Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:3.1.4.3 (phospholipase C)
 18,461 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The action of endothelins (Et) on cAMP formation was studied in endothelial cells from rat brain microvessels. Et-1 and Et-3 had no action by themselves. They both inhibited cholera toxin stimulated adenylate cyclase by about 50%. K0.5 values were observed at 2 nM and 40 nM for Et-1 and Et-3 respectively, indicating an involvement of a low affinity Et-3 receptor. Coupling to adenylate cyclase was achieved by a pertussis toxin sensitive mechanism. Another action of endothelins in brain capillary endothelial cells was to stimulate phospholipase C. This action involved a low affinity Et-3 receptor and a pertussis toxin insensitive mechanism. It is concluded that in brain capillary endothelial cells, ETA like receptors are coupled to phospholipase C and to adenylate cyclase via two different mechanisms.
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PMID:Endothelins inhibit adenylate cyclase in brain capillary endothelial cells. 165 65

The interaction of the IgG from Trypanosoma cruzi-infected mice (chagasic IgG) with cardiac cholinergic receptors by means of specific radioligand binding and by production of cholinergic-mediated cellular transmembrane signals was characterized. Chagasic IgG inhibited, in a noncompetitive manner, the binding of [3H]quinuclidinyl benzilate to the cardiac membrane. Moreover, chagasic IgG could modify all of the muscarinic cholinergic effects mediated by a G regulatory protein, i.e., decrement of atria contractility, inhibition of cAMP, or activation of the turnover of phosphoinositides via phospholipase C. The cGMP production was also increased by the antibody. The data demonstrated that chagasic IgG interacting with cardiac muscarinic cholinergic receptor triggers the biological effects associated with cholinergic-mediated cellular transmembrane signals. The implications of the results in the pathogenesis of Chagas' myocarditis are discussed.
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PMID:Chagasic IgG binding with cardiac muscarinic cholinergic receptors modifies cholinergic-mediated cellular transmembrane signals. 165 67

A monoclonal antibody (OKT3) directed against the T cell receptor (TcR)/CD3 molecular complex, as well as a protein kinase C (PKC) activator (phorbol 12-myristate 13-acetate, PMA) were added to a culture of tumoral Jurkat T cells, in order to precise the sequence of intracellular signals leading to T cell activation. The experiments were performed in the presence or in absence of various stimulators of adenylate cyclase (AC) such as forskolin (FK), cholera toxin (CT) or prostaglandin E2 (PGE2). OKT3 increased inositol phosphate (IP) production; in parallel, it induced a slight accumulation of cAMP. The effect was markedly potentiated in presence of FK or CT, and to a lesser extent in the presence of PGE2. FK stimulated adenylate cyclase of Jurkat cell membranes, but the effect was not potentiated by OKT3, suggesting that potentiation of cAMP accumulation requires intact cells and is not mediated by direct receptor coupling. On the other hand, elevated cAMP accumulation induced a negative feedback on IP production. The effect of OKT3 on cAMP was mimicked by A23187, a Ca2+ ionophore, and abolished in the absence of extracellular Ca2+. PMA had the same effect as OKT3 on basal or FK- and CT-induced accumulation of cAMP. In contrast, it inhibited the PGE2 effect on the cyclic nucleotide. After desensitization of PKC by pretreatment with a high concentration of PMA, the phorbol ester was no longer effective. Under those conditions, facilitation by OKT3 of FK-induced accumulation of cAMP was preserved, whereas potentiation by the monoclonal antibody of the PGE2 stimulation of AC was even enhanced. The data indicate that cAMP accumulation indirectly elicited by phospholipase C activation is, at least partly, mediated by IP-dependent Ca2+ mobilization, while PKC is preferentially effective as an inhibitor of PGE2 stimulation.
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PMID:Activation of the CD3/T cell receptor (TcR) complex or of protein kinase C potentiate adenylyl cyclase stimulation in a tumoral T cell line: involvement of two distinct intracellular pathways. 165 16

