Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

Administration of tacrine (5 mg/kg ip), an anticholinesterase agent, in rats pretreated (24 h beforehand) with lithium chloride (LiCl; 12 mEq/kg ip) provides a useful experimental model to study limbic seizures and delayed hippocampal damage. Here we report Western blotting evidence demonstrating that in rat LiCl and tacrine enhance the expression of neuronal nitric oxide synthase (nNOS), but not eNOS, enzyme protein in the hippocampus during the preconvulsive period and this triggers seizures and hippocampal damage. In fact, systemic administration of 7-nitro indazole (7-NI; 50 mg/kg given ip 30 min before tacrine), a selective inhibitor of nNOS, prevented the expression of motor and electrocortical (ECoG) seizures and abolished neuronal cell death in the hippocampus. A lower dose (5 mg/kg ip) of 7-NI was ineffective. In conclusion, the present data support a role for abnormal nNOS expression in the mechanism which triggers limbic seizures and delayed excitotoxic damage in the hippocampus of rat.
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PMID:Abnormal expression of neuronal nitric oxide synthase triggers limbic seizures and hippocampal damage in rat. 1184 98

Nitric oxide (NO) from endothelial or neuronal NO synthases (eNOS or nNOS) may contribute both to the cerebrovascular responses to oxygen and potentially to the peroxynitrite-mediated toxic effects of hyperbaric oxygen (HBO(2)) on the central nervous system (CNS O(2) toxicity). In mice lacking eNOS or nNOS (-/-), regional cerebral blood flow (rCBF) and 3-nitrotyrosine (3-NT), a biochemical marker for peroxynitrite (ONOO(-)) formation, were measured in the brain during HBO(2) exposure. These variables were then correlated with EEG spiking activity related to CNS O(2) toxicity. In wild-type (WT) mice, HBO(2) exposure transiently reduced rCBF, but by 60 min rCBF was restored to baseline levels and above, followed by EEG spikes. Mice lacking nNOS also showed initial depression of rCBF followed by hyperemia but the delay in the onset of EEG discharges was greater. In contrast, in eNOS-deficient mice rCBF did not decrease and hyperemia was less pronounced during HBO(2). EEG spike latency was longer in eNOS(-/-) compared to WT or nNOS(-/-) mice. 3-NT gradually increased in all strains during HBO(2) but accumulation was slower in nNOS(-/-) mice, consistent with less ONOO(-) production. These results indicate that NOS-deficient mice have different cerebrovascular responses and tolerance to HBO(2) depending on which enzyme isoform is affected. The data suggest a key role for eNOS-dependent NO production in cerebral vasoconstriction and in the development of hyperoxic hyperemia preceding O(2) seizures, whereas neuronal NO may mediate toxic effects of HBO(2) mainly by its reaction with superoxide to generate the stronger oxidant, peroxynitrite.
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PMID:Oxygen seizure latency and peroxynitrite formation in mice lacking neuronal or endothelial nitric oxide synthases. 1278 20

Increased neuronal nitric oxide synthase (nNOS) activity was observed during the prodromal period of seizures in various rat brain regions following administration of GABA(A) receptor antagonist, picrotoxin (PCT). Pretreatment with the selective nNOS inhibitor 7-nitroindazole (7-NI), dose- and time-dependently delayed the onset of clonus with a corresponding decrease in nNOS activity. The threshold dose of antiepileptic drugs (AEDs; diazepam, phenobarbitone and gabapentin) have potentiated the anticonvulsant action by pretreatment with graded doses of 7-NI. The increase in efficacy of anticonvulsant action correlated with a corresponding decrease of PCT-evoked increase in nNOS activity. The present data support a role for abnormal nNOS activity in mechanisms that trigger seizures and suggest a possible NO-mediated interplay between GABA(A) and glutamate receptors. The results of the present study provide evidence for a trigger role of neuronally produced NO in epileptogenesis induced by PCT and the participation of nNOS inhibitory mechanisms in the action of AEDs.
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PMID:Increased neuronal nitric oxide synthase (nNOS) activity triggers picrotoxin-induced seizures in rats and evidence for participation of nNOS mechanism in the action of antiepileptic drugs. 1285 May 75

