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)

Subcutaneously (s.c.) administered [Arg8]vasopressin (AVP) potentiated seizures induced by intracerebroventricular (i.c.v.) injection of 1.95 mg pilocarpine (a muscarinic cholinergic agonist). A bell-shaped relation between dose and effect was found. I.c.v. pretreatment with a V1, V2 or oxytocin receptor antagonist was performed to determine whether and what type of receptor is involved in this proconvulsive effect of vasopressin. For these experiments a higher dose of pilocarpine (2.4 mg i.c.v.) was injected. This caused seizures in a slightly but not significantly higher percentage of the rats. A dose-dependent protective action of the V2 receptor antagonist d(CH2),[D-Ile2,Ile4]AVP (effective doses were 25 and 125 ng) on seizures was found. A reduction was observed in the number of animals that developed tonic-clonic convulsions. Neither the V1 receptor antagonist d(CH2)5[Tyr(Me)2]AVP nor the oxytocin receptor antagonist desGly(NH2)9d(CH2)5[Tyr(Me)2Thr4]OVT possessed anti-convulsive activity. Subsequently the type of receptor was studied in detail with fragments of AVP with either V1 or V2 activity. AVP (with V1 and V2 affinity) (1 and 3 microg s.c.) potentiated pilocarpine (1.95 mg) induced seizures. Vasotocin and oxytocin were without effect. Interestingly neither s.c. nor i.c.v. administration of the selective kidney type vasopressin receptor (V2) agonist dDAVP potentiated pilocarpine induced seizures. Several selective antidiuretic agonists (V2), such as d[Val4]AVP, d[Phe2,Val4,D-Arg8]vasopressin (3 microg), [Val4,D-Arg8]vasopressin (3 microg) and d[Val4,D-Arg8]vasopressin (3 microg) were active. Other selective antidiuretic compounds, such as [Val4]AVP, dAVP, d[Tyr(Me)2]AVP and HO[D-Arg8]vasopressin (3 microg) did not influence seizures. These results demonstrate that a combination of substitution of aminoacid 4 (Gln) by Val and to a lesser extent deamination and the D-arginine form yield an active molecule, which can potentiate pilocarpine induced seizures and suggest the existence of a V2 receptor subtype in the brain.
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PMID:Proconvulsive effect of vasopressin; mediation by a putative V2 receptor subtype in the central nervous system. 921 58

Many neurologic disorders are related to congenital or acquired hyperammonemia (HA). Advanced symptoms of HA range from seizures in acute stages to stupor and coma in more chronic conditions, manifesting variable imbalance between the inhibitory and excitatory neurotransmission. Evidence obtained with the use of experimental HA models suggests that acute neurotoxic effects of ammonia are mediated by overactivation of ionotropic glutamate (GLU) receptors, mainly the N-methyl-D-aspartate (NMDA) receptors, and to a lesser degree the KA/AMPA receptors. NMDA receptor-mediated neurotoxicity may be potentiated by impaired control of their function by metabotropic GLU receptors, which are inactivated by ammonia. Prolonged overactivation of the NMDA receptors upon extended ammonia exposure causes their downregulation. The GLU receptor changes may be related to their excessive exposure to extrasynaptic GLU. Ammonia promotes GLU accumulation in the extrasynaptic space by enhancing its release from neurons, and/or by decreasing its reuptake to the nerve endings and astrocytes, where the effect results from inactivation (downregulation) of the astrocytic glutamate transporter GLT1. Excitotoxic effects of ammonia are augmented by increased synthesis of nitric oxide (NO), which is associated with NMDA receptor activation and/or increased synaptic transport of arginine (ARG). A shift toward neural inhibition is promoted by positive modulation of the gamma-aminobutyric acid (GABA)ergic tone resulting from excessive accumulation in the brain of endogenous central benzodiazepine receptor agonists, and from upregulation of astrocytic peripheral benzodiazepine receptors leading to elevated levels of prognenelone-derived neurosteroids, which positively modulate the GABA(A) receptor complex. Inhibitory neurotransmission may also be favored by enhanced release from astrocytes of an inhibitory amino acid, taurine.
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PMID:Roles of neuroactive amino acids in ammonia neurotoxicity. 946 66