We recently reported the cloning of a novel alpha 1-adrenergic receptor (AR), the alpha 1CAR. By transient and stable expression of the alpha 1CAR and the previously cloned alpha 1BAR in COS-7 and HeLa cells, respectively, we have now compared their ability to interact with major signal-transduction pathways (including polyphosphoinositide hydrolysis, intracellular calcium, and cAMP metabolism), as well as their mammalian tissue localization. Both alpha 1C- and alpha 1BARs primarily couple to phospholipase C via a pertussis toxin-insensitive GTP-binding protein, leading to the release of calcium from intracellular stores. Even though alpha 1C- and alpha 1BARs activate polyphosphoinositide hydrolysis by similar biochemical mechanisms, the alpha 1CAR couples to phospholipase C more efficiently than does the alpha 1BAR; activation of the alpha 1CAR results in a 2-3-fold greater increase in inositol phosphates, compared with the alpha 1BAR. Both alpha 1AR subtypes can also increase intracellular cAMP, by a mechanism that does not involve direct activation of adenylyl cyclase. In agreement with ligand binding data, the agonist methoxamine and the antagonist WB4101 are 10-fold more potent in activating or inhibiting, respectively, the ability of the alpha 1CAR to stimulate phospholipase C, compared with the alpha 1BAR. In addition, methoxamine is almost a full agonist at the alpha 1CAR, whereas it can only weakly activate the alpha 1BAR. Tissue localization, using Northern blot analysis of total and poly(A)+-selected RNA from rabbit tissues, revealed striking mammalian species heterogeneity. As previously described, the alpha 1BAR is present in several rat tissues, including heart, liver, brain, kidney, lung, and spleen, whereas the alpha 1CAR is not present in any rat tissue studied. The alpha 1BAR is also present in rabbit aorta, heart, spleen, and kidney (and absent in rabbit liver), whereas the alpha 1CAR is present in rabbit liver. Our results indicate that the cloning and expression of different alpha 1AR subtypes represents a valuable tool to elucidate functional correlates of alpha 1AR heterogeneity.
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PMID:The alpha 1C-adrenergic receptor: characterization of signal transduction pathways and mammalian tissue heterogeneity. 165

In intact NIH 3T3 murine fibroblasts, prostaglandins (PGs) F2 alpha and E2 induce dose-dependent stimulation of inositol monophosphate generation. PGF2 alpha is greater than 50-fold more potent than PGE2 in eliciting this response. In streptolysin O-permeabilized NIH 3T3 cells, PGF2 alpha and PGE2 induced dose-dependent accumulations of inositol bis- and trisphosphates, which were dependent on the presence of the guanine nucleotide guanosine-5'-O-(3-thio)triphosphate (GTP gamma S) (10 microM). Pretreatment of cells for 16 hr with 100 nM PGF2 alpha resulted in a significant reduction of not only subsequent PGF2 alpha- and PGE2-induced but also GTP gamma S-induced stimulation of inositol phosphate formation in permeabilized cells. PGF2 alpha-induced accumulation of inositol phosphates was partially inhibited by pretreatment with pertussis toxin (1 microgram/ml, 4 hr). The inhibition by pertussis toxin was small but was not related to cyclic AMP formation, because forskolin, which activates adenylate cyclase, did not mimic pertussis toxin-induced inhibition. In the same cell line, PGF2 alpha and PGE2 induced a dose-dependent accumulation of cAMP and a dose-dependent potentiation of 0.5 microM forskolin-stimulated cAMP formation. PGF2 alpha and PGE2 were almost equipotent in eliciting both responses. However, PGF2 alpha was less efficacious than PGE2 and, in the presence of forskolin, PGF2 alpha at 10 microM induced an inhibitory effect on cAMP accumulation. Such inhibition may be related to PGF2 alpha-mediated phospholipase C activation and subsequent stimulation of protein kinase C, because the phorbol ester phorbol 12-myristate-13-acetate, which directly activates protein kinase C, also inhibited forskolin- and PGE2-induced cAMP accumulation. Pretreatment with PGF2 alpha for 16 hr did not reduce subsequent stimulation of cAMP accumulation by PGF2 alpha or PGE2. The results indicate that in NIH 3T3 cells two receptors for PGs are present, one that couples to adenylate cyclase, probably through Gs, and does not exhibit selectivity between PGF2 alpha and PGE2 and a second receptor that couples to phospholipase C through a guanine nucleotide-binding protein that is not sensitive to pertussis toxin pretreatment. The latter shows at least 40-fold selectivity towards PGF2 alpha over PGE2. Because long treatment with PGF2 alpha resulted in desensitization of the GTP gamma S-induced response, it is possible that long exposure to PGF2 alpha may down-regulate the guanine nucleotide-binding involved in phospholipase C signal transduction.
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PMID:Prostaglandin receptors in NIH 3T3 cells: coupling of one receptor to adenylate cyclase and of a second receptor to phospholipase C. 165 2

