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)

During active intestinal inflammation polymorphonuclear leukocytes (PMN) transmigrate into the lumen and release 5'-AMP (J. Clin. Invest. 1993. 91:2320-2325). 5'-AMP is converted to adenosine by the apical epithelial surface with subsequent activation of electrogenic Cl- secretion (the basis of secretory diarrhea) via apical A2b adenosine receptors (J. Biol. Chem. 1995. 270:2387-2394). Using a polarized human intestinal epithelial monolayer (T84), we now characterize the basis of the observed conversion of 5'-AMP to adenosine required for this paracrine signaling pathway. An inhibitor of the ecto-5'-nucleotidase CD73, alpha, beta-methylene ADP (AOPCP), inhibited epithelial Cl- secretory responses to 5'-AMP, but not to authentic adenosine. Confocal immunofluorescent microscopy revealed CD73 to be surface expressed on both model and natural human intestinal epithelia. Expression was about sixfold greater on the apical cell surface as assessed biochemically by selective cell surface biotinylation, and morphologically by immunofluorescence. Treatment with phosphotidylinositol specific-phospholipase C (PI-PLC) released 95% of apical CD73, indicating that the intestinal CD73 possesses a glycosylphosphatidylinositol (GPI) anchor. Neither adenosine nor 5'-AMP stimulation induced intact T84 cells to shed surface CD73. The bulk of apical CD73 ( approximately 60%) was released from the cell surface by treatment with 1% Triton X-100 (TX-100) at 4 degrees C, but such release was not affected by pretreatment with ligand or by prior, antibody-mediated cross-linking of CD73. Subsequent analyses showed that the subpool of CD73 released by TX-100 at 4 degrees C was not truly solubilized, but rather represented TX-100-induced release of CD73-containing membrane fragments. These membrane fragments displayed light density on sucrose gradients characteristic of detergent insoluble glycosphingolipid-rich membrane domains (DIGs)/ caveolae, were solubilized by n-octyl glucoside (NOG, 1%) at 4 degrees C, and contained caveolin. These data indicate that human intestinal epithelia express CD73, which is apically polarized and targeted to microdomains with DIGs/caveolae characteristics. CD73 likely participates in translating paracrine, PMN-derived 5'-AMP signals to the authentic effector adenosine. These studies define CD73 as central to PMN-mediated intestinal Cl- secretion, the major directacting mechanism by which PMN induce intestinal epithelial Cl- secretion.
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PMID:Surface expression, polarization, and functional significance of CD73 in human intestinal epithelia. 916 88

The nonapeptide bradykinin (BK) plays an important role in the production of eicosanoids within the collecting duct of the nephron. We have shown previously that BK can initiate a complex signaling cascade that causes the release of arachidonic acid (AA) from MDCK-D1 cells, a canine cell line of distal tubule and collecting duct origin. This release is dependent upon early activation of specific upstream enzymes, including phosphatidylcholine-specific phospholipase C (PC-PLC) and phospholipase D (PLD). Ultimately, the release of this precursor of eicosanoids is effected by recruitment of the cytoplasmic 85-kDa form of phospholipase A2 (cPLA2). This enzyme is thought to translocate from the cytosol to cellular membranes following stimulation by agonists that cause elevations of intracellular calcium ([Ca2+]i). The present study was undertaken to examine the dependence of AA release upon Ca2+ influx in BK-stimulated MDCK cells. For this purpose, cells were incubated with 1 microM BK for 1 min and lysed in Ca(2+)-free Tris buffer. The high-speed 100000 x g pellet was extracted with 10 mM octyl glucoside and the cPLA2 protein level was determined. Previous results from our laboratory indicated that BK induced a 1.81-fold increase in cPLA2 activity associated with cellular membranes, while in the present study, Western blotting with a specific cPLA2 antibody demonstrated a similar elevation in protein detected with these same membranes. A selective inhibitor of receptor-mediated Ca2+ entry, SK&F 96365, was used to resolve the role of extracellular Ca2+ in BK's ability to evoke AA release. Pretreatment of cells with SK&F 96365 resulted in an inhibition of greater than 60% of the BK response. Taken together, these results strongly suggest that BK-mediated AA release in MDCK-D1 cells is at least partly contingent upon translocation of cPLA2 to membranes initiated by an influx of extracellular Ca2+.
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PMID:Bradykinin-induced translocation of cytoplasmic phospholipase A2 in MDCK cells. 927 29

