Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0038220 (status epilepticus)
 7,272 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

MUSCARINIC, NMDA and metabotropic glutamate receptor antagonists were tested for anticonvulsant effects in a continuous hippocampal stimulation model in rats in order to identify the receptors involved in the initiation of electrically induced status epilepticus (SE). Whereas the muscarinic receptor antagonists scopolamine and atropine and the metabotropic receptor antagonist L(+)-2-amino-3-phosphonopropionic acid (AP3) did not affect SE initiation, the N-methyl-D-aspartate (NMDA) antagonist dizocilpine (MK-801) (1 mg kg-1 i.p.) and the non-NMDA ionotropic receptor antagonist 2,3-dihydroxy-6-nitro-7-sulphamoylbenzo(F)-quinoxaline (NBQX) (two doses of 50 micrograms i.c.v.) prevented the induction of SE. It has been shown in a previous study that non-NMDA ionotropic receptors are involved in SE maintenance and it is now suggested that activation of NMDA receptors may principally initiate electrically induced SE, although non-NMDA ionotropic receptors may also be involved.
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PMID:MK-801 and NBQX prevent electrically induced status epilepticus. 794 43

Within the area tempestas (AT) in the anterior piriform cortex, unilateral microinfusions of GABA receptor antagonists and glutamate receptor agonists trigger brief episodic limbic seizures. In the present study, we document a synergistic effect of coinfusing bicuculline (GABAA receptor antagonist) with either carbachol (muscarinic receptor agonist) or cyclothiazide (inhibitor of AMPA receptor desensitization) but not with glutamate receptor agonists (AMPA, NMDA or kainate) in the rat AT. In particular, coadministration of bicuculline (118 pmol) with either carbachol (328 pmol) or cyclothiazide (1.2 nmol) triggered continuous self-sustaining seizures (status epilepticus; SE). Cyclothiazide alone did not evoke seizures. Although blockade of NMDA receptors with AP-7 (100 or 500 pmol) prevented episodic seizures evoked by carbachol or bicuculline alone, it was without effect on the continuous seizures evoked by combined treatments. NMDA-insensitive self-sustaining seizures were also evoked by the combination of AMPA and cyclothiazide. Regardless of the mechanism by which SE was evoked, it was prevented only by an AMPA receptor antagonist, NBQX, thus reinforcing the crucial role of AMPA receptors in the transition to SE. Further evidence for AMPA receptor regulation of seizure severity came from the overexpression of the GluR1 AMPA receptor subunit in AT. This resulted in substantially increased severity of bicuculline-evoked seizures that was reversed by focal application of NBQX. Thus, desensitization of AMPA receptors appears to limit the duration and severity of seizure activity, and a failure of this mechanism, or an overabundance of slowly desensitizing AMPA receptors, predisposes to severe and prolonged seizures.
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PMID:AMPA receptor desensitization as a determinant of vulnerability to focally evoked status epilepticus. 1567 44

The cholinergic pathways are intimately involved in the learning and memory process and disruption of this system produces impairments in many learning and memory models. Converging lines of evidence support the idea that there is an age-related decline in learning and memory in animals and this decline is strikingly similar to memory changes that occur when the cholinergic system is compromised. The purpose of this work was to evaluate whether a single administration of the muscarinic receptor agonist Pilocarpine (Pilo) could prevent the age-related learning impairment in rats. Three groups of animals received Pilo (300 mg/kg, i.p.), at 3 months of age, and the animals that did not show Status epilepticus were submitted to the water maze task 1 or 21 months after or once a month from the 4th to 24th month of age. The results showed that Pilo did not interfere with learning abilities 1-month after treatment nor in animals that were submitted to the test once a month. In addition, the animals treated with Pilo and submitted to the task 21 month after performed as well as control young rats in the training and in the testing sessions, while a marked learning impairment was detected in control old rats. These results indicate that a single administration of Pilo might prevent the age-related learning impairments in rats on a spatial task in the water maze.
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PMID:Pilocarpine prevents age-related spatial learning impairments in rats. 1569 92

Behavioural changes, muscarinic and dopaminergic receptors density and levels of monoamines were measured in striatum of rats after pilocarpine-induced status epilepticus (SE). Wistar rats at the age of 21 days were treated with pilocarpine (400mg/kg; subcutaneously) whilst the control group was treated with 0.9% saline (s.c.). Both groups were sacrificed 1h following the treatment. SE induced a muscarinic receptor downregulation of 64% in pilocarpine group. This effect was also observed to be 57% in D(1) and 32% in D(2). In the dissociation constant (K(d)) values in muscarinic and D(1) receptor no alterations were verified. On the other hand, the K(d) value for D(2) was observed to increase 41%. High performance liquid chromatography determinations showed 63, 35, 77 and 64% decreases in dopamine, 3-methoxy-phenylacetic acid, serotonin and 5-hydroxyindoleacetic acid contents, respectively. The homovanilic acid level was verified to increase 119%. The noradrenaline content was unaltered. A direct evidence of monoamine levels alterations can be verified during seizure activity and receptor density changes appear to occur in an accentuated way in immature brain during the estabilishment of SE induced by pilocarpine.
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PMID:Pilocarpine-induced status epilepticus: monoamine level, muscarinic and dopaminergic receptors alterations in striatum of young rats. 1587 89