TRH shows strong influence on neuronal excitability and may participate in the regulation of seizures. We investigated the effect of TRH and its stable analogues on seizures induced by intravenous (i.v.) infusion of pentetrazole in rats. The data showed that i.v. administration of TRH (10 and 20 mg/kg), RGH-2202 (0.1 mg/kg) and Z-p-Glu-His-Pro-NH2 (10 mg/kg) increased threshold for pentetrazole-induced clonic seizures, but did not affect the tonic ones. Another stable analogue of TRH, 1p-Glu-Tyr-Pro-NH2 (0.1-10 mg/kg), had no effect on pentetrazole-induced seizures. In further study, effects of TRH and RGH-2202 were examined in WAG/Rij rats, a genetic model of absence epilepsy. TRH (25 and 50 micrograms i.c.v.) decreased dose-dependently the number and mean duration of spike-wave discharges in cortical EEG of WAG/Rij rats at 90 and 120 min after the peptide administration. On the other hand, RGH-2202 (1 microgram i.c.v.) significantly decreased only the number of spike-wave discharges at 60 min post-injection. These results confirm that TRH and some of its analogues have moderate antiepileptic activity.
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PMID:Protective effects of TRH and its analogues in chemical and genetic models of seizures. 956 39

The report concerns mechanisms for the increase of extracellular levels of ethanolamine and phosphoethanolamine in CNS regions, such as the hippocampus, in transient brain ischemia, hypoglycemia, seizures, etc. L-Serine (2.5-10 mM), D-serine (10 mM), or ethanolamine (10 mM) was administered for 20 min via a microdialysis tubing to the hippocampus of unanesthetized rabbits. The concentrations of primary amines were determined in the dialysates. When levels were elevated 10-100 times in the extracellular fluid, L-serine caused a dose-dependent increase of the concentration of extracellular ethanolamine. Ethanolamine caused a corresponding, although somewhat smaller, increase in serine levels. Furthermore, L-serine also induced an increased concentration of phosphoethanolamine that was delayed in time relative to the peak of ethanolamine. D-Serine was as effective as L-serine in raising ethanolamine levels but had no effect on phosphoethanolamine. Ethanolamine, but not L-serine, also increased extracellular glutamate/aspartate levels in an MK-801-dependent fashion. A similar effect, but delayed in time, was observed with D-serine. These effects were inhibited by MK-801. The concentrations of other amino acids were not significantly affected. The characteristics of the effects are suggestive of base exchange reactions between serine and ethanolamine and between ethanolamine and serine glycerophospholipids, respectively, in neuronal plasma membranes.
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PMID:Effect of serine and ethanolamine administration on phospholipid-related compounds and neurotransmitter amino acids in the rabbit hippocampus. 979 41

This work is aimed at further exploring the concept that phenytoin-related compounds might present with an anti-HIV potential. We screened for anti-HIV activity, selected compounds whose structural design rests on pharmacophores successfully shown to convey phenytoinergic anticonvulsant activity. We determined the corresponding anticonvulsant protective doses in mice via the i.p. route of administration using the maximal electroshock seizure test (a test in which the anticonvulsant activity of phenytoin is well expressed). Firstly, 4-aminophthalimide pharmacophores were utilized with either N-(2,6-dimethyl)phenyl or N-(1-adamantyl) substitutions. While the former was found to be highly potent, the latter was devoid of significant activity. Secondly, the pharmacophores N-(2,6-dimethylphenyl)phthalimide and N-(1-adamantyl)phthalimide were compared for antiviral (antiHIV-1 and antiHIV-2) properties in CEM (human T-lymphocyte) cells infected with HIV-1 or HIV-2 strains. Various phthalimide C4-substitutions (H, NO2, NH2, Cl, CH3, OCH3, COOH) of these pharmacophores were studied. From this set of experiments, 4-amino-N-(1-adamantyl)phthalimide emerged with EC50 (effective concentration-50) values of 16 and 27 microM against HIV-1 and HIV-2, respectively. The CC50 (cytostatic concentration-50) of this compound was 30 microM. Thirdly, the N-(2,6-dimethylphenyl) and N-(1-adamantyl) substitutions of the 4-aminobenzamide pharmacophore (another known phenytoinergic anticonvulsant platform) were shown to be devoid of anti-HIV activities. A similar negative result was obtained for amantadine. Taken as a whole, the present data indicate that both the 4-aminophthalimide pharmacophore and N-(1-adamantyl) substitutions are required for anti-HIV properties. Molecular modeling studies further provide clues for this dual requirement.
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PMID:Anticonvulsant phenytoinergic pharmacophores and anti-HIV activity--preliminary evidence for the dual requirement of the 4-aminophthalimide platform and the N-(1-adamantyl) substitution for antiviral properties. 980 29

