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)

[3H]Myristic acid prelabeled LA-N-2 cells were exposed to varying concentrations of amyloid beta protein (25-35), from 20 to 250 micrograms/ml, and the activation of phospholipases A and D estimated. A progressive increase in phosphatidylethanol formation, a measure of phospholipase D activity, and of free fatty acid release, a measure of phospholipase A activity, was observed over a time-course of 60 min. [3H]Inositol prelabeled LA-N-2 cells were exposed to varying concentrations of A beta P, from 20 to 125 micrograms/ml, and phospholipase C activation was measured. There was an increased release of inositol phosphates in the presence of amyloid beta protein as a function of incubation time. The effects of adrenergic, metabotropic amino acid and bombesin antagonists on the A beta P mediated stimulation of phospholipase C activity was investigated. Propranolol, a beta adrenergic antagonist, 7-chloro-kynurenic acid, a metabotropic amino acid antagonist, and [Tyr4-D-Phe12]bombesin, a bombesin antagonist, blunted the A beta P stimulation of phospholipase C activity in [3H]inositol prelabeled LA-N-2 cells. This suggests that amyloid beta protein activation of phospholipase C may be receptor mediated. The phospholipase C inhibitor U 71322 prevented the activation of phospholipase C by A beta P. However, this activation was not effected by tocopherol, propylgallate, or vitamin C.
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PMID:Amyloid beta protein (25-35) stimulation of phospholipases A, C and D activities of LA-N-2 cells. 778 63

Cholinergic pathways serve important functions in learning and memory processes, and deficits in cholinergic transmission occur in Alzheimer disease (AD). A subset of muscarinic cholinergic receptors are linked to G-proteins that activate phospholipase C, resulting in the liberation of inositol trisphosphate and Ca2+ release from intracellular stores. We now report that amyloid beta-peptide (Abeta), which forms plaques in the brain in AD, impairs muscarinic receptor activation of G proteins in cultured rat cortical neurons. Exposure of rodent fetal cortical neurons to Abeta25-35 and Abeta1-40 resulted in a concentration and time-dependent attenuation of carbachol-induced GTPase activity without affecting muscarinic receptor ligand binding parameters. Downstream events in the signal transduction cascade were similarly attenuated by Abeta. Carbachol-induced accumulation of inositol phosphates (IP, IP2, IP3, and IP4) was decreased and calcium imaging studies revealed that carbachol-induced release of calcium was severely impaired in neurons pretreated with Abeta. Muscarinic cholinergic signal transduction was disrupted with subtoxic levels of exposure to AP. The effects of Abeta on carbachol-induced GTPase activity and calcium release were attenuated by antioxidants, implicating free radicals in the mechanism whereby Abeta induced uncoupling of muscarinic receptors. These data demonstrate that Abeta disrupts muscarinic receptor coupling to G proteins that mediate induction of phosphoinositide accumulation and calcium release, findings that implicate Abeta in the impairment of cholinergic transmission that occurs in AD.
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PMID:Amyloid beta-peptide disrupts carbachol-induced muscarinic cholinergic signal transduction in cortical neurons. 869 90

alpha-Secretase cleaves the full-length Alzheimer's amyloid precursor protein (APP) within the amyloid beta peptide sequence, thus precluding amyloid formation. The resultant soluble truncated APP is constitutively secreted. This nonamyloidogenic processing of APP is increased on stimulation of the phospholipase C/protein kinase C pathway by phorbol esters. Here we used C6 cells transfected with APP751 to examine whether the alpha-secretase cleavage is regulated by the adenylate cyclase signal transduction pathway. Forskolin, an activator of adenylate cyclase, inhibited both the constitutive and phorbol ester-stimulated secretion of nexin II (NXII), the secreted product of the alpha-secretase cleavage of APP751. At 1 microM, forskolin inhibited secretion of NXII by approximately 50% without affecting either the intracellular levels of total APP or the secretion of secretory alkaline phosphatase. In contrast, 1,9-dideoxyforskolin, an inactive analogue of forskolin, did not affect secretion of NXII. These results indicated that forskolin specifically inhibited the alpha-secretase cleavage of APP751. Forskolin treatment increased the intracellular concentration of cyclic AMP (cAMP), suggesting that the forskolin effects on APP cleavage may be mediated by cAMP. In support of this suggestion, both dibutyryl cAMP, a cAMP analogue, and isoproterenol, an activator of adenylate cyclase, also inhibited secretion of NXII. These data indicate that forskolin inhibition of the nonamyloidogenic cleavage of APP is mediated by the second messenger cAMP, which together with the protein kinase C signal transduction pathway modulates the secretory cleavage of APP.
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PMID:Intracellular cyclic AMP inhibits constitutive and phorbol ester-stimulated secretory cleavage of amyloid precursor protein. 876 18

A series of single alanine substituted analogs of amyloid beta peptide (25-35) were tested for their ability to activate the phospholipases of cultured LA-N-2 cells. Substitution of alanine for the amino acids 29-34 prevented the activation of phospholipases A2 and D. In addition substitution of alanine at 28 prevented phospholipase D but not phospholipase A2 activation. All the alanine substitutions, except for positions 33 and 35, blunted phospholipase C activations. There were no activations by scrambled amyloid beta peptide.
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PMID:Activation of LA-N-2 cell phospholipases by single alanine substitution analogs of amyloid beta peptide (25-35). 909 25

