UMLS:C0036572 - FACTA Search

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Query: UMLS:C0036572 (seizures)
80,221 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Although the peptide somatostatin (SST) has been speculated to function in temporal lobe epilepsy, its exact role is unclear, as in vivo studies have suggested both pro- and anticonvulsant properties. We have shown previously that SST has multiple inhibitory cellular actions in the CA1 region of the hippocampus, suggesting that in this region SST should have antiepileptic actions. To directly assess the effect of SST on epileptiform activity, we studied two in vitro models of epilepsy in the rat hippocampal slice preparation using extracellular and intracellular recording techniques. In one, GABA-mediated neurotransmission was inhibited by superfusion of the GABAA receptor antagonist bicuculline. In the second, we superfused Mg2+-free artificial cerebrospinal fluid to remove the Mg2+ block of the N-methyl-D-aspartate (NMDA) subtype of glutamate receptor. We show here that SST markedly reduces the intensity of evoked epileptiform afterdischarges and the frequency of spontaneous bursts in both CA1 and CA3. SST appears to act additively in the two regions to suppress the transmission of epileptiform events through the hippocampus. We further examined SST's actions in CA3 and found that SST dramatically reduced the frequency of paroxysmal depolarizing shifts (PDSs) recorded intracellularly in current clamp, as well as increasing the threshold for evoking "giant" excitatory postsynaptic currents (EPSCs), large polysynaptically mediated EPSCs that are the voltage-clamp correlate of PDSs. We also examined the actions of SST on pharmacologically isolated EPSCs generated at both mossy fiber (MF) and associational/commissural (A/C) synapses. SST appears to act specifically to reduce recurrent excitation between CA3 neurons because it depresses A/C- but not MF-evoked EPSCs. SST also increased paired-pulse facilitation of A/C EPSCs, suggesting a presynaptic site of action. Reciprocal activation of CA3 neurons through A/C fibers is critical for generation of epileptiform activity in hippocampus. Thus SST reduces feedforward excitation in rat hippocampus, acting to "brake" hyperexcitation. This is a function unique from that described for other hippocampal neuropeptides, which affect more standard neurotransmission. Our results suggest that SST receptors could be a unique, selective clinical target for treatment of limbic seizures.
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PMID:Somatostatin acts in CA1 and CA3 to reduce hippocampal epileptiform activity. 1020 Jan 99

Upon perfusion with Mg2+-free artificial cerebrospinal fluid (ACSF) organotypic hippocampal slice cultures develop seizure-like events and tonic recurrent discharges in which areas CA3 and CA1 and, in contrast to acute slices, also the dentate gyrus (DG) participate. Using the fluorescent dye propidium iodide (PI) we show that sustained epileptic activity causes cell death in the DG and pyramidal cell layer particularly evident in the granule cell layer of the DG. This correlates with the decrease of the electrophysiological responses to hilar stimulation. Interestingly, perfusion with carbogenated serum-free ACSF also induces some cell death which is, however, mild compared with low magnesium treated slice cultures.
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PMID:Acute cell damage after low Mg2+-induced epileptiform activity in organotypic hippocampal slice cultures. 1020 10

