Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

The metabolism of inositol-containing phospholipids during insulin secretion was studied in rat islets of Langerhans preincubated with [3H]inositol to label their phospholipids. Glucose (20 mM) caused a rapid breakdown of phosphatidylinositol 4,5-bisphosphate and phosphatidylinositol 4-phosphate and an accumulation of inositol trisphosphate and inositol bisphosphate. This effect was maximal at 60s, did not require the presence of extracellular Ca2+, and was abolished by mannoheptulose (15 mM), but not by noradrenaline (1 microM). Mannose (20 mM) and DL-glyceraldehyde (10 mM) produced similar effects to those of glucose, but galactose (20 mM) and KCl (30 mM) were without effect. These results are compatible with the hypothesis that an early event in the stimulus-secretion coupling mechanism in the pancreatic B-cell is the rapid breakdown of polyphosphoinositides catalysed by phospholipase C. Moreover, they suggest that the breakdown of polyphosphoinositides is linked to sugar metabolism in the B-cell. This observation is important, since it demonstrates that events in a cell other than plasma-membrane receptor occupancy can promote polyphosphoinositide hydrolysis.
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PMID:Effect of glucose on polyphosphoinositide metabolism in isolated rat islets of Langerhans. 298 1

Stimulation of washed rat platelets with thrombin resulted in an increased turnover of phosphoinositides. Adrenaline and isoproterenol both inhibited thrombin-induced phosphatidic acid formation in a dose-dependent manner. Inhibitory responses of both compounds were blocked by a beta-adrenoceptor antagonist. However, isoproterenol was a more potent inhibitor than adrenaline. Addition of a selective alpha2-adrenoceptor antagonist potentiated the inhibitory effect of adrenaline up to the level observed with isoproterenol. Prestimulation of beta-adrenoceptors with isoproterenol, followed by addition of adrenaline (or noradrenaline) markedly diminished the inhibitory effect induced by the full beta-adrenoceptor agonist. Our results indicate that, in rat platelets, catecholamines are able to counteract, via alpha2-receptors, the beta-adrenoceptor-mediated inhibition of thrombin-induced phosphatidic acid formation. This suggests that catecholamines, by controlling cAMP level, may modulate phospholipase C activity and thereby platelet reactivity.
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PMID:Influence of adrenoceptors on thrombin-induced phosphoinositide metabolism in rat platelets. 300 Mar 62

Evidence exists that a norepinephrine/prostaglandin E2 (PGE2)/cAMP pathway is involved in the regulation of luteinizing hormone-releasing hormone (LHRH) secretion. The aim of the present experiments was to determine if release of LHRH from the immature rat hypothalamus could also be stimulated by activation of protein kinase C. Median eminences from 28-day-old female rats were incubated in vitro with either dioctanoylglycerol (a synthetic diacylglycerol that selectively activates protein kinase C in intact cells) or 4 beta-phorbol 12 beta-myristate 13 alpha-acetate (another protein kinase C activator). Both agents increased LHRH release, the response to dioctanoylglycerol being more pronounced than that to the phorbol ester. This direct activation of protein kinase C was not accompanied by changes in PGE2 formation. Activation of the PGE2/cAMP pathway by either norepinephrine, PGE2, or forskolin (a stimulator of adenylate cyclase) increased LHRH release. Dioctanoylglycerol or phorbol ester in conjunction with either norepinephrine, PGE2 or forskolin resulted in an additive effect on LHRH release suggesting coexistence of both pathways. Phospholipase C, which activates protein kinase C via formation of diacylglycerol, increased the release of both LHRH and PGE2. This suggests that an increase in endogenous phospholipase C activity caused by neurotransmitter inputs may lead to both activation of protein kinase C and PGE2 formation. Blockade of cyclooxygenase activity by indomethacin obliterated phospholipase C-induced PGE2 release. The same treatment reduced the LHRH response by only 50% indicating that protein kinase C activation can cause LHRH release in the absence of PGE2 synthesis. It is suggested that the median eminence of the rat possesses a protein kinase C-dependent pathway that is coupled positively to LHRH release and complements PGE2/cAMP-dependent mechanisms. Norepinephrine, however, does not appear to be the neurotransmitter responsible for activating the protein kinase C pathway. Simultaneous activation of both pathways may provide a mechanism by which a large increase in LHRH secretion occurs, such as in the afternoon of first proestrus.
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PMID:Activation of two different but complementary biochemical pathways stimulates release of hypothalamic luteinizing hormone-releasing hormone. 301 21

A possible participation of polyphosphoinositide metabolism in the excitation-contraction coupling in heart was investigated. Isolated rat ventricles prelabelled with myo-[2-3H]inositol were stimulated by conditions that increase mechanical activity. Both noradrenaline and carbachol increased the basal level of IP3, IP2 and IP by the activation of alpha 1-adrenergic and muscarinic receptors, respectively. Electrical stimulation accelerated inositol lipid degradation by phospholipase C thus enhancing the IP3 level as compared to quiescent ventricles. It is proposed that IP3 may be involved in excitation-contraction coupling in cardiac tissue.
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PMID:Inositol phosphate production following alpha 1-adrenergic, muscarinic or electrical stimulation in isolated rat heart. 301 74

