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)

Brain injuries by physical trauma, epileptic seizures, or microbial infection upset the osmotic homeostasis resulting in cell swelling (cerebral edema), inflammation, and apoptosis. Expression of the neurotrophin receptor p75NTR is increased in the injured tissue and axon regeneration is repressed by the Nogo receptor using p75NTR as the signal transducer. Hence, p75NTR seems central to the injury response and we wished to determine the signals that regulate its expression. Here, we demonstrate that tonicity mediated cell swelling rapidly activates transcription of the endogenous p75NTR gene and of a p75NTR promoter-reporter gene in various cell types. Transcription activation is independent of de novo protein synthesis and requires the activities of phospholipase C, protein kinase C, and nitric-oxide synthase. Hence, p75NTR is a nitric oxide effector gene regulated by osmotic swelling, thereby providing a strategy for therapeutic intervention to modulate p75NTR functions following injury.
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PMID:Osmotic swelling induces p75 neurotrophin receptor (p75NTR) expression via nitric oxide. 1282 76

In the present study, we investigated the effects of pentylenetetrazol (PTZ), a chemical convulsant that interacts with the GABA(A) receptor, in mice lacking the phospholipase C (PLC)-related inactive protein-1 (PRIP-1). PRIP-1 knockout mice did not develop spontaneous behavioral seizure. PRIP-1 knockout mice had markedly shorter latencies until the first clonic convulsion (CL) and tonic extensor (TE) following PTZ administration and increased incidence of convulsion compared to those in wild-type mice. Furthermore, the mortality rate by PTZ in mice lacking the PRIP-1 was also significantly increased in comparison with that in wild-type mice. These findings suggested that mice lacking the PRIP-1 were hypersensitive to PTZ-induced convulsion, and PRIP-1 might play roles in suppressing excessive excitability via interactions with the GABA(A) receptor.
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PMID:Hypersensitivity to pentylenetetrazol-induced convulsion in mice lacking the PLC-related inactive protein-1. 1546 66

The phenotypic ethogram of congenic dopamine D(5) receptor "knockout" mice was evaluated. Each individual topography of behaviour within the natural repertoire was assessed over the extended course of initial exploration of and subsequent habituation to the environment, and following challenge with a series of D(1)-like agonists. Over initial exploration, D(5)-null mice evidenced a modest reduction in locomotion and a modest increase in sifting. Subsequent habituation revealed additional phenotypic effects, primarily overall reduction in grooming and delayed habituation of rearing. Among D(1)-like agonists, A 68930 stimulates both adenylyl cyclase and a putative D(1)-like receptor coupled to stimulation of phospholipase C-mediated phosphoinositide hydrolysis; conversely, SK&F 83959 stimulates phosphoinositide hydrolysis but not adenylyl cyclase while SK&F 83822 stimulates adenylyl cyclase but not phosphoinositide hydrolysis. Though programmed grooming syntax and episodic seizure activity induced by A 68930 and SK&F 83822 were unaltered, grooming induced by SK&F 83959 was reduced in D(5) mutants. Stereotyped, ponderous locomotion induced by the D(2)-like agonist RU 24213 was enhanced in D(5) mutants. Phenotypic and pharmacological characterisation of congenic D(5)-null mice at an ethological level identifies novel functional roles for the D(5) receptor in mediating discrete topographies of behaviour relating to exploration, sequential motor coordination, and how these processes change over the course of interaction with and habituation to the environment. Additionally, they indicate the involvement of phosphoinositide hydrolysis and D(5):D(2)-like interactions in regulating these processes.
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PMID:Ethological resolution of behavioural topography and D1-like versus D2-like agonist responses in congenic D5 dopamine receptor mutants: identification of D5:D2-like interactions. 1566 51

Homer-1a/Vesl1S, a member of the scaffold protein family Homer/Vesl, is expressed during seizure and serves to reduce seizure susceptibility. Cellular mechanisms for this feedback regulation were studied in neocortex pyramidal cells by injecting Homer-1a protein intracellularly. The injection reduced membrane excitability as demonstrated in two ways. First, the resting potential was hyperpolarized by 5-10 mV. Second, the mean frequency of spikes evoked by depolarizing current injection was decreased. This reduction of excitability was prevented by applying each of the followings: the calcium chelator BAPTA, the calcium store depletor cyclopiazonic acid (CPA), the insitol-1,4,5-trisphosphate receptor (IP(3)R) blocker heparin, the phospholipase C (PLC) inhibitor U-73122, the metabotropic glutamate receptor (mGluR) antagonist 2-methyl-6-(phenylethynyl)-pyridine (MPEP), and the large-conductance calcium activated potassium channel (BK channel) antagonist charybdotoxin. The small-conductance calcium activated potassium channel (SK channel) blocker dequalinium was ineffective. These findings suggest that activation of mGluR by Homer-1a produced IP(3), which caused inositol-induced calcium release and a consequent BK channel opening, thus hyperpolarizing the injected neurons. In slices from rats subjected to electroconvulsive shock (ECS), a comparable reduction of excitability was observed without Homer-1a injection. The ECS-induced reduction of excitability was abolished by MPEP, charybdotoxin, heparin or BAPTA. Intracellular injection of anti-Homer-1a antibody was suppressive as well, but anti-Homer-1b/c antibody was not. We propose that ECS-induced Homer-1a stimulated the same pathway as did the injected Homer-1a, thereby driving a feedback regulation of excitability.
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PMID:Essential roles of Homer-1a in homeostatic regulation of pyramidal cell excitability: a possible link to clinical benefits of electroconvulsive shock. 1602 61