Adenosine levels increase at seizure foci as part of a postulated endogenous negative feedback mechanism that controls seizure activity through activation of A1 adenosine receptors. Agents that amplify this site- and event-specific surge of adenosine could provide antiseizure activity similar to that of adenosine receptor agonists but with fewer dose-limiting side effects. Inhibitors of adenosine kinase (AK) were examined because AK is normally the primary route of adenosine metabolism. The AK inhibitors 5'-amino-5'-deoxyadenosine, 5-iodotubercidin, and 5'-deoxy-5-iodotubercidin inhibited maximal electroshock (MES) seizures in rats. Several structural classes of novel AK inhibitors were identified and shown to exhibit similar activity, including a prototype inhibitor, 4-(N-phenylamino)-5-phenyl-7-(5'-deoxyribofuranosyl)pyrrolo[2, 3-d]pyrimidine (GP683; MES ED50 = 1.1 mg/kg). AK inhibitors also reduced epileptiform discharges induced by removal of Mg2+ in a rat neocortical preparation. Overall, inhibitors of adenosine deaminase or of adenosine transport were less effective. The antiseizure activities of GP683 in the in vivo and in vitro preparations were reversed by the adenosine receptor antagonists theophylline and 8-(p-sulfophenyl)theophylline. GP683 showed little or no hypotension or bradycardia and minimal hypothermic effect at anticonvulsant doses. This improved side effect profile contrasts markedly with the profound hypotension, bradycardia, and hypothermia and greater inhibition of motor function observed with the adenosine receptor agonist N6-cyclopentyladenosine and opens the way to clinical evaluation of AK inhibitors as a novel, adenosine-based approach to anticonvulsant therapy.
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PMID:Adenosine kinase inhibitors as a novel approach to anticonvulsant therapy. 1033 67

Ethanol is a potent inhibitor of the N-methyl-D-aspartate (NMDA)-receptor subtype of glutamate receptor in a number of brain areas. The mechanism of ethanol action has been investigated by means of patch-clamp recording of ionic currents and fura-2 measurement of intracellular Ca2+ concentration in cell culture systems; the subunit composition of NMDA receptors and their influence on the effect of ethanol was determined by molecular biology methods. Ethanol does not appear to interact with NMDA either at the glutamate recognition site of the receptor, or at any of the hitherto known multiple modulatory sites, such as the glycine or polyamine site. Moreover, ethanol does not cause an open channel block by itself and fails to interact with Mg2+ at the site where it causes open channel block. The ability of ethanol to inhibit responses to NMDA is dependent on the subunit combination of NMDA receptors. The NR1/NR2A and NR1/NR2B combinations are preferentially sensitive to ethanol inhibition. Chronic treatment with ethanol leads to an increase of the NMDA receptor number at the transcriptional and posttranscriptional level; the receptor function is also facilitated. This causes withdrawal-type seizures after termination of chronic treatment with ethanol. The inhibition of NMDA receptors by ethanol leads to the depression of excitatory synaptic potentials mediated by this type of excitatory amino acid receptor. Ethanol-induced disturbances in certain regions of the brain, i.e. hippocampus, nucleus accumbens or locus coeruleus may lead to cognitive disorders or drug dependence. Brain slices containing the locus coeruleus may be used as an in vitro test system to investigate the addictive properties of ethanol.
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PMID:Ethanol-induced inhibition of NMDA receptor channels. 1040 99

Some 3,3-disubstituted 2-pyrrolidinones and 2-piperidinones (five- and six-membered ring lactams, respectively) possess potent in vivo anticonvulsant activity. In vitro these lactams potentiate GABA(A) receptor-mediated chloride currents, which is thought to be the mechanism by which they exert their therapeutic effects. However, the apparent affinity for these GABA(A) interactions is low: EC50s range from hundreds of micromolar to low millimolar values. In order to more completely characterize the activities of these compounds, it was necessary to know the concentrations required to curtail epileptiform activity in an intact neural network, and the mechanism by which this occurs. To address these questions, we used two methods of inducing ictal activity in hippocampal-entorhinal cortical slices: 4-aminopyridine (4-AP) and low Mg2+. We found that 3,3-diethyl-2-pyrrolidinone (diethyl-lactam) prevents seizure-like discharges with IC50s of 1.1 and 2.1 mM in the two models, respectively. These values are nearly identical to the EC50 value obtained in whole-cell studies of diethyl-lactam's GABA(A) receptor modulation. The addition of the GABA(A) antagonist picrotoxin to the low Mg2+ ACSF produced seizures which persisted during diethyl-lactam application. Neither 3-benzyl-3-ethyl-2-piperidinone (3-BEP) nor alpha-ethyl-alpha-methyl-gamma-thiobutyrolactone (alpha-EMTBL), two compounds which are similar to diethyl-lactam, but demonstrate picrotoxin-insensitive inhibition of voltage-dependent currents, diminished low Mg2+/picrotoxin seizure activity. Our results support the hypothesis that diethyllactam and related compounds exert their anticonvulsant activity primarily, if not exclusively, by modulating the GABA(A) receptor.
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PMID:Effects of anticonvulsant lactams on in vitro seizures in the hippocampal slice preparation. 1051 Sep 78