Here we show that brain-derived neurotrophic factor (BDNF) stimulates both the phosphorylation of the Ca2+/calmodulin-dependent protein kinase 2 (CaMK2) and its kinase activity in rat hippocampal slices. In addition, we find that: (i) the time course of BDNF action is not accompanied by a change in the spectrum of either alpha- and beta-subunits of CaMK2 detected by immunoblotting; (ii) both treatment of solubilized CaMK2 with alkaline phosphatase and treatment of immunoprecipitated CaMK2 with protein phosphatase 1 reverse phosphorylation and activation of the kinase; (iii) phospholipase C inhibitor D609 and intracellular Ca2+ chelation by 1,2-bis-(o-aminophenoxy)ethane-N,N,N",N',-tetracetic acid tetra(acetoxymethyl)ester or 8-(diethylamino)octyl-3,4,5-trimethoxybenzoate but not omission of Ca2+ or Ca2+ chelation by EGTA, abolish the stimulatory effect of BDNF on phosphorylation and activation of CaMK2. These results strongly suggest that the conversion of CaMK2 into its active, autophosphorylated form, but not its concentration, is increased by BDNF via stimulation of phospholipase C and subsequent intracellular Ca2+ mobilization.
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PMID:Brain-derived neurotrophic factor increases Ca2+/calmodulin-dependent protein kinase 2 activity in hippocampus. 930 59

In normal subjects and in patients with cardiovascular disease, plasma triglycerides are positively correlated with plasminogen activator inhibitor type 1 (PAI-1) levels. Moreover, in vitro studies indicate that VLDLs induce PAI-1 synthesis in cultured cells, ie, endothelial and HepG2 cells. However, the signaling pathways involved in the effect of VLDL on PAI-1 synthesis have not yet been investigated. We report that VLDLs induce a signaling cascade that leads to an enhanced secretion of PAI-1 by HepG2 cells. In myo-[(3)H]inositol-labeled HepG2 cells, VLDL (100 microg/mL) caused a time-dependent increase in [(3)H]inositol phosphates, the temporal sequence being tris>bis>monophosphate. VLDL brought about a time-dependent stimulation of membrane-associated protein kinase C (PKC) activity and arachidonate release. Finally, VLDL stimulated mitogen-activated protein (MAP) kinase, and this effect was reduced by 1-(5-isoquinolinylsulfonyl)-2-methylpiperazine (H7), which suggests that PKC plays a pivotal role in MAP kinase phosphorylation. VLDL-induced PAI-1 secretion was completely prevented by U73122, a specific inhibitor of phosphatidylinositol-specific phospholipase C, by H7 or by PKC downregulation, and by mepacrine (all P<0.01 versus VLDL-treated cells). 3,4,5-Trimethoxybenzoic acid 8-(diethylamino)-octyl ester, which prevents Ca2+ release from intracellular stores, inhibited VLDL-induced PAI-1 secretion by 60% (P<0.05), and the MAP kinase/extracellular signal-regulated kinase kinase (MEK) inhibitor PD98059 completely suppressed both basal and VLDL-induced PAI-1 secretion. These data demonstrate that VLDL-induced PAI-1 biosynthesis results from a principal signaling pathway involving PKC-mediated MAP kinase activation.
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PMID:Very low density lipoprotein-mediated signal transduction and plasminogen activator inhibitor type 1 in cultured HepG2 cells. 1041 3