The Pi peak in a 31P NMR spectrum of the brain can be deconvoluted into six separate Lorentzian peaks with the same linewidth as that of the phosphocreatine peak in the spectrum. In an earlier communication we showed that the six Pi peaks in normal brain represent two extracellular and four intracellular compartments. In that report we have identified the first of the extracellular peaks by marking plasma with infused Pi, thereby substantially increasing the amplitude of the single peak at pH 7.35. 2-Deoxyglucose-6-phosphate (2-DG-6-P) was placed in the brain interstitial space by microdialysis. The resulting 2-DG-6-P peak was deconvoluted into three separate peaks. The chemical shift of the principle 2-DG-6-P peak gave a calculated pH of 7.24 +/- 0.02 for interstitial fluid pH, a value that agreed well with the pH of the second extracellular Pi peak at pH 7.25 +/- 0.01. We identified the intracellular compartments by selectively stressing cellular energy metabolism in three of the four intracellular spaces. A seizure-producing chemical, flurothyl, was used to activate the neuron, thereby causing a demand for energy that could not be completely met by oxidative phosphorylation alone. The resulting loss of high-energy phosphate reserves caused a significant increase in intracellular Pi only in those cells associated with the Pi peak at pH 6.95 +/- 0.01. This suggests that this compartment represents the neuron. Ammonia is detoxified in the astrocyte (glutamine synthetase) by incorporating it into glutamine, a process that requires large amounts of glucose and ATP. The intraarterial infusion of ammonium acetate into the brain stressed astrocyte energy metabolism resulting in an increase in the Pi of the cells at pH of 7.05 +/- 0.01 and 7.15 +/- 0.02. This finding, coupled with our observation that these same cells take up infused Pi probably via the astrocyte end-foot processes, lead us to conclude that these two compartments represent two different types of astrocytes, probably protoplasmic and fibrous, respectively. As a result of this study, we now believe the brain contains four extracellular and four intracellular compartments.
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PMID:NMR-based identification of intra- and extracellular compartments of the brain Pi peak. 983 54

We have previously reported that electroconvulsive seizures (ECS) increases the level of prepro-TRH-derived peptides in hippocampus, amygdala and pyriform cortex but not the striatum of male rats and that this increase is significantly correlated with reduced immobility (increased swimming) in the Porsolt forced swim test. An abstract by Mabrouk and Bennett published in 1993 described increased locomotor activity in rats following IP injection of TRH (pGlu-His-Pro-NH2) and EEP (pGlu-Glu-Pro-NH2). We have examined the effect of three daily transcorneal ECS on the levels of EEP in various brain regions and their correlation with results from the Porsolt forced swim test. The EEP level (ng/g wet weight) was measured by RIA in 6 brain regions: amygdala (AY), hippocampus (HC), pyriform cortex (PYR), anterior cortex (AC), striatum (STR) and motor cortex (MC). ECS significantly increased EEP levels in AY, HC and PYR. The increased swim behavior following ECS, as measured in the Porsolt test, correlated significantly with the EEP levels in HC and MC within individual subjects. Intraperitoneal (IP) injection of EEP (1.0 mg/kg) resulted in a rapid and sustained rise in EEP levels throughout the brain and a clearance half-time from blood of 2.0 h. Intracardiac injection of 0.5 mg EEP resulted in a peak EEP level in CSF at 2 h followed by a t1/2 of 0.35 h. A 3 compartment model for EEP transport from blood into CSF and then brain was developed. This model revealed a 1.75 h delay in the transit time of EEP from blood to CSF followed by rapid clearance from the CSF but long retention time within various brain tissues. We conclude that (1) ECS significantly increases EEP levels in limbic regions, but not in striatum, of the rat brain, (2) EEP, like TRH, is a potential mediator of the antidepressant effect of ECS and (3) EEP, after IP or IV administration, is readily taken up by, and has a long residence time in, brain tissue.
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PMID:Electroconvulsive seizures increase levels of pGlu-Glu-Pro-NH2 (EEP) in rat brain. 1009 31

