binding protein. In this cell, InsP3 mobilizes intracellular Ca2+ to evoke a Cl- current. The magnitude of this Cl- current is proportional to the amount of InsP3 in the cell, and therefore can be used as an assay for InsP3 production. We report here that the activated alpha-subunit of the GTP-binding protein GO, when directly injected into oocytes, evokes a Cl- current by mobilizing Ca2+ from intracellular InsP3-sensitive stores. We also show that holo-GO, when injected into oocytes, can specifically enhance the muscarinic receptor-stimulated Cl- current. These data indicate that GO can serve as the signal transducer of the receptor-regulated phospholipase C in Xenopus oocytes.
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PMID:Go protein as signal transducer in the pertussis toxin-sensitive phosphatidylinositol pathway. 210 59

1. Single smooth muscle cells obtained by enzymic dispersion of the longitudinal muscle layer of rabbit jejunum were held under voltage clamp using patch pipettes and membrane currents measured. The effects of carbachol or caffeine applied externally were examined in cells dialysed with normal pipette solutions or with a solution containing heparin (which blocks receptors for D-myo-inositol 1,4,5-trisphosphate, InsP3), guanosine 5-O-(gamma-thio)triphosphate (GTP gamma S) or guanosine 5-O-(beta-thio)diphosphate (GDP beta S). 2. Outward current in response to application of carbachol or caffeine was considered to represent the opening of calcium-activated potassium channels in response to a localized rise in the free ionized calcium concentration occasioned by the rapid discharge of stored calcium (Ca) by these agents. 3. Heparin included in the pipette solution blocked outward current to muscarinic receptor activation by carbachol but not that to caffeine, suggesting that receptor-evoked discharge of stored cellular Ca is caused by InsP3 action. However, heparin did not affect muscarinic-receptor inward current. 4. After dialysis with 0.1-0.5 mM-GTP gamma S, carbachol inward current was evoked in two out of three of the cells; after dialysis with 0.1-0.2 mM-GTP gamma S for an average of 7.7 min it was 80% of the normal response; after dialysis for an average of 8.6 min with 0.5 mM-GTP gamma S it was 31% of the normal response. In contrast, 0.1 mM-GTP gamma S reduced caffeine outward current by 93% after an average 4.5 min dialysis and spontaneous transient outward currents (STOCs) were abolished in 2.9 min on average. 5. Carbachol inward current (at -40 or -50 mV) and carbachol outward current (at 0 mV) in responding cells were reduced only by half after 8-10 min dialysis with 1 mM-GDP beta S which has been shown in portal vein cells to antagonize the depletion of Ca stores by intracellular GTP gamma S (Komori & Bolton, 1989). After 8-10 min dialysis with 5 mM-GDP beta S outward current was 27% of normal. However, if GDP beta S was present, outward current generally could not be evoked by a second application of carbachol. 6. The discharge of Ca stores by dialysis with 0.1 mM-GTP gamma S was prevented completely by heparin included in the pipette solution, suggesting that activation of a G-protein associated with phospholipase C (PLC) enzyme accelerates PLC activity. InsP3 production and depletion of Ca stores.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Role of G-proteins in muscarinic receptor inward and outward currents in rabbit jejunal smooth muscle. 212 Apr 27

These studies demonstrate a novel mechanism for the coupling of the muscarinic receptor to phospholipase C activity in embryonic chick atrial cells. In monolayer cultures of atrial cells from hearts of embryonic chicks at 14 days in ovo, carbamylcholine stimulated the sequential appearance of InsP3, InsP2 and InsP1 with an EC50 (concn. causing 50% of maximal stimulation) of 30 microM. In the presence of 15 mM-Li, a 5 min exposure to carbamylcholine (0.1 mM) increased InsP3 levels to a maximum of 47 +/- 12% over basal, InsP2 to 108 +/- 13% over basal and InsP1 to 42 +/- 5% over basal. This effect was blocked by 5 microM-atropine. Incubation of these cells with pertussis toxin (15 h; 0.5 ng/ml) inhibited carbamylcholine-stimulated InsP3, InsP2 and InsP1 formation by 42 +/- 7%, 30 +/- 3% and 48 +/- 7% respectively. The IC50 (concn. causing 50% inhibition) for pertussis toxin inhibition of all three inositol phosphates was 0.01 ng/ml, with a half-time of 6 h at 0.5 ng/ml. This partial sensitivity to pertussis toxin was not due to incomplete ADP-ribosylation of the guanine-nucleotide-binding protein (G-protein), since autoradiography of polyacrylamide gels of cell homogenates incubated with [32P]NAD+ in the presence of pertussis toxin demonstrated that incubation of cells with 0.5 ng of pertussis toxin/ml for 15 h resulted in complete ADP-ribosylation of pertussis toxin substrates by endogenous NAD+. In cells permeabilized with saponin (10 micrograms/ml), 0.1 mM-GTP[S] (guanosine 5'-[gamma-thio]triphosphate) stimulated InsP1 by 102 +/- 15% (mean +/- S.E.M., n = 4), InsP2 by 421 +/- 67% and InsP3 by 124 +/- 33% above basal. Incubation of cells for 15 h with 0.5 ng of pertussis toxin/ml decreased GTP[S]-stimulated InsP1 production in saponin-treated cells by 30 +/- 10% (n = 3), InsP2 production by 45 +/- 7% (n = 4) and InsP3 production by 49 +/- 6% (n = 4). These data demonstrate that in embryonic chick atrial cells at least two independent G-proteins, a pertussis toxin-sensitive G-protein and a pertussis toxin-insensitive G-protein, play a role in coupling muscarinic agonist binding to phospholipase C activation and to inositol phosphate production.
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PMID:Muscarinic cholinergic stimulation of inositol phosphate production in cultured embryonic chick atrial cells. Evidence for a role of two guanine-nucleotide-binding proteins. 212 87

