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 5-HT1 receptor family comprises five different pharmacologic subtypes, designated 5-HT1A, 5-HT1B, 5-HT1C, 5-HT1D, and 5-HT1E, whose common property is to bind 5-HT with nanomolar affinity. Recent investigations with molecular biology approaches led to the cloning and sequencing of 5-HT1A receptors in the rat and in the human, and of the 5-HT1C receptor in the rat. Although the 5-HT1A and 5-HT1C protein binding subunits exhibit the same structure with seven hydrophobic transmembrane domains, an extracellular N terminal and an intracellular C tail, their respective amino-acid sequences are markedly different. Indeed, a higher degree of sequence homology is found between the 5-HT1C and 5-HT2 receptors than between the former and 5-HT1A receptors, suggesting that the 5-HT1C subtype in fact belongs to the 5-HT2 class of central 5-HT receptors. All other 5-HT1 receptor subtypes are negatively coupled to adenylyl cyclase, whereas the 5-HT1C subtype, like 5-HT2 receptors, is positively coupled to phospholipase C. The respective regional distributions and regulatory properties, as well as pending questions regarding the ultrastructural localization, synthesis, mutual interactions, and axonal flow of 5-HT1 receptor subtypes, are also discussed.
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PMID:The main features of central 5-HT1 receptors. 207 71

Thromboxane A2 (TXA2) induces platelet shape change, secretion, and aggregation. Using a novel TXA2/prostaglandin endoperoxide receptor antagonist, [1r-[1 alpha(Z),2 beta,3 beta,5 alpha]]-(+)-7-[5-[[(1,1'- biphenyl)-4-yl]methoxy]-3-hydroxy-2-(1-piperidinyl) cyclopentyl]-4-heptenoic acid hydrochloride (GR32191), we demonstrate that these responses are mediated by at least two receptor-effector systems. GR32191 non-competitively inhibited platelet aggregation to the TXA2 mimetics, (15S)-hydroxy-11,9-(epoxymethano) prostadienoic acid (U46619) and [1S-(1 alpha,2 beta(5Z),3 alpha (1E,-3S), 4 alpha)]-7-[3-(3-hydroxy-4-(p-iodophenoxy)-1-butenyl)7- oxabicyclo[2.2.1]hept-2yl]-5-heptenoic acid by binding irreversibly to a TXA2/prostaglandin endoperoxide receptor. Dissociation of [3H]GR32191 from human platelets demonstrated two specific binding sites, one which was rapidly dissociating and a site to which binding was essentially irreversible. Stimulation by U46619 of platelets incubated with GR32191 and subsequently washed to expose the reversible binding site failed to aggregate or to secrete [3H]5-hydroxy-tryptamine; formation of inositol phosphates and activation of protein kinase C were markedly suppressed. In contrast, platelet shape change and calcium stimulation remained at 90% of control. Furthermore, stimulation of the reversible binding site with U46619 induced aggregation in the presence of ADP, demonstrating its functional importance in amplifying the response to other agonists. These data suggest that TXA2 mediates platelet activation through at least two receptor-effector systems; one linked to phospholipase C activation, resulting in platelet aggregation and secretion and a second site mediating an increase in cytosolic calcium and platelet shape change.
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PMID:The response to thromboxane A2 analogues in human platelets. Discrimination of two binding sites linked to distinct effector systems. 213 29

5-Hydroxytryptamine (5-HT) stimulates the rate and force of cardiac contraction. However, the molecular mechanisms of 5-HT actions on the heart are unknown. We examined effects of 5-HT on phospholipase C-mediated hydrolysis of phosphoinositides and its regulation in cultured fetal mouse ventricular myocytes labeled with [3H]inositol. Accumulation of inositol monophosphate, inositol bisphosphate, and inositol trisphosphate was assessed after stimulation with 5-HT, catecholamines, and AlF4-. Inositol bisphosphate and trisphosphate reached a peak at 15 minutes by 5-HT stimulation and at 30 minutes by AlF4- stimulation. Inositol monophosphate accumulated linearly for at least 30 minutes in the presence of LiCl. The 5-HT effect was dose dependent, and the threshold concentration was 0.1 microM with the half-maximum effective concentration of 1 microM. Ketanserin in nanomolar concentrations inhibited the phospholipase C reaction by 100 microM 5-HT with the half-maximum inhibitory concentration of 0.5 nM. Pertussis toxin (100-1,000 ng/ml) did not influence the phospholipase C reaction by 5-HT, but it partially inhibited the reaction by AlF4-. Protein kinase C-activating phorbol esters like 12-O-tetradecanoylphorbol 13-acetate (TPA) and phorbol 12,13-dibutyrate, but not 4 alpha-phorbol 12,13-didecanoate, which is inactive for protein kinase C, completely inhibited the reaction by 5-HT; TPA showed 30% inhibition on the reaction by AlF4-. The magnitude of accumulated inositol phosphates by AlF4- was at least several times greater than that by 5-HT. Norepinephrine- and epinephrine-stimulated phospholipase C reactions were completely abolished by prazosin. These results suggest that 5-HT directly stimulates phospholipase C-mediated hydrolysis of phosphoinositides through 5-hydroxytryptamine-2 (5-HT2) receptors in the ventricular myocytes and that this reaction is negatively regulated by protein kinase C. 5-HT2 receptors may be coupled to phospholipase C via a pertussis toxin-insensitive GTP-binding protein in the myocytes.
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PMID:5-Hydroxytryptamine induces phospholipase C-mediated hydrolysis of phosphoinositides through 5-hydroxytryptamine-2 receptors in cultured fetal mouse ventricular myocytes. 216 Aug 68