Tetanus and botulinum A neurotoxins inhibited exocytosis evoked by various secretagogues in intact and permeabilized chromaffin cells. The block of exocytosis in intact chromaffin cells due to botulinum A neurotoxin could partially be overcome by enhancing nicotine- and veratridine-induced stimulation, whereas the block due to tetanus toxin persisted under the same conditions. The receptor-mediated restoration of 3H-noradrenaline release was specific for nicotinic stimulation, because exocytosis did not occur during muscarinic stimulation. Depolarization of intact chromaffin cells with increasing concentration of K+ failed to restore exocytosis that had been blocked by either toxin. When chromaffin cells, treated with tetanus or botulinum A neurotoxins, were exposed to the Ca2(+)-ionophore A 23187 or permeabilized by staphylococcal alpha-toxin, Ca2(+)-stimulated exocytosis was also inhibited. The inhibition was unaffected by increasing concentrations of free Ca2+. Activation of proteinkinase C and of G-proteins by phorbolester and GMPPNHP, respectively, increased Ca2(+)-induced exocytosis in control cells as well as in cells treated with tetanus and botulinum A neurotoxins. The block, however, could not be relieved by these manipulations, and it could not be relieved by activating the cGMP or cAMP pathways with analoga of cyclic nucleotides, phosphodiesterases inhibitors, and forskolin either. It is concluded that nicotine and veratridine trigger a mechanism within the sequence of events leading to exocytosis that is located beyond the increase in intracellular Ca2(+)-concentration. This pathway may not be affected by botulinum A neurotoxin. The target of tetanus toxin is probably located even closer to the fusion process, i.e. beyond the step upon which botulinum A neurotoxin acts.
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PMID:Distinct targets for tetanus and botulinum A neurotoxins within the signal transducing pathway in chromaffin cells. 166 74

In pancreatic islets the bulk of phosphoinositide-specific phospholipase C (PI-PLC) activity was cytosolic. The soluble enzyme was activated by submicromolar concentrations of Ca2+, independent of calmodulin. It was unaffected by glucose and a series of glycolytic intermediates, including glyceraldehyde 3-phosphate. These observations lend support to the hypothesis that glucose-stimulated inositol triphosphate production in islets may be secondary to and provoked by glucose-mediated Ca2+ influx. All four pyridine nucleotides stimulated PI-PLC. Phosphatidylinositol hydrolysis was also stimulated by dioleine and arachidonic acid, and by the polyamines, putrescine and spermine. Phosphatidylinositol hydrolysis was inhibited by chlorpromazine, tetracaine, ATP, 5'-AMP, inorganic pyrophosphate and by phosphatidylinositol 4,5-bisphosphate, phosphatidylcholine and phosphatidylserine--but not affected by phosphatidylethanolamine. The cyclic nucleotides, cAMP and cGMP had no effect on the enzyme, and GTP-gamma-S did not activate the enzyme event at very low Ca2+ concentrations. The diglyceride lipase inhibitor, RHC 80267, and the cyclooxygenase inhibitor, indomethacin, had no effect on PI-PLC activity.
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PMID:Characteristics of phosphoinositide-specific phospholipase C activity from mouse pancreatic islets. 166 77

The cellular distribution (apical vs. basolateral) of parathyroid hormone (PTH) signal transduction systems in opossum kidney (OK) cells was evaluated by measuring the action of PTH on apically located transport processes (Na/Pi cotransport and Na/H exchange) and on the generation of intracellular messengers (cAMP and IP3). PTH application led to immediate inhibition of Na/H-exchange without a difference in dose/response relationships between apical and basolateral cell-surface hormone addition (half-maximal inhibition at approximately 5 x 10(-12) M). PTH required 2-3 hr for maximal inhibition of Na/Pi cotransport with a half-maximal inhibition occurring at approximately 5 x 10(-10) M PTH for basolateral application and approximately 5 x 10(-12) M for apical application. PTH addition to either side of the monolayer produced a dose-dependent production of both cAMP and IP3. Half-maximal activation of IP3 was at about 7 x 10(-12) M PTH and displayed no differences between apical and basolateral hormone addition, while cAMP was produced with a half maximal concentration of 7 x 10(-9) M for apical PTH application and 10(-9) M for basolateral administration. The PTH analog [nle8.18,tyr34]PTH(3-34), (nlePTH), produced partial inhibition of Na/Pi cotransport (agonism) with no difference between apical and basolateral application. When applied as a PTH antagonist, nlePTH displayed dose-dependent antagonism of PTH inhibition of Na/Pi cotransport on the apical surface, failing to have an effect on the basolateral surface. Independent of addition to the apical or basolateral cell surface, nlePTH had only weak stimulatory effect on production of cAMP, whereas high levels of IP3 could be measured after addition of this PTH analog to either cell surface. Also an antagonistic action of nlePTH on PTH-dependent generation of the internal messengers, cAMP and IP3, was observed; at the apical and basolateral cell surface nelPTH reduced PTH-dependent generation of cAMP, while PTH-dependent generation of IP3 was only reduced by nlePTH at the apical surface. Pertussis toxin (PT) preincubation produced an attenuation of both PTH-dependent inhibition of Na/Pi cotransport and 1P3 generation while producing an enhancement of PTH-dependent cAMP generation; these effects displayed no cell surface polarity, suggesting that PTH action through either adenylate cyclase or phospholipase C was transduced through similar sets of G-proteins at each cell surface.
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PMID:Apical and basolateral effects of PTH in OK cells: transport inhibition, messenger production, effects of pertussis toxin, and interaction with a PTH analog. 166 60

