Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0036572 (seizures)
 80,221 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The existence of long-lasting (15-18 h) alterations of neurotransmitter amino acid levels following a single or repeated acoustic stimulations in audiogenic seizure-prone Rb1 and Rb2 mice and seizure-resistant Rb3 mice were investigated. The levels of glutamate, aspartate, glycine, taurine, and of some of their precursors: glutamine and serine were determined. Fourteen brain areas were examined. Alterations were found only in 6 brain areas (pons, olfactory bulbs, superior colliculus, inferior colliculus, olfactory tubercles and raphe). Most frequent occurring changes were observed in pons and olfactory tubercles. These changes concerned mainly the excitatory amino acids, glutamate, and aspartate. Alterations of taurine, glycine and serine were also recorded.
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PMID:Long-lasting effects of audiogenic seizures on neurotransmitter amino acids in Rb mice. 168 75

The chronic epileptic syndrome induced by injecting tetanus toxin into rat hippocampus causes functional changes that essentially are permanent, outlasting the period of active seizures by at least 1 year. These long-term changes have been characterized by an impaired performance on a range of behavioral tasks, which in turn have been associated with a physiologic depression of hippocampal evoked responses but not with any discernible histopathology. In the present study, we examined the hippocampi of rats in the postseizure phase of the tetanus toxin model and observed no significant changes in the concentration of neurochemical markers for six neurotransmitters. Therefore, the long-term reduction in hippocampal excitability cannot be attributed to any major loss of afferents or hippocampal neurons using aspartate, acetylcholine, gamma-aminobutyric acid (GABA), glutamate, norepinephrine (NE), or serotonin as their transmitters.
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PMID:Lack of change in neurochemical markers during the postepileptic phase of intrahippocampal tetanus toxin syndrome in rats. 170 Sep 50

Autopsy study of a patient who died after an episode of prolonged unilateral status epilepticus revealed neuronal loss in the hippocampus on the epileptic side, with gliosis confined to the CA1 and CA3 fields. There was loss of the parvalbumin-immunoreactive gamma-aminobutyric acid (GABA)-ergic interneurons in the hippocampus on that side. There was also loss of the normal laminar pattern of substance P staining with increased substance P immunoreactivity in the supragranular plexus on that side. Met-enkephalin immunoreactivity was also increased in the outer molecular layer of the dentate gyrus on the epileptic side. Mossy fibers on the epileptic side stained more strongly with the Hicks' silver stain and with antibodies against glutamate and taurine, but less intensely with antibodies against calbindin. In the contralateral cerebellum, there was Purkinje cell loss, injury to the remaining Purkinje cells, and increased prominence of the Bergmann glia. Our observations show that prolonged unilateral seizure activity can be associated with specific histochemical changes in the human hippocampus.
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PMID:Neuropathologic asymmetries in the brain of a patient with a unilateral status epilepticus. 171 86

The antiepileptic agents, carbamazepine and phenytoin, suppress seizures in man and convulsant-induced hyperactivity in spinal cord nerve cell cultures. In the present study, we have shown by whole cell recording that carbamazepine, in contrast to phenytoin, blocks N-methyl-D-aspartate (NMDA)-activated membrane currents in cultured neurons in a dose-dependent fashion. The NMDA receptor-activated channel, which is blocked at physiological concentrations of Mg2+ at resting membrane potential, can be activated by glutamate in depolarized neurons and thus be involved in epileptogenesis. Therefore, the block of NMDA-evoked membrane currents in cultured neurons may contribute to the clinical effectiveness of carbamazepine.
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PMID:Carbamazepine blocks NMDA-activated currents in cultured spinal cord neurons. 171 36

Excessive activation of excitatory amino acid receptors has been implicated in the neuronal degeneration caused by ischemia, hypoglycemia, and prolonged seizures. We have observed directly the time course and regional vulnerability of hippocampal neurons to glutamate receptor-mediated injury in organotypic hippocampal cultures, a preparation which combines accessibility and long-term survival with preservation of regional differentiation and neuroanatomic organization. Cultures were incubated with the fluorescent dye propidium iodide which selectively enters and stains cells only after membrane damage. After 5 to 10 min of a 30-min exposure to kainate (100 microM), large neurons in the hilus of the dentate were first to become brightly fluorescent. Propidium staining subsequently appeared in the other regions of the hippocampus and increased to a maximum over the first 6 h of recovery. NMDA (10 microM) caused propidium staining that was limited to CA1 and the dentate gyrus of the cultures, sparing CA3, consistent with the regions of highest NMDA receptor density in vivo. Glutamate (1 mM) caused a delayed, progressive pattern of staining that began in CA1 (2 to 4 h after exposure), then extended to include CA3 and finally the dentate gyrus over the next 24 h. Release of LDH activity into the media was slower and less sensitive than propidium staining. Histologic degeneration was limited to neurons 24 h after agonist exposure and was consistent with the propidium staining. NMDA, kainate, and glutamate each produced a unique pattern of neuronal injury. Most notably, glutamate had low potency as a toxin and its pattern of neuronal injury was not reproduced by NMDA.
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PMID:Direct observation of the agonist-specific regional vulnerability to glutamate, NMDA, and kainate neurotoxicity in organotypic hippocampal cultures. 171 7