HIV-1 infection commonly leads to neuronal cell death and a debilitating syndrome known as AIDS-related dementia complex. The HIV-1 protein Tat is neurotoxic, and because cell survival is affected by the intracellular calcium concentration ([Ca2+]i), we determined mechanisms by which Tat increased [Ca2+]i and the involvement of these mechanisms in Tat-induced neurotoxicity. Tat increased [Ca2+]i dose-dependently in cultured human fetal neurons and astrocytes. In neurons, but not astrocytes, we observed biphasic increases of [Ca2+]i. Initial transient increases were larger in astrocytes than in neurons and in both cell types were significantly attenuated by antagonists of inositol 1,4,5-trisphosphate (IP3)-mediated intracellular calcium release [8-(diethylamino)octyl-3,4,5-trimethoxybenzoate HCI (TMB-8) and xestospongin], an inhibitor of receptor-Gi protein coupling (pertussis toxin), and a phospholipase C inhibitor (neomycin). Tat significantly increased levels of IP3 threefold. Secondary increases of neuronal [Ca2+]i in neurons were delayed and progressive as a result of excessive calcium influx and were inhibited by the glutamate receptor antagonists ketamine, MK-801, (+/-)-2-amino-5-phosphonopentanoic acid, and 6,7-dinitroquinoxaline-2,3-dione. Secondary increases of [Ca2+]i did not occur when initial increases of [Ca2+]i were prevented with TMB-8, xestospongin, pertussis toxin, or neomycin, and these inhibitors as well as thapsigargin inhibited Tat-induced neurotoxicity. These results suggest that Tat, via pertussis toxin-sensitive phospholipase C activity, induces calcium release from IP3-sensitive intracellular stores, which leads to glutamate receptor-mediated calcium influx, dysregulation of [Ca2+]i, and Tat-induced neurotoxicity.
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PMID:Involvement of inositol 1,4,5-trisphosphate-regulated stores of intracellular calcium in calcium dysregulation and neuron cell death caused by HIV-1 protein tat. 1050 Nov 79

In order to know whether the histopathological changes of liver, which accompany muscular dystrophy, affect the synthesis of cholinesterases, the distribution and glycosylation of acetylcholinesterase (AChE) and butyrylcholinesterase (BuChE) forms in normal (NL) and dystrophic Lama2(dy) mouse liver (DL) were investigated. About half of liver AChE, and 25% of BuChE were released with a saline buffer (fraction S(1)), and the rest with a saline-Brij 96 buffer (S(2)). Abundant light (G(2)(A) and G(1)(A)) AChE (87%) and BuChE (93%) forms, and a few G(4)(H) and G(4)(A) ChE species were identified in liver. The dystrophic syndrome had no effect on solubilization or composition of ChE forms. Most of the light AChE and BuChE species (>95%) were bound by octyl-Sepharose, while most light AChE forms (80%), but not BuChE isoforms (15%), were retained in phenyl-agarose. About half of the AChE dimers lost their amphiphilic anchor with phosphatidylinositol-specific phospholipase C (PIPLC), and the fraction of PIPLC-resistant species increased in DL. AChE T and R transcripts were detected by reverse transcriptase-polymerase chain reaction (RT-PCR) of liver RNA. ChE components of liver, erythrocyte, and plasma were distinguished by their amphiphilic properties and interaction with lectins. The dystrophic syndrome increased the liver content of the light AChE forms with Lens culinaris agglutinin (LCA) reactivity. The abundance of ChE tetramers in plasma and their small amount in liver suggest that after their assembly in liver they are rapidly secreted, while the light species remain associated to hepatic membranes.
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PMID:Muscular dystrophy alters the processing of light acetylcholinesterase but not butyrylcholinesterase forms in liver of Lama2(dy) mice. 1100 95

