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 regulation of neuronal nitric oxide synthase (NOS) mRNA levels during kindling epileptogenesis in the rat brain was investigated using in situ hybridization. Following 40 rapidly recurring seizures evoked by hippocampal stimulations, NOS mRNA expression decreased by 56% in the dentate granule cell layer (maximum at 2 h) and increased by 420,105 and 1260% in the CA1 and CA3 pyramidal layers and piriform cortex, respectively (maximum at 12-24 h). Gene expression had returned to control levels after one week. The presumed alterations of nitric oxide production, following the changes in NOS mRNA shown here, may modulate synaptic function during kindling development, and could influence neuronal vulnerability after epileptic insults.
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PMID:Regulation of neuronal nitric oxide synthase mRNA levels in rat brain by seizure activity. 881 61

Hypoxia-ischemia damages selected regions of the immature at different ages. Prior to 32 weeks gestation the periventricular white matter is selectively vulnerable but in the last trimester the basal ganglia become especially vulnerable to injury. Hypoxia-ischemia causes injury by activating a series of biochemical events that unfolds over a period of hours to days following the initial insult and we are investigating the ways in which age modifies these events. The cascade includes release of glutamate, overstimulation of excitatory amino acid receptors and raised intracellular levels of calcium. Clinically this series is manifested by hypoxic-ischemic encephalopathy (HIE), a syndrome that includes coma, seizures, a burst suppression EEG, respiratory depression and severe hypotonia. Clinical studies have established a relationship between the severity of neonatal encephalopathy and later manifestations of brain damage or cerebral palsy. Potential neuroprotective therapies need to be effective when given after the insult but the 'therapeutic time window' for most N-methyl-D-aspartate (NMDA) glutamate antagonists is limited after injury. Using a model of hypoxic-ischemic injury and neonatal rats and hypothermic-circulatory arrest in dogs, we found that immunohistochemical staining for neuronal nitric oxide synthase (nNOS) is markedly increased from 6 to 24 h after the insult in the basal ganglia and cortex. The induction of nNOS preceded the time of maximal neuronal necrosis and during the time when many apoptotic nuclei were appearing. We have also found that a brief period of 2 h of mild hypothermia (32 degrees C) following hypoxia-ischemia in neonatal rats delayed neuronal necrosis by more than a week. We are determining whether this delay is related to a change in nNOS activation. Induction of nNOS in the post-insult period may contribute to expression of injury and signs of encephalopathy following a hypoxic-ischemic insult.
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PMID:Hypoxic and ischemic disorders of infants and children. Lecture for 38th meeting of Japanese Society of Child Neurology, Tokyo, Japan, July 1996. 918 71

The possible roles for nitric oxide produced by neurons in epileptic conditions have been investigated from two different aspects: microcirculation and delayed damage. Our aim was to determine whether the selective inhibition of neuronal (type 1) nitric oxide synthase by 7-nitroindazole, during seizures induced by systemic kainate, modifies hippocampal blood flow and oxygen supply and influences the subsequent hippocampal damage. Experiments were performed in conscious Wistar rats whose electroencephalogram was recorded. 7-Nitroindazole (25 mg/kg, i.p.) or its vehicle was injected 30 min before kainate administration (10 mg/kg, i.p.) and then twice at 1-h intervals. Kainate triggered typical limbic seizures evolving into status epilepticus, identified by uninterrupted electroencephalographic spike activity. The seizures were stopped by diazepam (5 mg/kg, i.p.) after 1 h of status epilepticus. Three types of experiments were performed in vehicle- and 7-nitroindazole-treated rats. (1) Hippocampal nitric oxide synthase activity was measured under basal conditions, at 1 h after the onset of the status epilepticus and at 24 h after its termination (n = 4-6 per group). (2) Hippocampal blood flow and tissue partial pressure of oxygen were measured simultaneously by mass spectrometry for the whole duration of the experiment, while systemic variables and body temperature were monitored (n = 6 per group). (3) Hippocampal damage was revealed by Cresyl Violet staining and evaluated with a lesion score seven days after status epilepticus (n = 12 per group). Hippocampal nitric oxide synthase activity was not significantly modified during status epilepticus or the following day in vehicle-treated rats. In contrast, it was inhibited by 57% in 7-nitroindazole-treated rats, both in basal conditions and after 1 h of status epilepticus, but was not different from its basal level 24 h later. 7-Nitroindazole significantly decreased basal hippocampal blood flow and tissue partial pressure in oxygen by 30% and 35%, respectively without affecting any systemic or thermal variable. During status epilepticus, 7-nitroindazole significantly reduced the increase in hippocampal blood flow by 70% and prevented any increase in the tissue partial pressure of oxygen. Seven days later, the hippocampal damage in the CA1 and CA3 layers was significantly less in 7-nitroindazole-treated rats than in vehicle-treated rats. These results indicate that the inhibition of neuronal nitric oxide synthase by 7-nitroindazole protects neurons from seizure-induced toxicity despite reducing blood flow and oxygen supply to the hippocampus.
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PMID:Inhibition of neuronal (type 1) nitric oxide synthase prevents hyperaemia and hippocampal lesions resulting from kainate-induced seizures. 957 84