Ca2+/calmodulin-dependent protein kinase II (CaM Kinase II) activity was evaluated in a well-characterized in vitro model of epileptiform activity. Long-lasting spontaneous recurrent seizure (SRS) activity was induced in hippocampal neuronal cultures by exposure to low Mg2+ media for 3 h. Analysis of endogenous Ca2+/calmodulin-dependent phosphorylation revealed a significant long-lasting decrease in 32P incorporation into the alpha (50 kDa) and beta (60 kDa) subunits of CaM kinase II in association with the induction of SRS activity in this preparation. Ca2+/calmodulin-dependent substrate phosphorylation of the synthetic peptides, Autocamtide-2 and Syntide II, was also significantly reduced following the induction of SRSs and persisted for the life of the neurons in culture. The decrement in CaM kinase II activity associated with low Mg2+ treatment remained significantly decreased when values were corrected for changes in levels of alpha subunit immunoreactivity and neuronal cell loss. Addition of the protein phosphatase inhibitors, okadaic acid and cyclosporin A, to the phosphorylation reaction did not block the SRS-associated decrease in substrate phosphorylation, indicating that enhanced phosphatase activity was not a contributing factor to the observed decrease in phosphate incorporation. The findings of this study demonstrate that CaM kinase II activity is decreased in association with epileptogenesis observed in these hippocampal cultures and may contribute to the production and maintenance of SRSs in this model.
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PMID:Long-lasting decrease in neuronal Ca2+/calmodulin-dependent protein kinase II activity in a hippocampal neuronal culture model of spontaneous recurrent seizures. 1064 28

Results regarding the anticonvulsant potency of bromide have been questioned, and the mechanisms of its action are unclear. Using combined rat hippocampus-entorhinal cortex slices we analyzed the effects of NaBr on four types of epileptiform discharges in two different models of epilepsy, the low-Ca2+ and the low-Mg2+ model. NaBr concentration-dependently reduced the frequency and finally blocked the low Ca2+-induced discharges. Low Mg2+-induced short recurrent discharges were also reduced in a concentration-dependent manner. In the entorhinal cortex the frequency of seizure-like events was reduced by 3 and 5 mM and the discharges were blocked by 7 mM NaBr. Also, the late recurrent discharges in the entorhinal cortex which do not respond to most clinically employed anticonvulsants were reduced by concentrations of 10 and 15 mM and completely blocked by 30 mM NaBr. Using pH-sensitive microelectrodes different effects of NaBr were seen than those of acetazolamide on extracellular pH under control conditions and after stimulation. Acetazolamide at 1 mM caused a reversible acidification of delta pH: 0.2+/-0.14 at rest whereas no change on extracellular pH was seen with 5 mM NaBr. Acetazolamide increased the transient alkalosis induced by repetitive stimulation of the stratum radiatum in area CA1 and reduced the subsequent acidosis. NaBr also increased the alkalosis but had no effect on the subsequent acidosis. A significant increase in paired-pulse inhibition was seen in a paired-pulse stimulation protocol used to monitor the efficacy of GABAergic inhibition at concentrations of 5 mM NaBr. This finding was confirmed in whole-cell patch clamp recordings from cultured hippocampal neurons showing an increase in inhibitory postsynaptic current amplitude. In summary, our results suggest a broad-spectrum anticonvulsant activity which is likely to be caused by its effects on membrane excitability, by an increase in GABAergic inhibition and is less likely caused by its effects on extracellular pH.
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PMID:Sodium bromide: effects on different patterns of epileptiform activity, extracellular pH changes and GABAergic inhibition. 1065 Nov 43

