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Query: UMLS:C0036572 (seizures)
 80,221 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The expression of fos-like immunoreactivity (FLI) has been used widely as a marker of neural activation following the induction of seizures in several experimental models of epilepsy. The purpose of the present study was to provide a more detailed regional analysis of FLI expression following the induction of seizures by maximal electroshock (MES) and pentylenetetrazole (PTZ). Tonic-clonic seizures, matched for duration, were induced by MES applied by earclips (40 mA, 1 s) and intraperitoneal injections of PTZ (60 mg/kg); tonic hindlimb extension was present only after MES. Two hours after the induction of seizures brain tissue was processed for FLI. High levels of FLI were induced by both convulsion-inducing processes in a range of structures, including the dentate gyrus, the caudal amygdala, parts of the cerebral cortex, the bed nucleus of stria terminalis, various thalamic nuclei, the lateral parabranchial nucleus, and the nucleus of the solitary tract. In other structures, such as the medial and rostral amygdala, the ventromedial hypothalamic nucleus, the peripeduncular area, the central gray, and parts of the pretectum and superior colliculus, significantly greater FLI was induced by MES. Only in relatively few structures, such as the reticular thalamic nucleus and arcuate nucleus of the hypothalamus, did PTZ cause a much larger expression of FLI than MES. Insofar as the c-fos technique reflects neuronal activation, the present data reveal potentially important differences in the circuitry underlying the seizures induced in two major experimental models of epilepsy.
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PMID:Regional expression of fos-like immunoreactivity following seizures induced by pentylenetetrazole and maximal electroshock. 130 85

Immediate early response genes have been shown to be inducible in the central nervous system after a variety of stimuli. Induction of these transcription factors in cerebral cortex by a physiological stimulus had not previously been demonstrated. In this study, tactile stimuli induced multiple transcription factors in the somatosensory cortex. Adult male rats were lightly anesthetized with urethane. Tactile stimuli was delivered by a paint brush gently stroking an animals whiskers on one side of its face for a 15 min period. Two h later, the animals were sacrificed. Cortex contralateral to the stimulation was compared with ipsilateral cortex using antibodies raised against immediate early response gene products NGFI-A, NGFI-B, and c-fos. The different transcription factors showed slightly different patterns of response to the tactile stimulus. However, the induction of immunohistochemical staining was most prominent in layer 4 with all antibodies under study. This increase in the number of cell bodies stained was less robust than that seen in the somatosensory cortex after a seizure, and showed more of a predominance in layer 4 cells. These data demonstrate that physiologic stimulation can induce immediate early response genes in cortical cells, and that multiple immediate early response genes react to a stimulus.
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PMID:Induction of transcription factors in somatosensory cortex after tactile stimulation. 131 99

The expression of the protein products of the immediate-early genes c-fos, Fos B, Fos-related proteins (FRAs), c-jun, jun B, jun D and krox-24 was investigated in the rat hippocampus at various times after electrically-induced hippocampal seizures. Hippocampal seizures induced all the immediate-early gene proteins in dentate granule cells with differing time-courses. In addition, Krox-24, Fos and Jun D were also induced in somatostatin-containing interneurons throughout the hippocampus and also in a small percentage of parvalbumin-containing interneurons. Thus, hippocampal seizures induce waves of immediate-early gene protein expression in dentate granule cells and a selective expression of krox-24, Fos and Jun D in hippocampal somatostatin interneurons. These results suggest that biochemical and/or morphological changes occurring in dentate granule cells and somatostatin interneurons after seizures may be regulated by immediate-early gene expression, and that these immediate-early gene proteins may be involved in seizure development in the nervous system.
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PMID:Induction of immediate-early gene proteins in dentate granule cells and somatostatin interneurons after hippocampal seizures. 134 20