The change in neuronal nitric oxide synthase (nNOS) expression after status epilepticus induced by kainate was examined in the rat cerebral cortex. Expressional change was assessed using nNOS immunohistochemistry and reverse transcription-polymerase chain reaction for nNOS mRNA. Constitutive nNOS-positive neurons was observed in the cerebral cortex of the control group. At 1 and 3 days after status epilepticus, nNOS-positive neurons were present in a deep layer of various cortical regions such as primary motor cortex, secondary motor cortex, primary somatosensory cortex, secondary somatosensory cortex, parietal association cortex, insular cortex, ectorhinal cortex, temporal association cortex, auditory cortex and visual cortex. The level of nNOS mRNA increased at 1, 3, 6 and 12 days after status epilepticus compared to controls. This report provides the first morphological evidence that nNOS are induced in neurons of the cerebral cortex following seizure.
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PMID:Transient induction of neuronal nitric oxide synthase in neurons of rat cerebral cortex after status epilepticus. 1068 13

7-Nitroindazole, a selective neuronal nitric oxide synthase inhibitor (25-200 mg kg(-1), intraperitoneally (i.p.)) antagonized audiogenic seizures in DBA/2 mice in a dose-dependent manner. We investigated the effects of 7-nitroindazole at a dose of 25 mg kg(-1) i.p., which per se did not show anticonvulsant activity against audiogenic seizures in DBA/2 mice, on the antiseizure activity of some conventional antiepileptic drugs. 7-Nitroindazole sometimes potentiated the anticonvulsant activity of carbamazepine, diazepam, lamotrigine, phenytoin, phenobarbital and valproate against audiogenic seizures in DBA/2 mice. The degree of potentiation by 7-nitroindazole was greatest for phenobarbital and diazepam, less for valproate and least for carbamazepine, lamotrigine and phenytoin. The increase in anticonvulsant activity was associated with a comparable increase in motor impairment. However, the therapeutic index of combined treatment with diazepam+7-nitroindazole, phenobarbital+7-nitroindazole or valproate+7-nitroindazole was more favourable than that of the diazepam+vehicle, phenobarbital+vehicle or valproate+vehicle treatment. The results indicate that 7-nitroindazole is able to increase the protective activity of some conventional antiepileptics and this effect appears not to result only from the impaired synthesis of nitric oxide. In fact, mice receiving 7-nitroindazole (25 mg kg(-1), i.p.) and L-arginine (30 microg/mouse, intracerebroventricularly (i.c.v.) did not show significant changes of ED(50) values in comparison to those of related groups of animals treated with 7-nitroindazole and anticonvulsants. 7-Nitroindazole was able to increase the brain levels of dopamine and noradrenaline and its anticonvulsant effects and changes in catecholamine content were antagonized by pretreatment with alpha-methyl-paratyrosine, an agent inhibiting the synthesis of catecholamines. The fact that alpha-methyl-paratyrosine reverses concomitantly both the increase in brain levels of dopamine and noradrenaline and the anticonvulsant properties of 7-nitroindazole strongly suggests an important role of catecholamines in the antiseizure activity of 7-nitroindazole. Since 7-nitroindazole did not significantly influence the total and free plasma levels of the anticonvulsant drugs studied, we suggest that pharmacokinetic interactions, in terms of total or free plasma levels, are not probable. 7-Nitroindazole did not significantly affect the hypothermic effects of the anticonvulsant compounds studied. 7-Nitroindazole showed an additive effect when administered in combination with some classical anticonvulsants, most notably diazepam, phenobarbital and valproate and its activity could be, in part, due to an increase of monoamine levels.
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PMID:7-Nitroindazole potentiates the antiseizure activity of some anticonvulsants in DBA/2 mice. 1077 Dec 93