The effect of chronic perfusion of ammonia on the seizure threshold against pentylenetetrazol was studied. Ammonia plus sodium bicarbonate and saline (0.9%) was continuously administered to two groups of rats respectively. All animals were tested three times for seizure threshold, and were then decapitated and the brains removed for analysis of the amino acids. The results showed that the infusion of ammonia increased the seizure threshold, and this protective effect was accompanied by selective changes in brain glutamate and glutamine. Thus, continuous infusion of ammonia may cause an imbalance between excitatory and inhibitory systems in favor of inhibitory systems. These findings may provide insights into the basic mechanisms of seizures observed in hepatic failure, in other hyperammonemic states, and in epilepsy.
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PMID:Effects of ammonia on pentylenetetrazole-induced seizure threshold. 1085 May 49

The role of Orphanin-FQ/nociceptin in synaptic plasticity was assessed by its potency in modulating kindling epileptogenesis in vivo, and feed-forward inhibition in hippocampal recordings in vitro. In addition, a specific rabbit antiserum against this peptide was obtained and the immunohistochemical distribution of nociceptin was determined in rat brain slices. After the establishment of kindling epilepsy, by daily electrical stimulation of the piriform cortex, the i.c.v. injection of nociceptin, 20 min before the kindling stimulation, was not able to block the generation of the generalized seizures, nor to alter their duration. However, the i.c.v. injection of nociceptin, 20 min before each stimulation along the kindling process, depressed its development in a dose-dependent manner. This effect was specific since the nociceptin antagonist [Phe1psi(CH2-NH)Gly2]NC(1-13)NH2, but not the broad-spectrum opiate antagonist, naloxone, was able to completely block nociceptin actions. The inhibitory role of nociceptin was assessed by in vitro recordings from entorhinal cortex-hippocampal slices. By single pulses applied over the Schaffer collaterals, we found that synaptic transmission was facilitated onto CA1, but using a paired-pulse protocol, we found that nociceptin potentiated feed-forward inhibition. The immunohistochemical data show that nociceptin is expressed in limbic cortical regions, including the piriform cortex and the hippocampus. Our results demonstrate that nociceptin exerts a modulatory role in limbic excitability and suggest that it provides an inhibitory control in the development of epilepsy by possibly inhibiting the spread of excitation through the system, by favoring feed-forward inhibition.
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PMID:Orphanin-FQ/nociceptin inhibits kindling epileptogenesis and enhances hippocampal feed-forward inhibition. 1167

The anticonvulsive activity of nociceptin, endogenous OP4 receptors agonist was investigated in pentylenetetrazole (PTZ), N-methyl D-aspartic acid (NMDA), bicucculine (BCC) and electrically evoked seizure models of experimental epilepsy. Nociceptin, at the dose of 10 nmol, suppressed the clonic seizures induced by PTZ, NMDA and BCC. [Phe1(psi)(CH2-NH)Gly2]nociceptin-(1-13)-NH2 which has been proposed to be selective antagonist OP4 receptors, did not prevent the action of nociceptin. The effect of [Phe1(psi)(CH2-NH)Gly2]nociceptin-(1-13)-NH2 on seizures induced by PTZ, NMDA and BCC was very similar to that of nociceptin. These data support the hypothesis that it possesses agonistic properties. Naloxone did not reverse the anticonvulsive action of nociceptin as well as [Phe1(psi)(CH2-NH)Gly2]nociceptin-(1-13)-NH2 which excludes the participation of opioid receptor in this action. On the other hand in the electroconvulsive model of generalized seizures, nociceptin as well as [Phe1(psi)(CH2-NH)Gly2]nociceptin-(1-13)-NH2 influenced neither the electroconvulsive threshold nor the maximal electroshock test. The data suggest that nociceptin and [Phe1(psi)(CH2-NH)Gly2]nociceptin-(1-13)-NH2 can exert anticonvulsive action. These properties depend on OP4 but not opioid receptors activation.
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PMID:Nociceptin, OP4 receptor ligand in different models of experimental epilepsy. 1183 99

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