Amyloid beta protein (25-35) stimulates the phospholipase A2, C and D activation of LA-N-2 cells. Nordihydroguaiaretic acid reduced the phospholipase D activation by 30% (P < 0.008) and indomethacin reduced the phospholipase A2 activation by 58% (P < .001). There were no reductions of the amyloid beta protein activations by acetylsalicylic acid (ASA), gentisic acid, sulindac sulfone and acetaminophen. The activation of phospholipase C by amyloid beta protein was unaffected by these compounds.
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PMID:Indomethacin and nordihydroguaiaretic acid inhibition of amyloid beta protein (25-35) activation of phospholipases A2 and D of LA-N-2 cells. 912 21

The amyloid beta protein (25-35) stimulated appearance of 3H-inositol phosphates from [3H]inositol-prelabeled LA-N-2 cells was investigated. This stimulation was unaltered by extra- and intracellular calcium chelators in a calcium-free medium or by several protein kinase inhibitors. This phospholipase C stimulation by amyloid beta protein appeared to be pertussis toxin sensitive. It is possible that this phospholipase C stimulation by amyloid beta protein is a receptor-mediated process. This possibility is based on two related observations. The stimulation is ablated by the presence of conventional antagonists for metabotropic, adrenergic, and bombesin agonists. The IC50 values were 12 microM for propranolol, 15 microM for AP-3, and 25 nM for [Tyr4,D-Phe12]bombesin. Additional support comes from results of desensitization and resensitization experiments. Amyloid beta protein stimulation of phospholipase C was absent from LA-N-2 cells previously treated with norepinephrine, trans-1-amino-1,3-cyclopentanedicarboxylic acid (t-ACPD), bombesin, or amyloid beta peptide. In a similar manner, LA-N-2 cells previously treated with amyloid beta protein were no longer responsive to norepinephrine, t-ACPD, or bombesin. The responsiveness to amyloid beta protein returned, subsequent to a period of resensitization for the individual agonists. It is suggested that this observed amyloid beta protein stimulation of phospholipase C may be responsible for the elevated quantity of inositol seen in the brains of Alzheimer's disease patients.
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PMID:Amyloid beta protein (25-35) stimulation of phospholipase C in LA-N-2 cells. 920 17

There is mounting evidence indicating that overexpression or aberrant processing of amyloid precursor protein (betaAPP) is causally related to Alzheimer's disease. betaAPP is principally cleaved within the amyloid beta protein domain to release a large soluble ectodomain (betaAPPs) that has been known to have a wide range of trophic and protective functions. Activation of phospholipase C-coupled receptors has been shown to increase the release of betaAPPs through protein kinase C and calcium. Here we have examined whether nicotine can modulate the expression and processing of betaAPP in PC12 cells. Treatment of PC12 cells with nicotine increased the release of a carboxyl-terminally truncated, secreted form of betaAPP into the conditioned medium without affecting the expression level of betaAPP mRNA. The effect of nicotine on the secretion of betaAPPs is concentration (>50 microM)- and time (>2 hr)-dependent and attenuated by cotreatment with either mecamylamine, a specific nicotinic receptor antagonist, or EGTA, a calcium chelator, indicating calcium entry through the neuronal nicotinic acetylcholine receptor is essential in enhanced betaAPPs release by nicotine. However, nicotine did not significantly change the amyloid beta protein secretion from Swedish mutant betaAPP-transfected PC12 cells. These results imply that nicotinic receptor agonist might be beneficial in the treatment of Alzheimer's disease by not only supplementing the deficient cholinergic neurotransmission but also stimulating the release of betaAPPs.
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PMID:Enhanced release of secreted form of Alzheimer's amyloid precursor protein from PC12 cells by nicotine. 928 5

It has been established that amyloid beta peptide (AbetaP) activates phospholipase A2, phospholipase C and phospholipase D of LA-N-2 cells and other cell types. Nicotine in addition to being a cholinergic agonist, may be neuroprotective. We have investigated the ability of (-)nicotine to blunt the phospholipase activations by AbetaP in LA-N-2 cells. (-)Nicotine inhibits the AbetaP activation of phospholipase A2, with an IC50 of 76 microM and of phospholipase D with an IC50 of 252 microM. (-)Nicotine did not blunt the AbetaP activation of phospholipase C. These inhibitions of AbetaP activations were not observed with (+)nicotine or cotinine. The (-)nicotine inhibition of AbetaP activation of these two phospholipases was unaffected by hexamethonium and D-tubocurarine. There was no inhibition of the phospholipase A2 activity present in homogenates of LA-N-2 cells. Exposure of LA-N-2 cells to (-)nicotine for 2 h resulted in the blockade of phospholipase A2 activation by kainate and AbetaP but did not affect the ability of quisqualate and AbetaP to activate phospholipase D. These data suggest that if the nicotine inhibition of AbetaP activations is receptor occupancy mediated then it is by an atypical receptor type.
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PMID:(-)Nicotine inhibits the activations of phospholipases A2 and D by amyloid beta peptide. 968 79