The postsynaptic density is a highly dynamic structure, which is reorganized in an activity-dependent manner. An animal model for temporal lobe epilepsy, i.e. kainate-induced limbic seizures in rats, was used to study changes in postsynaptic density composition after extensive synaptic activity. Six hours after kainate injection, the protein content of the postsynaptic density fractions from rats that developed strong seizures was increased three-fold compared to saline-treated controls. Immunoblot analysis revealed that the relative amounts of metabotropic glutamate receptor 1alpha, N-ethylmaleimide-sensitive fusion protein, protein kinases C, Fyn and TrkB, as well as the neuronal nitric oxide synthase, were significantly higher in seizure-developing than in control rats. In contrast, the relative contents of the kainate receptor KA2 subunit, beta-actin, alpha-adducin and the membrane-associated guanylate kinase homolog SAP90/PSD-95 were decreased. The relative amounts of additional postsynaptic density proteins, including alpha-amino-3-hydroxy-5-methyl-4-isoxazolepropionate and N-methyl-D-aspartate receptor subunits, calcium/calmodulin-dependent kinase type II, casein kinase 2, tubulin, microtubule-associated protein 2B, the membrane-associated guanylate kinase homolog SAP102, and proline-rich synapse-associated protein 1/cortactin binding protein 1/Shank2 remained essentially unchanged. To assess possible changes in postsynaptic performance, postsynaptic densities were isolated from control and epileptic rats, incorporated into giant liposomes and N-methyl-D-aspartate receptor currents were recorded. A significant reduction in the mean conductance was observed in patches containing postsynaptic densities from animals with high seizure activity. This was due to the presence of reduced conductance levels in each membrane patch compared to control postsynaptic density preparations. From these data, we suggest that intense synaptic activity associated with seizures modifies the composition of postsynaptic densities and has profound consequences on the function of the N-methyl-D-aspartate receptors present in them. This rearrangement may accompany impairment of synaptic plasticity.
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PMID:Kainate-induced seizures alter protein composition and N-methyl-D-aspartate receptor function of rat forebrain postsynaptic densities. 1122 70

The time course of alteration in neuronal nitric oxide synthase (nNOS) and the influence of glutamate receptor antagonists on immunoreactivity of nNOS were investigated immunohistochemically in rat hippocampus during penicillin-induced epilepsy. It was found that nNOS-like immunoreactivity in hippocampus increased at 4 h after initiation of seizure and reached a peak at 24 h. When MK-801 (6 micrograms) and DNQX (4 micrograms) were injected respectively into hippocampus 20 min before administration of penicillin, seizure was reduced in strength. Meanwhile, the nNOS-like immunoreactivity in hippocampus was decreased, compared with the group which were administered penicillin alone. These results suggest that the increase of nitric oxide may be related to the injury of neurons during and after epilepsy; the changes' of nNOS may be related to the activity of NMDA and non-NMDA receptors. Neuron protective effect of MK-801 and DNQX may be in part mediated by nNOS.
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PMID:[The relation between changes of nitric oxide synthase in hippocampus and activities of excitatory amino acid receptor during epilepsy]. 1132 44