To clarify the involvement of dopamine D4 receptors in behavioral regulation, the phenotypic ethogram of congenic D4 "knockout" mice was studied in terms of (i) course of exploration and habituation, and (ii) topographical responsiveness to the selective D2-like agonist RU 24213 and the selective D1-like agonists A 68930, SK&F 83959 and SK&F 83822. Congenic D4 knockouts were characterized by a small reduction in exploratory sniffing with delayed habituation of sifting. The magnitude and topographical specificity of these effects indicated that any functional role for D4 receptors in exploratory processes is subtle. Induction of stereotyped, ponderous locomotion by RU 24213 was reduced in D4-null mice consistent with an involvement of D4 receptors in the topographical expression of stereotypy. Induction of grooming and, at higher doses, seizures by A 68930, which stimulates both adenylyl cyclase (AC) and phospholipase C (PLC), were unaltered in congenic D4 knockouts. In contrast, induction of grooming by SK&F 83959, which stimulates PLC but not AC and fails to induce seizures, was reduced in D4-null mice; this indicates that D4 receptors interact with PLC-coupled D1-like receptors in regulating D1-like-mediated grooming. Conversely, induction of seizures by SK&F 83822, which stimulates AC but not PLC and fails to induce grooming, was reduced in congenic D4 knockouts; this indicates that D4 receptors interact with AC-coupled D1-like receptors in regulating D1-like-mediated seizures. These studies identify novel functional roles for the D4 receptor that are distinct from those of closely related D2-like family members and involve interactions with their D1-like counterparts.
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PMID:Ethological resolution of behavioral topography and D2-like vs. D1-like agonist responses in congenic D4 dopamine receptor "knockouts": identification of D4:D1-like interactions. 1632 Mar 6

Gabapentin (Neurontin) is an analogue of gamma-aminobutyric acid (GABA) that is effective against partial seizures. Gabapentin has been reported to modulate serotonin release from platelets, but the effects of gabapentin on platelet activation have not been explored. In this study, gabapentin concentration-dependently (60-240 microM) inhibited platelet aggregation in washed platelets stimulated by collagen (1 microg mL(-1)), ADP (20 microM) and arachidonic acid (60 microM). Gabapentin (120 and 240 microM) also concentration-dependently inhibited collagen (1 microg mL(-1))-induced phosphoinositide breakdown, intracellular Ca(2+) mobilization, thromboxane A(2) formation, and p38 MAPK phosphorylation in human platelets. In conclusion, the most important findings of this study suggest that gabapentin inhibits platelet aggregation, at least in part, through the phospholipase C-inositol 1,4,5-trisphosphate-thromboxane A(2)-Ca(2+) pathway. Thus, it is possible that gabapentin treatment, alone or in combination with other antiplatelet drugs, may induce or potentiate inhibition of platelet aggregation, which may affect haemostasis in-vivo.
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PMID:Inhibitory mechanisms of gabapentin, an antiseizure drug, on platelet aggregation. 1788 97

The first-generation antihistamines are widely prescribed medications that relieve allergic reactions and urticaria by blocking the peripheral histamine H(1) receptor. Overdose of these drugs often results in serious neuronal toxic effects, including seizures, convulsions and worsening of epileptic symptoms. The KCNQ/M K(+) channel plays a crucial role in controlling neuron excitability. Here, we demonstrate that mepyramine and diphenhydramine, two structurally related first-generation antihistamines, can act as potent KCNQ/M channel blockers. Extracellular application of these drugs quickly and reversibly reduced KCNQ2/Q3 currents heterologously expressed in HEK293 cells. The current inhibition was concentration and voltage dependent. The estimated IC(50) (12.5 and 48.1 microM, respectively) is within the range of drug concentrations detected in poisoned patients (30-300 microM). Both drugs shifted the I-V curve of KCNQ2/Q3 channel to more depolarized potentials and altered channel gating properties by prolonging activation and shortening deactivation kinetics. Mepyramine also inhibited the individual homomeric KCNQ1-4 and heteromeric KCNQ3/Q5 currents. Moreover, mepyramine inhibited KCNQ2/Q3 current in an outside-out patch excised from HEK293 cells and the inhibitory effect was neither observed when it was applied intracellularly nor affected by blocking phospholipase C (PLC) activity, indicating an extracellular and direct channel blocking mechanism. Finally, in cultured rat superior cervical ganglion (SCG) neurons, mepyramine reduced the M type K(+) current in a concentration-dependent manner and led to marked membrane potential depolarization. It is likely that these effects may be involved in the adverse neuroexcitatory effects observed in patients experiencing an overdose of antihistamines.
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PMID:Antihistamine mepyramine directly inhibits KCNQ/M channel and depolarizes rat superior cervical ganglion neurons. 1822 95