Previous studies using the spin trapping agent N-tert-butyl-alpha-phenylnitrone (PBN) and the antioxidant vitamin E established the involvement of free radicals in kainic acid (KA)-induced neurotoxicity. In the present study, we examined the effects of the neuronal nitric oxide synthase (nNOS) inhibitor 7-nitroindazole (7-NI) to establish a possible role of nitric oxide (NO) in the neurotoxicity caused by KA-induced status epilepticus (SE). A single injection of KA (15 mg/kg, s.c.) induced seizures within 40-45 min, progressing to full seizure activity lasting about 3 h. Following microwave (head-focused) irradiation, perchloric acid extracts of rat brain regions (cortex, amygdala, and hippocampus) were analyzed for citrulline (determinant of NO) and high-energy phosphates (HEP) and their metabolites using high-performance liquid chromatograph (HPLC). KA-induced seizures produced a maximum increase in NO (3- to 6-fold) and a decrease in HEP (ATP 45-51% and phosphocreatine 45-58%) 2 h after KA injection in brain regions tested. 7-NI (50 mg/kg, i.p.) when given alone, reduced citrulline/NO levels (10-24%), while repeat administration of 7-NI (60 min apart) reduced NO levels by 32-49%. Neither application of 7-NI produced changes in HEP levels or toxicity. Pretreatment with 7-NI 30 min before KA injection, delayed the onset of seizures by 15-20 min, and significantly prevented an increase in NO and a decrease in HEP. Repeat administration of 7-NI, i.e. 30 min before and 30 min after KA injection, further increased protection by the delayed onset of seizures, attenuating the increase in NO and the decrease in HEP. Neurotoxicity of seizures involves activation of nNOS and of energy consumption in affected neurons. This increased energy consumption, coupled with decreased energy production caused by NO-induced mitochondrial dysfunction, may be a contributing factor to neuronal injury in KA toxicity.
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PMID:Prevention of kainic acid seizures-induced changes in levels of nitric oxide and high-energy phosphates by 7-nitroindazole in rat brain regions. 1288 40

Recent studies have implicated nitric oxide (NO*) as a mediator of CNS hyperbaric O2 (HBO2) toxicity. One mechanism by which NO* may contribute to HBO2-induced brain toxicity involves a neurotoxic, pro-oxidative action of NO* via the formation of the potent oxidant peroxynitrite (ONOO-). The present study compares: (a) the formation of protein nitrotyrosine as a marker of ONOO- accumulation and (b) protein oxidation as an indicator of reactive oxygen species production during HBO2 exposure. Rats were exposed to 5 atm 100% O2 to pre-convulsive exposure or until the occurrence of electroencephalographic (EEG) seizures. After exposures, brains were analyzed for protein nitrotyrosine (NT) and protein carbonyl measurement by Western blot and for superoxide dismutase (SOD) activity by NBT assay. The results show a significant increase in protein NT, exceeding control level by several fold. There was only a slow and non-significant increase in the quantity of oxidized proteins during the pre-convulsive phase of HBO2 exposure. Levels of both protein NT and protein carbonyls were significantly (p<0.05) elevated after seizures. Total SOD activity was not changed during preconvulsive exposures, but was significantly (p<0.05) elevated post-seizures. The specific neuronal nitric oxide synthase (NOS) inhibitor, 7-nitroindazole (7-NI), significantly reduced the increases in seizure-induced protein NT and protein carbonyl and at the same time very effectively (p<0.05) delayed onset of HBO2 seizures. Pre-seizure increases in protein NT might indicate its role in the mechanism of HBO2-induced brain toxicity. This is supported by the observed capacity of 7-NI to inhibit tyrosine nitration and increase time to seizure.
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PMID:Relationship between protein nitration and oxidation and development of hyperoxic seizures. 1455 28

PSD-93, a molecular adaptive protein, binds to and clusters the N-methyl-D-aspartate (NMDA) receptor and assembles a specific set of signaling proteins (for example neuronal nitric oxide synthase, nNOS) around the NMDA receptor at synapses in the central nervous system. This suggests that PSD-93 might mediate many NMDA receptor-dependent physiological and pathophysiological functions. We report here that PSD-93 colocalizes and interacts with the NMDA receptor and neuronal nitric oxide synthase in cultured cortical neurons. Targeted disruption of PSD-93 gene significantly prevented NMDA receptor-nitric oxide signaling-dependent neurotoxicity triggered via platelet-activating factor (PAF) receptor activation. In addition, the deficiency of PSD-93 markedly attenuated platelet-activating factor-induced increase in cyclic guanosine 3',5'-monophosphate (cGMP) and prevented platelet-activating factor-promoted formation of NMDA receptor-neuronal nitric oxide synthase complex. These findings indicate that PSD-93 is involved in the NMDA receptor--nitric oxide-mediated pathological processing of neuronal damage triggered via platelet--activating factor receptor activation. Since platelet-activating factor is a potent neuronal injury mediator during the development of brain trauma, seizures, and ischemia, the present work suggests that PSD-93 might contribute to molecular mechanisms of neuronal damage in these brain disorders.
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PMID:Targeted disruption of PSD-93 gene reduces platelet-activating factor-induced neurotoxicity in cultured cortical neurons. 1529 32