Arachidonic acid (AA)- or thromboxane A2/prostaglandin H2 (TXA2/PGH2) analog (STA2 and U-46619)-induced aggregations yielded a bell-shaped dose-response curve. The inhibitory mechanism by high concentrations of the agonists was examined. STA2 elevated cAMP level of platelet in a dose-dependent manner. And the aggregation was affected by metabolic inhibitors of cAMP. AA also rised cAMP level, and the rise was suppressed by indomethacin. These results indicate that the reduction of aggregation by high dose of the agonists is through cAMP elevation. The cAMP elevation was not suppressed by ruling out phospholipase C effects by chelation of cytoplasmic Ca2+ and inhibition of protein kinase C (PKC). These results suggest that the cAMP elevation is not due to activation of phospholipase C-linked TXA2/PGH2 receptor. 13-APA, an antagonist of TXA2/PGH2 receptor, suppressed the cAMP elevation, although ONO-3708, another antagonist, had no effect. As to be expected from this result, inhibitory effect of 13-APA on high STA2 level-induced aggregation was weaker than that of ONO-3708. The antagonists did not inhibit PGE1- or PGD2-induced cAMP elevation. These findings suggest that platelet has adenylate cyclase-linked TXA2/PGH2 receptor.
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PMID:Elevation of platelet cyclic AMP level by thromboxane A2/prostaglandin H2 receptor agonists. 166 27

The effect of the beta-adrenergic receptor agonist isoproterenol on guanine nucleotide-dependent phospholipase C (PLC) activity was examined in turkey erythrocyte membranes prepared from [3H]inositol-labeled turkey erythrocytes. In the presence of guanosine 5'-(gamma-thiotriphosphate) (GTP[S]) isoproterenol caused a dose-dependent stimulation of [3H]inositol phosphate ([3H]InsP) formation. The activation of PLC by GTP[S] occurred after an initial lag period of 1-2 min and was followed by a sustained rate of [3H]InsP formation which remained linear for 4-5 min. Isoproterenol decreased the lag period for GTP[S]-induced [3H]InsP formation and increased PLC activity at all time points following this lag. Consequently, isoproterenol shifted the dose-response curve for GTP[S] to the left (10-fold) and increased the maximal response. The EC50 value for isoproterenol-induced activation of PLC was 104 +/- 17 nM. Isoproterenol also potentiated GTP-dependent PLC activity but was ineffective in stimulating the enzyme in the presence of AIF4-. The PLC activation by isoproterenol was completely inhibited by propanolol and atenolol but was unaffected by prazosin or yohimbine. Although GTP[S] and isoproterenol could increase cAMP formation in this membrane preparation, the isoproterenol-induced stimulation of PLC occurred in the absence of ATP and was independent of cAMP formation. Furthermore, addition of cAMP, 8-bromo-cAMP, forskolin, or either the regulatory or catalytic subunits of cAMP-dependent protein kinase failed to stimulate [3H]InsP formation and had no effect on the responses elicited by GTP[S] and isoproterenol. Isoproterenol also stimulated [3H]InsP2 and [3H]InsP3 production in intact erythrocytes. Cholera toxin had no effect on [3H]InsP formation in the intact cells under conditions where it stimulated cAMP accumulation. In addition, the activation of PLC by GTP[S] and isoproterenol was unaffected in membranes prepared from cholera toxin-treated erythrocytes. These data demonstrate that stimulation of turkey erythrocyte beta-adrenergic receptors by isoproterenol results in a direct activation of guanine nucleotide-dependent PLC.
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PMID:Beta-adrenergic receptor-mediated phospholipase C activation independent of cAMP formation in turkey erythrocyte membranes. 167 88


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