In FRTL5 rat thyroid cells, norepinephrine, by interacting with alpha 1-adrenergic receptors, stimulates inositol phosphate formation, through activation of phospholipase C, and arachidonic acid release. Recent studies have shown that GTP-binding proteins couple several types of receptors to phospholipase C activation. The present study was undertaken to determine whether GTP-binding proteins couple alpha 1-adrenergic receptors to stimulation of phospholipase C activity and arachidonic acid release. When introduced into permeabilized FRTL5 cells, guanosine 5'-[gamma-thio]triphosphate (GTP[gamma-S]), which activates many GTP-binding proteins, stimulated inositol phosphate formation and arachidonic acid release. Neomycin inhibited GTP[gamma-S]-stimulated inositol phosphate formation but was without effect on GTP[gamma-S]-stimulated arachidonic acid release, suggesting that separate GTP-binding proteins mediate each process. In addition, pertussis toxin inhibited norepinephrine-stimulated arachidonic acid release but not norepinephrine-stimulated inositol phosphate formation. Norepinephrine-stimulated arachidonic acid release but not inositol phosphate formation was also inhibited by decreased extracellular calcium and by TMB-8, suggesting a role for a phospholipase A2. To confirm that arachidonic acid was released by a phospholipase A2, FRTL5 membranes were incubated with 1-acyl-2-[3H]arachidonoyl-sn-glycero-3-phosphocholine. GTP[gamma-S] slightly stimulated arachidonic acid release, whereas norepinephrine acted synergistically with GTP[gamma-S] to stimulate arachidonic acid release. The results show that phospholipase C and phospholipase A2 are activated by alpha 1-adrenergic agonists. Both phospholipases are coupled to the receptor by GTP-binding proteins. That coupled to phospholipase A2 is pertussis toxin-sensitive, whereas that coupled to phospholipase C is pertussis toxin-insensitive.
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PMID:Phospholipase A2 and phospholipase C are activated by distinct GTP-binding proteins in response to alpha 1-adrenergic stimulation in FRTL5 thyroid cells. 302 May 40

The ability of acute and chronic Li treatment to influence agonist and depolarization-induced phosphoinositide metabolism was examined in rat cerebral cortex slices. After acute treatment (6.75 mEq/kg, 18 hr), [3H]inositol phosphates accumulating in the presence of 100 microM carbachol (muscarinic), 31 mM K+, 300 microM histamine (H1) and 300 microM 5-hydroxytryptamine (5-hydroxytryptamine2) were reduced significantly even after preincubation of slices with 2.5 mM myo-inositol. However, the response to noradrenaline (100 microM) (alpha-1) was unaffected. In the absence of a drug-free period, chronic Li (2 weeks) maintained the reduced phosphoinositide response to receptor agonists and K+, and now even noradrenaline responses were reduced significantly. Dose-response curves revealed that reduction in the response to carbachol was due to a fall in maximal response and not in EC50. When rats were withdrawn from chronic treatment for 18 hr, the responses to carbachol were enhanced significantly with respect to untreated controls. Neither acute nor chronic Li treatments altered significantly the overall incorporation of [3H]inositol into phospholipids. Furthermore, Li treatment did not influence the activity of phospholipase C assayed in crude homogenates of cerebral cortex. In conclusion, acute and chronic Li treatments producing less than [1 mM] in cerebral tissue, severely disrupts phosphoinositide metabolism. Although such effects may well be secondary to inhibition of inositol-monophosphatase, they are not reversed by inositol and therefore do not appear to result from depleted phosphoinositides.
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PMID:Acute and chronic lithium treatments influence agonist and depolarization-stimulated inositol phospholipid hydrolysis in rat cerebral cortex. 303 63

We have studied the effect of gamma-aminobutyric acid (GABA) and other GABA-receptor agonists (3-aminopropanesulphonic acid and muscimol) on the noradrenaline-induced stimulation of polyphosphoinositide metabolism in rat hippocampal slices. Formation of water-soluble inositol phosphates, and polyphosphoinositide metabolism were studied in hippocampal slices prelabelled with [3H]myoinositol. Noradrenaline induced formation of inositol mono-, bis- and trisphosphate during 10 min incubation in the presence of lithium; activation of phospholipase C by noradrenaline was also reflected by the hydrolysis of polyphosphoinositides and by the increased metabolism of phosphatidylinositol. GABA-receptor agonists were unable to activate per se phospholipase C; however, when added together with a low concentration of noradrenaline, they greatly potentiated the noradrenaline-stimulated polyphosphoinositide metabolism. We conclude that GABA-receptor agonists potentiate the effect of noradrenaline on polyphosphoinositide turnover and we discuss the role of this neurotransmitter interaction in the physiology of the hippocampus.
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PMID:Phospholipase C activation induced by noradrenaline in rat hippocampal slices is potentiated by GABA-receptor stimulation. 303 26