Status epilepticus (SE) represents a serious medical emergency that can produce long-lasting brain damage as well as cognitive and memory deficits. However, the mechanisms that determine the emergence of SE from a single seizure and the prolonged duration of SE are unknown. Therefore, we used pharmacological tools to investigate the cellular mechanisms that underlie this prolonged epileptic activity in the rat barrel field region of somatosensory cortex (S1BF). Electrocortical and unitary extracellular field recording in the rat S1BF region was used to assess abnormal epileptiform activity induced by intracerebral application of 4-aminopyridine (4-AP). Simultaneously, electromyographic (EMG) activity was recorded from mystacial pad musculature. Intracerebral injection of 4-AP induced an SE that was paralleled by an increase of whisker activity that was not synchronized with the electrocortical recording. The seizures were originated ipsilaterally in the cortex of the injected hemisphere and propagated to the contralateral cortex with lower amplitude. The application of the glutamatergic NMDA receptor antagonist D (-)-2-amino-5-phosphonopentanoic acid (AP5) strongly increased the seizure-onset latency. The muscarinic receptor antagonist atropine changed the continuous rapid spiking pattern of SE to periodic discharges, while glutamatergic or GABAergic antagonist did not modify the electrographic features of SE. Our data suggest that the muscarinic cholinergic system plays an important role in the seizure modulation during SE in the somatosensory cortex, while their emergence is controlled, in part, by glutamatergic NMDA receptors.
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PMID:Cholinergic modulation of status epilepticus in the rat barrel field region of primary somatosensory cortex. 1610 11

The present study was undertaken in order to investigate the muscarinic (M(1)), dopaminergic (D(1) and D(2)) and serotonergic (5-HT(2)) receptors densities in hippocampus and striatum of Wistar rats after status epilepticus (SE) induced by pilocarpine. The control group was treated with 0.9% saline. An other group of rats received pilocarpine (400 mg/kg, s.c.) and both groups were sacrificed 1 h after treatment. The results have shown that pilocarpine administration and resulting SE produced a downregulation of M(1) receptor in hippocampus (41%) and striatum (51%) and an increase in the dissociation constant (K(d)) values in striatum (42%) alone. In both areas the 5-HT(2) receptor density remained unaltered, but a reduction (50%) and an increase (15%) in the K(d) values were detected in striatum and hippocampus, respectively. D(1) and D(2) receptor densities in hippocampus and striatum remained unaltered meanwhile K(d) values for D(1) receptor declined significantly, 33% in hippocampus and 26% in striatum. Similarly, K(d) values for D(2) decreased 55% in hippocampus and 52% in striatum. From the preceding results, it is clear that there is a possible relation between alterations in muscarinic receptor density and others systems studied as well as they suggest that changes in dissociation constant can be responsible for the establishment of pilocarpine-induced SE by altering the affinity of neurotransmitters such as acetylcholine, dopamine and serotonine.
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PMID:Modifications in muscarinic, dopaminergic and serotonergic receptors concentrations in the hippocampus and striatum of epileptic rats. 1613 8

Apart from stroke, epilepsy is the most common neurological disorder with 0.5% of prevalence. The present study was performed in order to determine the monoamine levels, (M(1)-like) muscarinic and (D(1)- and D(2)-like) dopaminergic receptor changes in frontal cortex of adult rats after pilocarpine-induced status epilepticus (SE). Male Wistar rats were treated with a single dose of pilocarpine (400 mg/kg, s.c.) and the control group received 0.9% saline (s.c.). Both groups were sacrificed 1 h after treatment. The frontal cortex was dissected for neurochemical assays. The results show a downregulation of 27% in M(1) muscarinic receptor density, but in the dissociation constant (K(d)) value remained unaltered. D(1) and D(2) dopaminergic receptor densities and their K(d) values remained unaltered. Monoamine and metabolites levels presented decreases of 44%, 27%, 30% and 42% in dopamine (DA), homovanilic acid (HVA), norepinephrine (NE) and 5-hydroxyindoleacetic acid (5-HIAA) contents, respectively. Moreover, in serotonin (5-HT) level remained unaltered and the 4-hydroxy-3-methoxy-phenylacetic acid (DOPAC) concentration was augmented by 34%. The results suggest that dopaminergic system in this area studied may not be directly involved in the seizures and status epilepticus, but different monoamines and metabolites can be modified in this cerebral area during seizure process. In conclusion, the neurochemical alterations that occur in frontal cortex of adult rats observed during the establishment of the status epilepticus induced by pilocarpine are decrease in M(1) receptor density concentration and a reduction in DA and NE levels.
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PMID:Expression of muscarinic and dopaminergic receptors and monoamine levels frontal cortex of epileptic rats. 1656 74