The amino acids L-glutamic and L-aspartic acids form the most widespread excitatory transmitter network in mammalian brain. The excitation produced by L-glutamic acid is important in the early development of the nervous system, synaptic plasticity and memory formation, seizures and neuronal degeneration. The receptors activated by L-glutamic acid are a target for therapeutic intervention in neurodegenerative diseases, brain ischaemia and epilepsy. There are two types of receptors for the excitatory amino acids, those that lead to the opening of cation-selective channels and those that activate phospholipase C (ref. 11). The receptors activating ion channels are NMDA (N-methyl-D-aspartate) and kainate/AMPA (alpha-amino-3-hydroxy-5-methyl-4-isoxazole propionate)-sensitive receptors. The complementary DNAs for the kainate/AMPA receptor and for the metabotropic receptor have been cloned. We report here on the isolation and characterization of a protein complex of four major proteins that represents an intact complex of the NMDA receptor ion channel and on the cloning of the cDNA for one of the subunits of this receptor complex, the glutamate-binding protein.
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PMID:Cloning of cDNA for the glutamate-binding subunit of an NMDA receptor complex. 183 48

For the majority of human epilepsy syndromes, the molecular and cellular basis for the epileptic activity remains largely conjectural. The principal hypotheses currently concern: defects in membrane ionic conductances or transport mechanisms; defects in gamma-aminobutyric acid (GABA)-mediated inhibitory processes; and enhanced or abnormal excitatory synaptic action. Substantial evidence exists in humans and animals for acquired abnormalities in excitatory amino acid neurotransmission that may participate in the abnormal patterns of neuronal discharge, and this could provide the morphological basis for a recurrent excitatory pathway sustaining seizure discharges in temporal lobe epilepsy. In practice, two approaches appear significant in the suppression of seizures. One is to act postsynaptically on receptors to decrease the excitation induced by glutamate, and the other is to decrease synaptic release of glutamate and aspartate. Agents acting upon adenosine or GABAB receptors decrease glutamate release in vitro but do not have significant anticonvulsant activity, probably because of their predominant actions at other sites. Lamotrigine blocks stimulated release of glutamate and shows anticonvulsant activity in a wide range of animal models.
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PMID:Excitatory amino acid transmitters in epilepsy. 172 42

Because previous work showed that in the newborn brain, but not in the adult brain, glutamate decarboxylase (GAD) is notably susceptible to heat, we have studied the possible involvement of GAD inhibition in febrile convulsions and the related changes in gamma-aminobutyric acid (GABA) content. Rats of different ages were subjected to hyperthermia, and GAD activity was determined in brain homogenates by measuring the release of 14CO2 from labeled glutamate and by measuring the formation of GABA. The latter method gave considerably lower values than the former in the youngest rats, and was considered more reliable. With this method, we found a 37-48% inhibition of GAD activity in rat pups 2-5 days old, which showed febrile seizures at progressively higher body temperatures, whereas in 10- and 15-day-old animals, which did not show convulsions, GAD activity was not affected by hyperthermia. Whole-brain GABA levels, however, did not change at any age. In contrast to GAD, choline acetyltransferase and lactic dehydrogenase activities were not altered by hyperthermia at any of the ages studied. These results suggest that a decreased efficiency of the inhibitory neurotransmission mediated by GABA, consequent to the inhibition of GAD activity, may be a factor related to febrile convulsions.
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PMID:Inhibition of brain glutamate decarboxylase activity is related to febrile seizures in rat pups. 172 43

A transgenic mouse line containing a fos-lacZ fusion gene was derived in which beta-galactosidase activity identified cell populations expressing fos either constitutively or after stimulation. Seizures and light pulses induced nuclear lacZ activity in defined populations of neurons in vivo, and an array of neurotransmitters, including glutamate, induced the transgene in primary brain cultures. In unstimulated mice, the major sites of fos-lacZ expression were skin, hair follicle, and bone. fos-lacZ mice provide a new avenue for activity mapping studies based on gene expression.
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PMID:fos-lacZ transgenic mice: mapping sites of gene induction in the central nervous system. 173 4

Domoate, a glutamate analog, is believed to be responsible for a seafood poisoning incident that caused acute neurological disturbances and chronic memory impairment in some victims, with the incidence of mortality and neuropsychological morbidity being highest among the aged. Domoate expresses neurotoxic (excitotoxic) activity in vitro by an action at the kainate subtype of glutamate receptor, and when administered to adult rats, it mimics kainate in causing status epilepticus and a severe seizure-brain damage syndrome. Because domoate is exceedingly expensive, we explored the feasibility of using kainate to study the age-linked features of domoate neurotoxicity. We administered kainate subcutaneously in various doses to young (5-6 months), middle-aged (12-13 months), and old (22-25 months) rats and found the middle-aged and old rats significantly more sensitive than young rats to the neurotoxic actions of kainate. Low doses of kainate, which were nontoxic to young rats, frequently triggered status epilepticus, associated brain damage, and precipitous death in old rats. Middle-aged rats were more sensitive than young rats, but less sensitive than old rats to kainate neurotoxicity. These results suggest that the kainate-treated rat may be a useful model for studying mechanisms underlying age-related aspects of the human domoate neurotoxic syndrome.
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PMID:Age-related sensitivity to kainate neurotoxicity. 174 99


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