In order to investigate the effect of 7-nitroindazole (7-NI) on penicillin-induced epilepsy and the relationship between NO and anti-epileptic effect of electro-acupuncture, computerized physiological polygraph and NO-sensitive electrode with potentiostat were respectively used to record the total power spectrum (TPS) of EEG and the concentration of NO in rat hippocampus pretreated with electro-acupuncture or 7-NI for 30 min before penicillin. The results showed that the TPS of EEG and concentration of NO in hippocampus increased greatly after the epilepsy induction. Treatment with electroacupuncture inhibited the TPS of EEG sharply (P < 0.01). The latency and threshold of epilepsy induction were decreased by 7-NI, but paroxysm abated and the TPS was inhibited (P < 0.05) as compared with the control group. Both pretreatments with 7-NI and electroacupuncture decreased the NO concentration (P < 0.01). The above results suggest that the propagation of penicillin-induced seizures is facilitated by nNOS, but with some increase in the latency and threshold of induction. Electroacupunture may inhibit seizure through decreasing nNOS transcription in hippocampus.
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PMID:[Effect of electroacupuncture and 7-NI on penicillin-induced epilepsy and their relation with intrahippocampal NO changes]. 1149 47

Small heat shock proteins have been implicated in playing a role in various cellular processes, including stress-induced cell death. In kainic acid (KA)-treated rat brain, the immunoreactivity of heat-shock protein 27 (HSP27) was markedly increased in glia cells of the limbic system. In the present study, we demonstrated that alpha B-crystallin, a member of the small heat-shock protein family, was strongly induced in reactive astrocytes in hippocampus after KA-induced seizure. The induction was localized mainly in the CA3 region of hippocampus, where massive neuronal loss occurred. We also demonstrated that the delayed induction of alpha B-crystallin and HSP27 immunoreactivities in the hippocampus of epileptic animals was repressed to the levels seen in control animals with preadministration of the selective nNOS inhibitor 7-nitroindazole (7-NI). This repression was reversed by coinjection of L-arginine, a substrate of NOS. Together, these data suggest a role for alpha B-crystallin and HSP27 in reactive gliosis and/or in delayed neuronal death proceeded after KA-induced seizure.
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PMID:Delayed induction of alpha B-crystallin in activated glia cells of hippocampus in kainic acid-treated mouse brain. 1153 26

Activation of p38 mitogen-activated protein kinase (p38 MAPK) has been implicated in pathological changes in inflammatory and apoptotic processes in various cell types including neurons. Here we report the delayed induction of p38 MAPKs in the brain of mice following kainic acid (KA)-induced seizure. The immunoreactivities of p38alpha and p38beta MAPKs were markedly increased in the brain 4 days after KA administration, especially in the areas undergoing selective neuronal loss. In particular, p38beta was dramatically increased in reactive astrocytes of CA3 and CA1 regions of hippocampus with its enriched localization in the nucleus of astrocytes. The induction of p38beta was sustained for more than 10 days after KA-treatment. Pre-administration of the selective neuronal nitric oxide synthase (nNOS) inhibitor, 7-nitroindazole (7-NI), which suppressed the delayed neuronal death as well as astrogliosis in hippocampus of seizure-experienced animals, dramatically repressed the delayed induction of p38beta MAPK in astrocytes. The repression was reversed by the co-injection with L-arginine (L-arg), a substrate for NOS, which coincided with the aggravation of neuronal death. Together, these data suggested a role of p38 MAPK signal pathway in delayed neuronal death and/or in reactive gliosis in mice with KA-induced seizure.
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PMID:Delayed induction of p38 MAPKs in reactive astrocytes in the brain of mice after KA-induced seizure. 1159 76


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