There is evidence suggesting that protein kinase C (PKC) activation can prevent the enhanced network excitability associated with status epilepticus and group I metabotropic glutamate receptor (mGluR)-induced epileptogenesis. However, we observed no suppression of mGluR-induced burst prolongation in the guinea pig hippocampal slice when applied in the presence of the PKC activator phorbol-12,13-dibutyrate (PDBu). Furthermore, PDBu alone converted picrotoxin-induced interictal bursts into ictal-length discharges ranging from 2 to 6s in length. This effect could not be elicited by the inactive analog 4-alpha-PDBu and was suppressed with the PKC inhibitor chelerythrine, indicating PKC dependence. PKC activation can enhance neurotransmitter release, and both glutamate and acetylcholine are capable of eliciting similar prolonged synchronized discharges. However, neither mGluR1 nor NMDA receptor antagonist suppressed PDBu-driven burst prolongation, suggesting that increased glutamate release alone is unlikely to account for the PKC-induced expression of ictaform discharges. Similarly, atropine, a broad-spectrum muscarinic receptor antagonist, had no effect on PKC-induced burst prolongation. By contrast, AMPA/kainate receptor antagonist abolished PKC-induced burst prolongation, and mGluR5 antagonist significantly blunted the maximum burst length induced by PKC. These data suggest that PKC-induced prolongation of epileptiform bursts is dependent on changes specific to mGluR5 and AMPA/kainate receptors and not mediated simply by a generalized increase in transmitter release.
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PMID:Impact of protein kinase C activation on epileptiform activity in the hippocampal slice. 1871 54

Pilocarpine (PC), a muscarinic receptor agonist, is used for the induction of experimental models of status epilepticus (SE) for studying the type of seizure-induced brain injury and other neuropathophysiological mechanisms of related disorder. PC was administered to day-old Taiwan Native Breeder chicks and induced severe prolonged seizures (PC+PS) and repeated seizures (PC+RS) during 4h behavioral observations. Results showed that PC+PS group had excessive levels of reactive oxygen species (ROS) and malondialdehyde (MDA) production and lower activities of superoxide dismutase (SOD) and catalase (CAT) compared to the PC+RS group (p<0.05). Neuronal death and single strand DNA were significantly increased in dissociated brain cells of PC+PS group compared to that in the PC+RS group (p<0.01). Furthermore, a decrease in mitochondrial membrane potential (MMP) was observed in PC+PS group as compared with that in PC+RS group indicating neuronal mitochondrial dysfunction in PS group not in RS group. ROS, mitochondrial dysfunction and DNA damage played important roles in pathophysiology of the immature brain to prolonged-seizure-induced damage. A manifest result of depleted enzymatic antioxidants (SOD and CAT) was also contributed for the vulnerability of the neonatal brain to prolonged-seizure-induced oxidative damage. The replenishment of SOD and CAT activities might be useful in protecting brain against prolonged-seizure-induced neuronal death.
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PMID:The effects of pilocarpine-induced status epilepticus on oxidative stress/damage in developing animals. 1934 87

Exposure to organophosphorus (OP) compounds, either pesticides or chemical warfare agents, represents a major health problem. As potent irreversible inhibitors of cholinesterase, OP may induce seizures, as in status epilepticus, and occasionally brain lesions. Although these compounds are extremely toxic agents, the search for novel antidotes remains extremely limited. In silico modeling constitutes a useful tool to identify pharmacological targets and to develop efficient therapeutic strategies. In the present work, we developed a new in silico simulator in order to predict the neurotoxicity of irreversible inhibitors of acetyl- and/or butyrylcholinesterase (ChE) as well as the potential neuroprotection provided by antagonists of cholinergic muscarinic and glutamate N-methyl-d-aspartate (NMDA) receptors. The simulator reproduced firing of CA1 hippocampal neurons triggered by exposure to paraoxon (POX), as found in patch-clamp recordings in in vitro mouse hippocampal slices. In the case of POX intoxication, it predicted a preventing action of the muscarinic receptor antagonist atropine sulfate, as well as a synergistic action with the non-competitive NMDA receptor antagonist memantine. These in silico predictions relative to beneficial effects of atropine sulfate combined with memantine were recapitulated experimentally in an in vivo model of POX in adult male Swiss mice using electroencephalic (EEG) recordings. Thus, our simulator is a new powerful tool to identify protective therapeutic strategies against OP central effects, by screening various combinations of muscarinic and NMDA receptor antagonists.
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PMID:Modeling and simulation of organophosphate-induced neurotoxicity: Prediction and validation by experimental studies. 2710 87


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