Evidence suggests that metabotropic glutamate receptors (mGluR) are involved in mediating seizures and epileptogenesis. In the present experiments, the selective, group II mGluR agonist (+)-2-aminobicyclo-[3.1.0]hexane-2,6-dicarboxylic acid (LY354740, 0.1-1.0 microM) inhibited spontaneous epileptiform discharges which developed in rat cortical slices in Mg2+-free medium. LY354740 (4-16 mg/kg) administered prior to an injection of pentylenetetrazol (80 mg/kg) or picrotoxin (3.2 mg/kg) produced a dose-dependent decrease in the number of mice exhibiting clonic convulsions, but had no effect on N-methyl-D-aspartate (NMDA, 150 mg/kg)-induced convulsions. LY354740 (4-16 mg/kg) did not affect lethality induced in mice by pentylenetetrazol, picrotoxin or NMDA. LY354740 potentiated the anticonvulsant activity of the conventional antiepileptic drug diazepam, significantly decreasing the ED50 for that drug's effect on pentylenetetrazol-induced convulsions by 30%, but had no influence on anticonvulsant activity of ethosuximide and valproic acid. A pharmacokinetic interaction between LY354740 and diazepam, leading to the lowering of the plasma level of free diazepam, was also demonstrated. Our data suggest that the group II mGluR agonist LY354740 possesses anti-seizure activity and may modify the effects of some conventional antiepileptic drugs.
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PMID:Roles of group II metabotropic glutamate receptors in modulation of seizure activity. 1073 Oct 41

We show here by whole field monitoring of free intracellular Ca2+ ([Ca2+]i), locally recorded field potential (fp) and external [Ca2+], that low-[Mg2+] induces seizure like events (SLEs) accompanied by simultaneous fluctuations of [Ca2+]i and [Ca2+]e in cultured hippocampal slices. Within a SLE, complex [Ca2+]e fluctuations are seen throughout phases of Ca2+ depletion (tonic) and Ca2+ recovery (clonic) of the extracellular space. Information theory entropy-based analyses revealed strong asymmetric associations of [Ca2+]i and [Ca2+]e kinetics. By contrast, signal-associations between SLEs were found to be weak and of symmetric nature distinguishing seizure-like and interictal events by extensive coupling and decoupling of [Ca2+]i and [Ca2+]e fluctuations, respectively.
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PMID:Low-[Mg2+]-induced Ca2+ fluctuations in organotypic hippocampal slice cultures. 1092 53

Magnesium sulfate is currently being used in obstetric practice for either eclamptic seizure prophylaxis or for tocolysis, in some countries. Evidence for its use in preeclampsia is credible, whereas the evidence for its use as a tocolytic is limited, if not absent. Of interest, the findings of two epidemiologic studies have suggested a third possible use for antenatal pharmacologic magnesium sulfate, namely, as a neuroprotectant against the later development of cerebral palsy in the newborn. In support of this hypothesis are laboratory data, much of which have to do with the modulation of cellular membrane receptors. Unfortunately, during the Magnesium and Neurologic Endpoints Trial (MagNET), while attempting to confirm the neuroprotective effect of magnesium sulfate, the occurrence of excess total pediatric mortality in those children exposed to magnesium led to early termination of the trial. Nonetheless, despite the alarming findings in MagNET, it is conceivable that exposures to doses of magnesium sulfate less than those often used for aggressive tocolysis may be neuroprotective without being lethal. Other randomized controlled trials now underway may answer this important question.
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PMID:An overview of the possible relationship between antenatal pharmacologic magnesium and cerebral palsy. 1103 98

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