The reperfusion of previously ischemic brain is associated with exacerbation of cellular injury. Reperfusion occasionally potentates release of intracellular enzymes, influx of Ca2+, breakdown of membrane phospholipids, accumulation of amyloid precursor protein or amyloid beta-(like) proteins, and apolipoprotein E. In this study, the effect of reperfusion injury on the activity of cerebral cortex enzymes acting on phosphatidyl [3H] inositol (PI) and [14C-arachidonoyl] PI was investigated. Moreover the effect of amyloid beta25-35 on PI degradation by phospholipase(s) of normoxic brain and subjected to ischemia-reperfusion injury was determined. Brain ischemia in gerbils (Meriones unguiculatus) was induced by ligation of both common carotid arteries for 5 min and then brains were perfused for 15 min, 2 h and 7 days. Statistically significant activation of enzyme(s) involved in phosphatidylinositol degradation in gerbils subjected to ischemia-reperfusion injury was observed. Nearly all gerbils showed a higher activity of cytosolic PI phospholipase C (PLC) at 15 min after ischemia. Concomitantly, the significant enhancement of the level of DAG and AA radioactivity at this short reperfusion time confirmed the active PI degradation by phospholipase(s) in cerebral cortex and hippocampus. After a prolonged reperfusion time of 7 days after ischemia, both cytosolic and membrane-bound forms of PI-PLC were activated. The question arises if alteration of membranes by the degradation of phospholipids occurring after an ischemic episode potentiates the effect of Abeta on membrane-bound enzymes. A neurotoxic fragment of amyloid, Abeta 25-35, incubated in the presence of endogenous Ca2+, increased significantly the PI-PLC activity of normoxic brain. In its non-aggregated form, Abeta 25-35 activates PI-PLC but in the aggregated form the enzymatic activity decreased. Thus, Abeta 25-35 exerts a similar effect on the membrane-bound PI-PLC from normoxic brain or subjected to ischemia reperfusion injury. We conclude that the degradation of phosphatidylinositol by cytosolic phosphoinositide-phospholipase C may contribute to the pathophysiology of delayed neuronal death following cerebral ischemia. Thus, a specific inhibitor of this enzyme(s) may offer therapeutic strategies to protect the brain from damage triggered by ischemia. Ischemia-reperfusion injury had no effect on Abeta-evoked alterations of synaptic plasma membrane-bound PI-PLC.
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PMID:Alteration of phosphoinositide degradation by cytosolic and membrane-bound phospholipases after forebrain ischemia-reperfusion in gerbil: effects of amyloid beta peptide. 1049 23

Phosphoinositide-specific phospholipase C (PLC) is a key enzyme in signal transduction. A subset of muscarinic cholinergic receptors are linked to G-proteins that activate phospholipase C. Cholinergic pathways are important in learning and memory, and deficits in cholinergic transmission have been implicated in Alzheimer's disease (AD). AD is also associated with increased beta-amyloid plaques. In the present study, we have investigated the effect of the amyloid beta (A beta) synthetic peptide homologous to residue 25-35 of A beta in nonaggregated and aggregated forms on the degradation of inositol phospholipids. Synaptic plasma membranes (SPM) and the cytosolic fraction from rat brain cortex served as a source of enzymes. The studies were carried out with radioactive inositol phospholipids in the presence of endogenous and 2 mM CaCl2. The enzyme(s) activity was evaluated by determination of the product formation of [3H]inositol-1-phosphate (IP1) or [3H]inositol-1,4,5-trisphosphate (IP3). Results show that the PI-PLC activity was significantly higher in cytosol compared to SPM, and this enzyme was stimulated by 2 mM CaCl2, but not by GTPgammaS or carbachol, a cholinergic receptor agonist. Activity of the SPM-bound PIP2-PLC was similar to that in cytosol and was not activated by 2 mM CaCl2. The SPM PIP2-PLC was significantly stimulated by GTPgammaS together with the cholinergic agonist, carbachol. Fresh-water-soluble A beta 25-35 activated PI-PLC in SPM markedly by two- to threefold, but this effect was absent in the presence of 2 mM CaCl2. Moreover, A beta 25-35 had no effect on basal PIP2-PLC activity and cytosolic PI-PLC and PIP2-PLC. The aggregated form of A beta 25-35 significantly inhibited PIP2-PLC only in the presence of endogenous CaCl2. It also inhibited the carbachol and GTP(gamma)S-stimulated PIP2-PLC. Our findings show that depending on the aggregation state and Ca2+ concentration, A beta modulates phosphoinositide degradation differently and exclusively in brain synaptic plasma membranes. Our data suggested that aggregated A beta peptide may be responsible for the significant impairment of phosphoinositide signaling found in brain membranes during AD.
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PMID:Amyloid beta peptide 25-35 modulates hydrolysis of phosphoinositides by membrane phospholipase(s) C of adult brain cortex. 1052 54

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