Neutrophils stimulated with fMLP or a variety of other chemoattractants that bind to serpentine receptors coupled to heterotrimeric G proteins exhibit rapid activation of two p21-activated protein kinases (Paks) with molecular masses of approximately 63 and 69 kDa (gamma- and alpha-Pak). Previous studies have shown that products of phosphatidylinositol 3-kinase and tyrosine kinases are required for the activation of Paks. We now report that a variety of structurally distinct compounds which interrupt different stages in calcium/calmodulin (CaM) signaling block activation of the 63- and 69-kDa Paks in fMLP-stimulated neutrophils. These antagonists included selective inhibitors of phospholipase C (1-[6-((17beta-3-methoxyestra-1,3,5(10)-trien-17-yl)amino)hexyl]-1H-pyrrole-2,5-dione), the intracellular Ca(2+) channel (8-(N,N-diethylamino)-octyl-3,4,5-trimethoxybenzoate), CaM (N-(6-aminohexyl)-5-chloro-1-naphthalenesulfonamide; N-(4-aminobutyl)-5-chloro-1-naphthalenesulfonamide; trifluoperazine), and CaM-activated protein kinases (N-[2-(N-(chlorocinnamyl)-N:-methylaminomethyl)phenyl]-N-[2-hydroxyethyl]-4-methoxybenzenesulfonamide). This inhibition was dose-dependent with IC(50) values very similar to those that interrupt CaM-dependent reactions in vitro. In contrast, less active analogues of these compounds (1-[6-((17beta-3-methoxyestra-1,3,5(10)-trien-17-yl)amino)hexyl]-2,5-pyrrolidinedione; N-(6-aminohexyl)-1-naphthalenesulfonamide; N-(4-aminobutyl)-1-naphthalenesulfonamide; promethazine; 2-[N-(4-methoxybenzenesulfonyl)]amino-N-(4-chlorocinnamyl)-N-methylbenzyl-amine]) did not affect activation of Paks in these cells. CaM antagonists (N-(6-aminohexyl)-5-chloro-1-naphthalenesulfonamide; trifluoperazine), but not their less-active analogues (N-(6-aminohexyl)-1-naphthalenesulfonamide; promethazine), were also found to block activation of the small GTPases Ras and Rac in stimulated neutrophils along with the extracellular signal-regulated kinases. These data strongly suggest that the Ca(2+)/CaM complex plays a major role in the activation of a number of enzyme systems in neutrophils that are regulated by small GTPases.
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PMID:Antagonists of calcium fluxes and calmodulin block activation of the p21-activated protein kinases in neutrophils. 1116 Mar 27

Ehrlichia chaffeensis, a bacterium that cannot survive outside the eukaryotic cell, proliferates exclusively in human monocytes and macrophages. In this study, signaling events required for ehrlichial infection of human monocytic cell line THP-1 were characterized. Entry and proliferation of E. chaffeensis in THP-1 cells were significantly blocked by various inhibitors that can regulate calcium signaling, including 8-(diethylamino)octyl-3,4,5-trimethoxybenzoate and 2-aminoethoxydiphenyl borate (intracellular calcium mobilization inhibitors), verapamil and 1-[beta-[3-(4-methoxyphenyl)propyl]-4-methoxyphenethyl]-1H-imidazole (SKF-96365) (calcium channel inhibitors), neomycin and 1-(6-[[17beta-3-methoxyestra-1,3,5(10)-trien-17-yl]amino]hexyl)-1H-pyrrole-2,5-dione (U-73122) (phospholipase C [PLC] inhibitors), monodansylcadaverine (a transglutaminase [TGase] inhibitor), and genistein (a protein tyrosine kinase [PTK] inhibitor). Addition of E. chaffeensis resulted in rapid increases in the level of inositol 1,4,5-trisphosphate (IP(3)) and the level of cytosolic free calcium ([Ca(2+)](i)) in THP-1 cells, which were prevented by pretreatment of THP-1 cells with inhibitors of TGase, PTK, and PLC. E. chaffeensis induced rapid tyrosine phosphorylation of PLC-gamma2, and the presence of a PLC-gamma2 antisense oligonucleotide in THP-1 cells significantly blocked ehrlichial infection. Furthermore, tyrosine-phosphorylated proteins and PLC-gamma2 were colocalized with ehrlichial inclusions, as determined by double-immunofluorescence labeling. The heat-sensitive component of viable E. chaffeensis cells was essential for these signaling events. E. chaffeensis, therefore, can recruit interacting signal-transducing molecules and induce the following signaling events required for the establishment of infection in host cells: protein cross-linking by TGase, tyrosine phosphorylation, PLC-gamma2 activation, IP(3) production, and an increase in [Ca(2+)](i).
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PMID:Rapid activation of protein tyrosine kinase and phospholipase C-gamma2 and increase in cytosolic free calcium are required by Ehrlichia chaffeensis for internalization and growth in THP-1 cells. 1179 24