Whole blood serum (WBS) rapidly induced the phospholipase C-mediated hydrolysis of phosphoinositides and subsequently stimulated DNA synthesis in cultured rabbit vascular smooth muscle cells (VSMCs). Ketanserin, a serotonin (S2) receptor antagonist, markedly inhibited the WBS-induced phospholipase C reaction and DNA synthesis. Serotonin by itself had a weak mitogenic activity for VSMCs, but this vasoconstrictor markedly stimulated the platelet-derived growth factor- and epidermal growth factor-induced DNA synthesis. The stimulatory effect of serotonin on the growth factor-induced DNA synthesis was inhibited by ketanserin. The amount of serotonin contained in WBS was sufficient to induce the phospholipase C reaction and stimulate the growth factor-induced DNA synthesis. These results indicate that serotonin plays a major role in the WBS-induced phospholipase C-mediated hydrolysis of phosphoinositides and DNA synthesis in rabbit VSMCs and suggest that serotonin may act as an important growth regulator for VSMCs in addition to acting as a vasoconstrictor.
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PMID:Serotonin plays a major role in serum-induced phospholipase C-mediated hydrolysis of phosphoinositides and DNA synthesis in vascular smooth muscle cells. 216 88

Stimulation of phosphoinositide-specific phospholipase C (PLC) by muscarinic cholinergic and serotoninergic agonists was measured in rat brain cortical membranes by using exogenously supplied substrates. Serotonin, tryptamine, 5-fluorotryptamine and 5-methyltryptamine stimulated PLC with EC50 values of 1.7, 11.2, 15.0, and 29.4 microM, respectively. Maximal PLC stimulation by serotoninergic agonists, which were all equally efficacious, was about 30% of that attained by carbachol. Ketanserin blocked serotoninergic but not cholinergic activation of PLC, whereas, conversely, atropine blocked the latter but not the former response. The rank order of potency for muscarinic agonists was oxotremorine-M greater than pilocarpine = arecoline greater than carbachol = bethanecol. Unlike the case with tissue slices, all of these muscarinic agonists exhibited full efficacy in this assay of PLC stimulation. Activation of PLC by the neurotransmitters or their analogs was dependent on the addition of guanosine 3'-O-thiotriphosphate (GTP gamma S). Stimulation of PLC by GTP gamma S alone or in combination with 5-methyltryptamine had an apparent EC50 of about 0.4 microM. However, when carbachol or other muscarinic agonists were used, the EC50 for GTP gamma S was significantly lower. We have previously shown that dopamine working through D1 receptors inhibits the PLC response to carbachol by preventing this shift in the apparent EC50 for GTP gamma S. Dopamine did not have a similar effect on 5-methyltryptamine stimulation of PLC. The results indicate that the postreceptor mechanisms of PLC activation are distinct for muscarinic as opposed to serotoninergic agonists in brain cortex.
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PMID:Comparison of serotoninergic to muscarinic cholinergic stimulation of phosphoinositide-specific phospholipase C in rat brain cortical membranes. 217 1

Serotonin exerts its diverse physiological effects by interacting with multiple distinct receptor subtypes. We have isolated a rat brain 5HT2 serotonin receptor cDNA by virtue of its homology with the 5HT1c receptor. The 5HT2 receptor is a member of the family of receptors that are linked to guanine nucleotide-binding proteins and are predicted to span the lipid bilayer seven times. Overall sequence identity between the 5HT2 and 5HT1c receptors is 49%, but identity within the transmembrane domains is 80%. Expression of both the 5HT2 and 5HT1c receptors in transfected mouse fibroblasts activates phospholipase C signaling pathways and promotes cellular transformation. However, RNA blotting shows that these two receptor subtypes are differentially expressed in the central nervous system. In this manner, structurally and functionally homologous receptor subtypes may elicit distinct physiologic actions.
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PMID:The 5HT2 receptor defines a family of structurally distinct but functionally conserved serotonin receptors. 230 May 86