Recent reports have shown that the selective dopamine D(1)-like agonist SKF 83822 [which stimulates adenylate cyclase, but not phospholipase C] induces prominent behavioral seizures in mice, whereas its benzazepine congener SKF 83959 [which stimulates phospholipase C, but not adenylate cyclase] does not. To investigate the relative involvement of D(1) vs D(5) receptors in mediating seizures, ethological behavioral topography and cortical EEGs were recorded in D(1), D(5) and DARPP-32 knockout mice in response to a convulsant dose of SKF 83822. SKF 83822-induced behavioral and EEG seizures were gene dose-dependently abolished in D(1) knockouts. In both heterozygous and homozygous D(5) knockouts, the latency to first seizure was significantly increased and total EEG seizures were reduced relative to wild-types. The majority (60%) of homozygous DARPP-32 knockouts did not have seizures; of those having seizures (40%), the latency to first seizure was significantly increased and the number of high amplitude, high frequency polyspike EEG events was reduced. In addition, immunoblotting was performed to investigate downstream intracellular signalling mechanisms at D(1)-like receptors following challenge with SKF 83822 and SKF 83959. In wild-types administered SKF 83822, levels of ERK1/2 and GluR1 AMPA receptor phosphorylation increased two-fold in both the striatum and hippocampus; in striatal slices DARPP-32 phosphorylation at Thr34 increased five-fold relative to vehicle-treated controls. These findings indicate that D(1), and to a lesser extent D(5), receptor coupling to DARPP-32, ERK1/2 and glutamatergic signalling is involved in mediating the convulsant effects of SKF 83822.
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PMID:Dopamine D1 vs D5 receptor-dependent induction of seizures in relation to DARPP-32, ERK1/2 and GluR1-AMPA signalling. 1836 15

Activation of group I metabotropic glutamate receptors (mGluRs) produces a long-lasting change in hippocampal excitability that persists in the absence of an agonist. Exposure to the group I mGluR agonist dihydroxyphenylglycine (DHPG) results in the induction of spontaneously occurring epileptiform activity in the CA3 region of rat hippocampal slices that includes both brief interictal discharges and longer synchronous activity that resembles seizure or ictal activity (>2s duration oscillating at a frequency greater than 2 Hz). We evaluated activity-dependent mechanisms for the induction and maintenance of epileptiform activity. Both the induction and maintenance of epileptiform activity was blocked by inhibiting action potential generation with tetrodotoxin or substitution of sodium with choline or by blocking AMPA/KA ionotropic glutamate receptors. The ictal epileptiform activity induced by DHPG was composed of synchronous synaptic activity. Antagonists of group I mGluRs, either mGluR1 or mGluR5, suppressed the induction of ictal activity but had minimal effects on the maintenance of epileptiform activity. Group I mGluRs activate phospholipase C and inhibition of phospholipase C suppressed the induction but not the maintenance of epileptiform activity. Taken together, these results point to a use dependent change in CA3 neuronal network function produced by group I mGluR activation. Furthermore, activation of both mGluR1 and 5 is required to induce ictal discharges. The induction of epileptiform activity by DHPG is an in vitro model of epileptogenesis, and the development of epileptiform activity in this model depends on neuronal activity and synaptic transmission.
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PMID:Activity-dependent induction and maintenance of epileptiform activity produced by group I metabotropic glutamate receptors in the rat hippocampal slice. 1849 30

Whereas the entorhinal cortex (EC) receives profuse serotonergic innervations from the raphe nuclei in the brain stem and is critically involved in the generation of temporal lobe epilepsy, the function of serotonin (5-hydroxytryptamine, 5-HT) in the EC and particularly its roles in temporal lobe epilepsy are still elusive. Here we explored the cellular and molecular mechanisms underlying 5-HT-mediated facilitation of GABAergic transmission and depression of epileptic activity in the superficial layers of the EC. Application of 5-HT increased sIPSC frequency and amplitude recorded from the principal neurons in the EC with no effects on mIPSCs recorded in the presence of TTX. However, 5-HT reduced the amplitude of IPSCs evoked by extracellular field stimulation and in synaptically connected interneuron and pyramidal neuron pairs. Application of 5-HT generated membrane depolarization and increased action potential firing frequency but reduced the amplitude of action potentials in presynaptic interneurons suggesting that 5-HT still increases GABA release whereas the depressant effects of 5-HT on evoked IPSCs could be explained by 5-HT-induced reduction in action potential amplitude. The depolarizing effect of 5-HT was mediated by inhibition of TASK-3 K(+) channels in interneurons and required the functions of 5-HT(2A) receptors and Galpha(q/11) but was independent of phospholipase C activity. Application of 5-HT inhibited low-Mg(2+)-induced seizure activity in slices via 5-HT(1A) and 5-HT(2A) receptors suggesting that 5-HT-mediated depression of neuronal excitability and increase in GABA release contribute to its anti-epileptic effects in the EC.
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PMID:Serotonin increases GABA release in rat entorhinal cortex by inhibiting interneuron TASK-3 K+ channels. 1868 3

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