We have demonstrated that muscarinic stimulation of inositol phosphate production in cultured atrial cells from chicks at 14 days in ovo is partially sensitive to inhibition by pertussis toxin. In these cells, muscarinic agonist binding is coupled to phospholipase C activity via at least two guanine-nucleotide-binding proteins (G-proteins), one sensitive to pertussis toxin and the other (Gp) insensitive to pertussis toxin [Barnett, Shamah, Lassegue, Griendling & Galper (1990) Biochem. J. 271, 437-442]. In the current study we demonstrate that during embryonic development of the chick heart, muscarinic stimulation of inositol phosphate production decreases by 50% between days 5 and 14 in ovo in cells cultured from both atrium and ventricle. In atrial cells, however, pertussis toxin-sensitive muscarinic stimulation of inositol phosphate production increased from undetectable levels at day 5 in ovo to 40% of total stimulation at day 12 in ovo. Muscarinic stimulation of inositol phosphate production in the ventricle did not become sensitive to pertussis toxin at any age studied. In permeabilized atrial cells from embryonic chicks at 5 days in ovo, guanosine 5'-[gamma-thio]triphosphate (GTP[S]) stimulated InsP1 levels by 40 +/- 10% (mean +/- S.E.M., n = 3), InsP2 levels by 117 +/- 18% and InsP3 levels by 51 +/- 8%, suggesting that at day 5 in ovo all of the muscarinic-stimulated inositol phosphate production was coupled to phospholipase C via Gp. H.p.l.c. analysis demonstrated that, in spite of these changes in coupling of phospholipase C to different G-proteins, no changes could be demonstrated in the isomers of InsP3 produced in response to carbamylcholine at both days 5 and 14 in ovo. These data demonstrate that embryonic development of the chick atrium is associated with a switch in coupling of muscarinic receptors to phospholipase C from Gp to a pertussis toxin substrate. This developmental switch in coupling of G-proteins may be related to possible developmental switches in levels of muscarinic receptor isoforms or switches in the subtype of phospholipase C.
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PMID:Development of muscarinic-cholinergic stimulation of inositol phosphate production in cultured embryonic chick atrial cells. Evidence for a switch in guanine-nucleotide-binding protein coupling. 212 88

Receptor-mediated arachidonic acid release and its relationship to phospholipase A2 and phospholipase C activation were investigated in Chinese hamster ovary cells transfected with and expressing the m5 muscarinic receptor. Carbachol, a muscarinic receptor agonist, stimulated the release of arachidonic acid and inositol phosphates with similar potencies. In addition, carbachol and the phorbol ester, phorbol-12-myristate, 13-acetate (PMA), stimulated protein kinase C (PKC) activity. PMA potentiated the carbachol-stimulated release of arachidonic acid, but had no effect on release of inositol phosphates. Long-term preincubation with PMA or carbachol inhibited PKC activity and prevented carbachol-stimulated release of arachidonic acid, but not inositol phosphates, suggesting that release of arachidonic acid, but not release of inositol phosphates, required activation of PKC. Carbachol stimulated the release of [3H]lysophosphatidylcholine from [3H]choline prelabeled cells, suggesting that phospholipase A2 was involved in the release of arachidonic acid. The role of calcium in carbachol-stimulated release of arachidonic acid was also investigated. Carbachol stimulated a transient followed by a sustained increase in intracellular calcium. In the absence of extracellular calcium, the transient rise in intracellular calcium was maintained but the sustained increase in intracellular calcium and the release of arachidonic acid were abolished. Carbachol stimulated a sustained influx of 45Ca++. We conclude that the combined effect of PKC activation and sustained elevation of intracellular calcium, from an extracellular source, is essential for m5 muscarinic receptor activation of phospholipase A2.
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PMID:A transfected m5 muscarinic acetylcholine receptor stimulates phospholipase A2 by inducing both calcium influx and activation of protein kinase C. 212 20