Sodium fluoride inhibited carbachol, 5-hydroxytryptamine and noradrenaline stimulated formation of inositol phosphates in rat cerebral cortex. For example, carbachol (1 mM) induced a 337% increase of inositol phosphates above basal in 30 min which was reduced to 69% in the presence of NaF (10 mM). The IC50 for NaF was approximately 1.5 mM and inhibition was mediated by a decrease in maxima of the carbachol dose response curve rather than a shift to the right. This inhibitory action was not mimicked by NaBr or NaI, or by agents which increase cAMP. Inhibition did not appear to result from a toxic action of NaF since it had no effect on the formation of inositol phosphates by high K+; moreover, in higher concentrations NaF stimulated phospholipase C activity. Since fluoride ions are known to activate G-proteins in the concentrations used in this study, these results may indicate the existence of a novel G-protein linked to receptor inhibition of phospholipase C.
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PMID:Fluoride inhibits agonist-induced formation of inositol phosphates in rat cortex. 313 93

Two possible cellular pathways of catecholamines from the chromaffin vesicles of PC12 cells to the surrounding medium are explored in this study. The direct one circumventing the cytoplasm can be activated in alpha-toxin-permeabilized cells with micromolar levels of free Ca2+. Catecholamine metabolites formed in the cytoplasm (i.e., 3,4-dihydroxyphenylacetic acid and 3,4-dihydroxyphenylethanol) are neither formed nor released from the cells under these conditions. However, when vesicular catecholamines were discharged into the cytoplasm by addition of the ionophore nigericin, such metabolites are formed and released into the medium independent of Ca2+. Both types of experiments provide direct evidence for the operation of Ca2+-induced exocytosis of dopamine and noradrenaline in permeabilized PC12 cells. The Ca2+ dependence of dopamine or noradrenaline release, as measured by the determination of the endogenous catecholamines using the high-performance liquid chromatography technique, exhibits two different phases. One is already activated below 1 microM free Ca2+ and plateaus at 1-5 microM free Ca2+, while a second occurs in the presence of larger amounts of free Ca2+ (10-100 microM). Ca2+-induced catecholamine release from the permeabilized cells can be modulated in different ways: It is enhanced by the phorbol ester 12-O-tetradecanoylphorbol 13-acetate and the diacylglycerol 1-oleyl-2-acetylglycerol provided Mg2+/ATP is present, and it is inhibited by guanosine 5'-O-(3-thiotriphosphate). The latter effect is abolished by pretreatment of the cells with pertussis toxin but not by cholera toxin. Thus, it appears that Ca2+-induced exocytosis can be modulated via the protein kinase C system, as well as via GTP binding proteins.
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PMID:Ca2+-stimulated catecholamine release from alpha-toxin-permeabilized PC12 cells: biochemical evidence for exocytosis and its modulation by protein kinase C and G proteins. 332 8

It was the aim of the present study to find out if a common mechanism exists by which the vasoconstrictive hormones angiotension II, noradrenaline and 1-O-alkyl-2-acetyl-sn-glycero-3-phosphocholine (AGEPC) increase prostaglandin E2 (PGE2) synthesis in cultures of rat renal mesangial cells. Angiotension II, noradrenaline and AGEPC stimulated PGE2 synthesis and uptake of 45Ca2+ in cultured mesangial cells. Both of these effects could be completely suppressed by the calcium channel blocker verapamil. Angiotensin II, noradrenaline and AGEPC caused a rapid breakdown of phosphatidylinositol 4,5-bisphosphate with a concomitant increase of 1,2-diacylglycerol and inositol trisphosphate, indicating an activation of phospholipase C by these hormones. Addition of verapamil had no effect on the hormone-induced stimulation of phospholipase C. The synthetic analogue of diacylglycerol, 1-oleoyl-2-acetylglycerol, and the phorbol ester 12-O-tetradecanoylphorbol 13-acetate (TPA), both of which are known to stimulate protein kinase C, enhanced PGE2 synthesis. Chelation of extracellular calcium with EDTA or addition of verapamil abolished the effect of 1-oleoyl-2-acetylglycerol and phorbol ester on PGE2 synthesis. 1-Oleoyl-2-acetylglycerol and phorbol ester increased the uptake of 45Ca2+ by the cells in a dose-dependent manner and this effect could be blocked by verapamil. The entirety of these data leads us to suggest that vasoconstrictor-evoked synthesis of PGE2 in rat mesangial cells is mediated by the subsequent activation of phospholipase C and protein kinase C. The activation of protein kinase C by diacylglycerol is likely to be involved in the increase of the calcium permeability of the plasma membrane which is a prerequisite for PGE2 synthesis induced by vasoconstrictive hormones.
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PMID:Role of phospholipase C and protein kinase C in vasoconstrictor-induced prostaglandin synthesis in cultured rat renal mesangial cells. 345 63


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