Epileptic seizures have been shown to increase the proliferation of granule cell precursors in the adult brain, but the underlying mechanisms remain largely unknown. This study examined the effect of nitric oxide (NO) on the proliferation of granule cell precursors in adult rats after pentylenetrazol (PTZ)-induced generalized clonic seizures. Using systemic bromodeoxyuridine (BrdU) to label dividing cells, we found that injection of the neuronal nitric oxide synthase (nNOS) inhibitor 7-nitroindazole (50 mg/kg i.p.) 10 min before PTZ significantly reduced the number of BrdU labeled cells in the dentate gyrus 3, 7, and 14 days after seizures (P < 0.05). Administration of the inducible NOS (iNOS) inhibitor aminoguanidine (100 mg/kg i.p.) also significantly inhibited the proliferation rate of neural precursor cells in the dentate gyrus at various time points after PTZ-induced seizures. Our findings suggest that epileptic seizures lead to increased cell proliferation in the adult rat dentate gyrus through NO-dependent mechanisms. Both the NO originating from nNOS and iNOS may be involved in brain repair after seizures.
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PMID:Effects of nitric oxide on dentate gyrus cell proliferation after seizures induced by pentylenetrazol in the adult rat brain. 1533 63

The major aim of this study was to elucidate the role of nitric oxide (NO) in the development of pentylenetetrazole (PTZ)-kindling as an animal model of primary generalized epilepsy. The daily administration of PTZ is associated with an increase in the amount of neuronal nitric oxide synthase (nNOS). NO generation was measured directly by in vivo and ex vivo electron paramagnetic resonance on rodents undergoing progressive convulsions. We found that primary generalized epilepsy is caused by NO induction during the persistent up-regulation of nNOS expression, but that NO induction is not associated with severe generalized seizures following long-term kindling phenomena after PTZ withdrawal. Morphological changes in the brain structure of rats were measured by magnetic resonance imaging during epileptic convulsions induced by repetitive administration of PTZ. Cerebellum volume for kindled rats decreased 20% but not in rats treated with the nNOS inhibitor, 3Br-7NI, suggesting that generation of NO in the cerebellum is related to decrease in cerebellum volume following PTZ-kindling.
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PMID:Magnetic resonance and biochemical studies during pentylenetetrazole-kindling development: the relationship between nitric oxide, neuronal nitric oxide synthase and seizures. 1554 97

The role of neuronal nitric oxide (NO) in the cerebrovascular response to partial seizures induced by intrahippocampal injection of kainate (KA) was investigated in mice deleted for the neuronal NO synthase gene (nNOS-/-) and in wild-type controls (WT). A second group of WT mice received the nNOS inhibitor, 7-nitroindazole (WT-7NI). Local cerebral blood flow (LCBF) was measured using the quantitative (14)C-iodoantipyrine method. Within the epileptic focus, all three groups of seizing mice (WT, WT-7NI, and nNOS-/-) showed significant 26-88% LCBF increases in ipsilateral hippocampus, compared to saline-injected mice. Contralaterally to the epileptic focus, KA seizures induced a 21-47% LCBF decreases in hippocampus and limbic cortex of WT mice and in most contralateral brain structures of nNOS-/- mice, while WT-7NI mice showed no contralateral CBF change. Neuronal NO appears to be not involved in the cerebrovascular response within the epileptic focus, but may rather have a role in the maintenance of distant LCBF regulation during seizures.
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PMID:Role of nitric oxide in cerebral blood flow changes during kainate seizures in mice: genetic and pharmacological approaches. 1568 55

The effects of 7-nitroindazole (7NI, a preferential neuronal nitric oxide synthase inhibitor) on the anticonvulsant activity of four second-generation antiepileptic drugs (AEDs: felbamate [FBM], lamotrigine [LTG], oxcarbazepine [OXC] and topiramate [TPM]) were studied in the mouse maximal electroshock-induced seizure (MES) model. Moreover, the influence of 7NI on the acute neurotoxic (adverse-effect) profiles of the studied AEDs, with regard to motor coordination, was determined in the chimney test in mice. Results indicate that 7NI (50 mg/kg; i.p.) significantly potentiated the anticonvulsant activity of OXC, but not that of FBM, LTG and TPM against MES-induced seizures and, simultaneously, it enhanced the acute neurotoxic effects of TPM, but not those of FBM, LTG and OXC in the chimney test in mice. 7NI at the lower dose of 25 mg/kg had no effect on the antiseizure activity and acute neurotoxic profiles of all investigated AEDs. Pharmacokinetic evaluation of interactions between 7NI and LTG, OXC and TPM against MES-induced seizures revealed no significant changes in free (non-protein bound) plasma AED concentrations following 7NI administration. Moreover, none of the examined combinations of 7NI with AEDs from the MES test were associated with long-term memory impairment in mice subjected to the step-through passive avoidance task. Based on our preclinical study, it can be concluded that only the combination of 7NI with OXC was beneficial, when considering its both anticonvulsant and acute neurotoxic effects. Moreover, the lack of impairment of long-term memory and no pharmacokinetic interactions in plasma of experimental animals make the combination of 7NI with OXC worthy of consideration for the treatment of patients with refractory epilepsy. The other combinations tested between 7NI and LTG, FBM and TPM were neutral, when considering their both anticonvulsant effects and acute neurotoxic profiles, therefore, no useful recommendation can be made for their clinical application.
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PMID:7-Nitroindazole potentiates the anticonvulsant action of some second-generation antiepileptic drugs in the mouse maximal electroshock-induced seizure model. 1646 66


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