Mouse resident peritoneal macrophages loaded with Fluo-3 were examined for changes in cytosolic calcium concentration ([Ca2+]i) after stimulation with gamma-hexachlorocyclohexane (Lindane or gamma-HCCH). These studies, realized on macrophage populations, or single cells, by digital imaging microscopy, sought to determine the role of calcium influx on cyclical changes according to maturation stages of macrophages. Single cell analysis of [Ca2+]i changes in macrophages, after gamma-HCCH exposure in 600 microM extracellular calcium, demonstrated that: 1) these [Ca2+]i variations were asynchronous oscillations with the same frequency (1.7 min-1), and 2) these [Ca2+]i variations in macrophages were not at the same [Ca2+]i level. This heterogeneity could be correlated to a cell size partition of the macrophage population (10.1 +/- 0.44 and 11.45 +/- 0.43 microns). In the presence of 100 microM calcium, gamma-HCCH induced a calcium influx into the two subpopulations, but the calcium oscillations appeared only in small macrophages. In the largest ones, [Ca2+]i slowly decreased back down to the basal level. The cell size variation could be correlated to a phenotypic heterogeneity, linked to the differenciation stage of the cell. Peroxydase activity showed that small macrophages were in fact exudate macrophages and the largest ones were resident macrophages. Inhibition of the oscillatory patterns by a decrease in the extracellular calcium concentration ([Ca2+]ext) or by lanthanum chloride (LaCl3) addition is indicative of the important role of calcium influx in the triggering of oscillations. The calcium influx was transient and induced inositol phosphate (InsP3) production in macrophages. The maintainance of these calcium oscillations depended on calcium mobilization from intracellular calcium stores by InsP3, since neomycin and 8-(diethylamino) octyl 3,4,5-trimethoxybenzoate (TMB-8) abolished the oscillations. gamma-HCCH induced a transient calcium entry which triggered phospholipase C activation and the associated [Ca2+]i oscillations. However, we showed that differences in cell responses were observed in relationship with the differentiation stage of the mouse peritoneal macrophages, and with the extracellular calcium concentration.
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PMID:[Calcium oscillations induced by lindane in peritoneal macrophages of mice: control by the maturation stage of the macrophage]. 1183 66

Hyphal extension in fungi requires a tip-high Ca(2+) gradient, which is generated and maintained internally by inositol (1,4,5)-trisphosphate (IP(3))-induced Ca(2+) release from tip-localized vesicles and subapical Ca(2+) sequestration. Using the planar bilayer method we demonstrated the presence of two types of IP(3)-activated Ca(2+) channels in Neurospora crassa membranes with different conductances: one low (13 picosiemens), the other high (77 picosiemens). On sucrose density gradients the low conductance channel co-localized with endoplasmic reticulum and plasma membrane, and the high conductance channel co-localized with vacuolar membranes. We correlated the effect of inhibitors on channel activity with their effect on hyphal growth and Ca(2+) gradients. The inhibitor of IP(3)-induced Ca(2+) release, 2-aminoethoxidiphenylborate (2-APB), inhibits both channels, while heparin, 8-(N,N-diethylamino)-octyl-3,4,5-trimethoxybenzoate, hydrochloride (TMB-8) and dantrolene inhibit only the large conductance channel. Because 2-APB inhibits hyphal growth and dissipates the tip-high cytosolic [Ca(2+)] gradient, whereas heparin microinjection, TMB-8 and dantrolene treatments do not affect growth, we suggest that the small conductance channel generates the obligatory tip-high Ca(2+) gradient during hyphal growth. Since IP(3) production must be catalyzed by tip-localized phospholipase C, we show that a number of phospholipase C inhibitors [neomycin, 1-[6-((17beta-3-methoxyestra-1,3,5(10)-trien-17-yl)amino)hexyl]- 1H-pyrrole-2,5-dione (U-73122) (but not the inactive pyrrolidine U-73343), 3-nitrocoumarin] inhibit hyphal growth and affect, similarly to 2-APB, the location of vesicular Ca(2+) imaged by chlortetracycline staining.
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PMID:An IP3-activated Ca2+ channel regulates fungal tip growth. 1243 87

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