Muscarinic receptors are involved in CNS neurotransmissions and have been shown to transduce their message by modulating cAMP, calcium, inositol phosphates, and more recently, by liberating arachidonic acid via phospholipase A1. We have previously shown that the alpha 1-adrenergic and 5-HT2 serotonergic neurotransmitter receptors cause the release of arachidonic acid from spinal cord and hippocampal neurons, respectively, in primary culture. In this study, we demonstrated a muscarinic receptor-mediated release of arachidonic acid in these two neural segments which occurred independent of phosphatidylinositol-specific phospholipase C. This release of arachidonic acid was neuronal (not glial) in origin and exhibited M1 muscarinic receptor pharmacology.
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PMID:Muscarinic receptors mediate the release of arachidonic acid from spinal cord and hippocampal neurons in primary culture. 212 13

It has been suggested that K+, Li+ and Fl- affect the function of G proteins coupled to signal transducing enzymes. Lithium, at concentrations which were found to reduce forskolin-stimulated adenylate cyclase activity, was without effect on either membrane [3H]phosphatidylinositol-4,5-bisphosphate ([3H]PIP2) hydrolysis measured in the absence or presence of 5'-guanylyl-imidodiphosphate (Gpp(NH)p), or (at greater than or equal to 2.3 mM Li+) upon the stimulation of rat cerebral cortical inositol phospholipid breakdown by either carbachol, noradrenaline or NaF measured at either 6 or 18 mM K+. The increase in assay [K+] greatly enhanced the inositol phospholipid response to carbachol but not to NaF. The inhibitory effect of carbachol upon forskolin-stimulated adenylate cyclase was not affected by raising the [K+] from 6 to 18 mM. At 6 mM K+ (both in the absence and presence of 15 microM AlCl3), the effects of carbachol and NaF upon inositol phospholipid breakdown were essentially additive, whereas at 18 mM K+, the breakdown response to carbachol (antagonised by pirenzepine with a pA2 value of 7.6) was similar in the absence and presence of NaF. It is concluded that in the rat cerebral cortex: (a) Li+ does not affect the function of either the phosphoinositide-specific phospholipase C enzyme itself or the Gp coupled to this enzyme; (b) the difference between the additivity between NaF and carbachol seen at different assay [K+] may reflect the K(+)-dependent changes in the tetrodotoxin-resistant and tetrodotoxin-sensitive pathways of carbachol stimulation of inositol phospholipid breakdown reported by Gurwitz and Sokolovsky (1987, Biochemistry 26, 633); and (c) the effect of K+ on muscarinic receptor-coupled inositol phospholipid breakdown is not found for muscarinic receptors inhibitorily coupled to adenylate cyclase. Evidence is also presented to suggest that NaF affects the dephosphorylation of the formed [3H]inositol polyphosphates.
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PMID:Effect of monovalent ions upon G proteins coupling muscarinic receptors to phosphoinositide hydrolysis in the rat cerebral cortex. 215 22

The mechanism of phospholipase C regulation by inhibitory receptors was analyzed both in intact and in permeabilized rat thyroid cells (FRTL5). In this system, the muscarinic agonist carbachol inhibited phospholipase C, as indicated by the decrease in the basal levels of inositol 1,4,5-trisphosphate as well as by the reduced adrenergic stimulation of phosphoinositol accumulation, which was paralleled by a fall in the cytosolic Ca2+ levels. This inhibition involved an M2 muscarinic receptor because it was abolished by atropine but not by the M1 antagonist pirenzepine. Cells pretreated with pertussis toxin were not responsive to carbachol, indicating the involvement of a guanine nucleotide-binding protein in this inhibitory process. This possibility was further evaluated in permeabilized cells, where the carbachol inhibition was shown to be completely dependent on GTP. Known second messengers were not involved in this inhibitory process since Ca2+, cAMP, and activators of protein kinases were not able to mimic or prevent the carbachol effect either in intact or in permeabilized FRTL5 cells. In this system, the phospholipases C and A2 are coupled to two classes of muscarinic receptors that display a different sensitivity to pertussis toxin. The carbachol inhibitory effect occurred under conditions that prevented activation of phospholipase A2, excluding a role of the arachidonic acid metabolism in this process. Taken together these data provide the strongest support to date that an inhibitory guanine nucleotide-binding protein sensitive to pertussis toxin can directly mediate receptor-induced inhibition of phospholipase C.
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PMID:Evidence that a guanine nucleotide-binding protein linked to a muscarinic receptor inhibits directly phospholipase C. 216 60

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