Serotonin (5-HT) stimulated the release of arachidonic acid in hippocampal neurons cocultured with glial cells but not in glial cultures alone. Similar results were observed for the 5-HT-stimulated release of inositol phosphates. These results suggest a neural but not glial origin of both responses. Pharmacological studies suggested that release of arachidonic acid and inositol phosphates was mediated by a type 2 5-HT (5-HT2) receptor. 5-HT-stimulated release of arachidonic acid was also detected in cortical neurons, which contain high levels of 5-HT2 receptors, but not striatum, spinal cord, or cerebellar granule cells, which have very low levels or are devoid of 5-HT2 receptors. The phorbol ester phorbol 12-myristate 13-acetate augmented the 5-HT-stimulated release of arachidonic acid but inhibited the 5-HT-stimulated release of inositol phosphates. 5-HT-stimulated release of arachidonic acid, but not inositol phosphates, was dependent on extracellular calcium. 5-HT stimulated the release of [3H]lysophosphatidylcholine from [3H]choline-labeled cells with no increase in the release of [3H]choline or phospho[3H]choline. These data suggest that 5-HT stimulated the release of arachidonic acid in hippocampal neurons through the activation of phospholipase A2, independent of the activation of phospholipase C.
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PMID:Serotonin stimulates phospholipase A2 and the release of arachidonic acid in hippocampal neurons by a type 2 serotonin receptor that is independent of inositolphospholipid hydrolysis. 231 13

Important findings on the molecular and regulatory properties of neurotransmitter receptors, GTP-proteins, ion channels and protein kinases were briefly reviewed. On the basis of recent advances in the theme mentioned above, we investigated the transmembrane signalling mechanism of serotonin (5-HT)-evoked inward current responses under the voltage clamp condition (holding at -60mV) in Xenopus oocytes injected with rat brain poly (A)+ mRNA, suggesting that 5-HT evokes a Cl- current via such a mechanism as follows: 1) activation of 5-HT1c subtype of receptors, 2) activation of pertussis toxin-sensitive Gi/G0, 3) phospholipase C activation, 4) inositol 1,4,5-trisphosphate (IP3) formation, 5) an increase of [Ca2+]i liberated by IP3, and 6) gating of Cl channels stimulated perhaps by Ca2+-calmodulin. On the other hand, protein kinase C (C-kinase) activation by diacylglycerol and Ca2+ seems to cause a feedback inhibition to the 5-HT responses by phosphorylation of certain proteins. Voltage-operated Ca channels of the N-type reconstituted in oocytes injected with brain mRNA seem to be modulated by C-kinase as well as by cAMP-dependent protein kinase. Significances of oocytes using as a model system to analyze the molecular mechanism of neuronal signalling in the brain were stressed and reviewed.
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PMID:[Recent advances in molecular pharmacology of cellular signalling mechanism]. 247 36

Both 5-HT and the 9 amino acid neuropeptide SCPb modulate 3 ionic currents in B15, enhancing a voltage-dependent inward sodium current, decreasing an outward potassium current and increasing an inward rectifying potassium current. In contrast, FMRFamide decreases a voltage-dependent inward sodium current and increases an outward potassium current. We have also investigated the roles of several second-messenger systems that may be mediating the effects of these modulators. Bath application of membrane permeable analogs of cAMP enhance the voltage-dependent inward sodium current and both 5-HT and SCPb increase cAMP levels in B15, suggesting that cAMP may be mediating part of the observed effects of these transmitters on B15. Experiments with phorbol ester, a protein kinase inhibitor, and a phospholipase inhibitor suggest that the phospholipase C/protein kinase C cascade may decrease an outward potassium current. Thus, 5-HT and SCPb may activate multiple second-messenger systems to modulate 3 ionic currents in B15. Additional studies suggest that a cascade involving arachidonic acid may be involved in mediating part of the FMRFamide responses in B15. These studies are beginning to define molecular mechanisms whereby a neuron differentially modulates multiple ionic currents in response to distinct chemical messengers.
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PMID:Modulation of ionic currents in Aplysia motor neuron B15 by serotonin, neuropeptides, and second messengers. 247 12

The signal transduction pathways of the cloned human 5-HT1A receptor have been examined in two mammalian cell lines transiently (COS-7) or permanently (HeLa) expressing this receptor gene. In both systems, 5-hydroxytryptamine (5-HT, serotonin) mediated a marked inhibition of beta 2-adrenergic agonist-stimulated (80% inhibition in COS-7 cells) or forskolin-stimulated cAMP formation (up to 90% inhibition in HeLa cells). This serotonin effect (EC50 = 20 nM) could be competitively antagonized by metitepine and spiperone (Ki = 81 and 31 nM, respectively) and could also be blocked by pretreatment of cells with pertussis toxin. In both cell types, 5-HT failed to stimulate adenylyl cyclase through the expressed receptors. In HeLa cells, 5-HT also stimulated phospholipase C (approximately 40-75% stimulation of formation of inositol phosphates). Again, this effect was inhibited by metitepine. However, the EC50 of 5-HT was considerably higher (approximately 3.2 microM) than that found for inhibition of adenylyl cyclase. Both pathways were demonstrated to be similarly affected by pertussis toxin. These findings indicate that like the M2 and M3 muscarinic cholinergic receptors, the 5-HT1A receptor can couple to multiple transduction pathways with varying efficiencies via pertussis toxin-sensitive G-proteins. The lack of stimulation of cAMP formation by this 5-HT1A receptor may suggest the existence of another pharmacologically closely related receptor.
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PMID:Effector coupling mechanisms of the cloned 5-HT1A receptor. 254 39


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