Administration of the selective D1-dopamine receptor agonist 2,3,4,5-tetrahydro-7,8-dihydroxy-1-phenyl-1H-3-benzazepine (SKF-38393) to neonatal 6-hydroxydopamine-lesioned rats results in profound behavioral manifestations and induction of striatal c-fos-like immunoreactivity. The full D1-dopamine agonist I,[R,S]1-aminomethyl-3,4-dihydro-5,6-dihydroxy-3-phenyl-1H-2-benzopyran hydrochloride (A-68930), like SKF-38393, produced a dose-dependent, D1-selective increase in locomotor activity and striatal c-fos-like immunoreactivity. These responses were antagonized by a D1-dopamine antagonist, but not by a D2-dopamine antagonist. A-68930 produced locomotor activation at a lower dose than SKF-38393, but no dose of A-68930 was able to produce the magnitude of locomotor activation seen with SKF-38393. Both A-68930 and SKF-38393 induced similar stereotyped behaviors and possessed similar propensities to induce self-injurious behavior in neonatally lesioned rats; however, A-68930 was significantly more potent than SKF-38393 in inducing these behaviors. When either SKF-38393 or A-68930 were administered repeatedly at 2-week intervals, behavioral sensitization (priming) occurred. However, unlike SKF-38393, a high dose of A-68930 produced seizure activity and markedly desensitized D1-dopamine receptor activation for up to 3 days after administration. These results with A-68930 provide additional evidence that the specific behavioral and biochemical responses observed in neonatally lesioned rats after SKF-38393 administration are due to actions on D1-dopamine receptors, and indicate that A-68930 provides a new tool for investigating D1-dopamine receptor function.
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PMID:Comparison of the D1-dopamine agonists SKF-38393 and A-68930 in neonatal 6-hydroxydopamine-lesioned rats: behavioral effects and induction of c-fos-like immunoreactivity. 135 57

The present study examined changes in mRNA expression of various neuropeptides at several stages of amygdala kindled seizures. 35S-labelled oligonucleotide probes for mRNA of enkephalin (ENK), dynorphin (DYN) and thyrotropin releasing hormone (TRH) were hybridized to brain sections of rats sacrificed 24 h after a stage 1 or stage 5 seizure, or 2 weeks after a stage 5 seizure. Changes in expression developed as kindling progressed, with long-lasting changes in ENK and transient changes in DYN and TRH. ENK mRNA levels increased in pyriform and entorhinal cortices at stage 1 and 5 and remained elevated in the pyriform two weeks after a stage 5 seizure. In contrast, DYN mRNA was decreased bilaterally in the dentate gyrus 24 h after a stage 5 seizure, but returned to control levels two weeks after a stage 5 seizure. TRH mRNA was dramatically increased 24 h after a stage 1 or stage 5 seizure. After a stage 1 seizure two patterns developed. One showed increases in the pyriform, entorhinal and perirhinal cortices ipsilateral to the stimulation. The other pattern displayed bilateral increases in the dentate gyrus with or without the unilateral increases the limbic cortices. Twenty-four hours after a stage 5 seizure, large bilateral increases were found in these areas, but these returned to baseline levels by two weeks after a stage 5 seizure. The data demonstrate a constellation of alterations in several peptide systems with distinct spatiotemporal patterns, particularly in regions known to be important in kindling and epilepsy, such as the dentate gyrus and pyriform and entorhinal cortices. The relationship of these neuropeptide mRNA changes to those previously found in c-fos mRNA expression during the development of kindling is discussed.
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PMID:Alterations in mRNA of enkephalin, dynorphin and thyrotropin releasing hormone during amygdala kindling: an in situ hybridization study. 135 74

Recent studies in this laboratory have demonstrated that intramuscular injection of the irreversible acetylcholinesterase (AChE) inhibitor, soman (pinacolylmethylphosphonofluoridate), produces a rapid (1-2 h) and profound depletion (70% of control) of norepinephrine (NE) in the olfactory bulb and forebrain. NE is decreased only in convulsing animals. As NE-containing locus coeruleus (LC) neurons provide the only NE input to the olfactory bulb and the major NE innervation of the forebrain, the reduction of NE suggests that soman may cause tonic activation of LC neurons leading to rapid depletion of NE. Activation of LC may result from: (i) facilitation of cholinergic transmission in LC; (ii) soman-induced activation of excitatory inputs to LC; or (iii) generalized activation of LC neurons due to seizures. The present experiments were designed to assess these alternatives. We examined whether LC neuronal activity, c-fos expression, and AChE staining are altered after peripheral (systemic) or direct intracoerulear injection of soman in anesthetized rats. Both modes of soman administration rapidly and potently increase the spontaneous discharge rate of LC neurons. This activation was associated with a desynchronization of the electroencephalogram, but not with seizures. The discharge of LC neurons remained elevated at all postsoman intervals examined (up to 2 h) and was rapidly and completely reversed by systemic injection of the muscarinic receptor antagonist scopolamine hydrochloride, but not by the nicotinic receptor antagonist mecamylamine. Both systemic and intracoerulear soman administration completely inhibited AChE staining in LC and rapidly induced the expression of c-fos in LC neurons. These results demonstrate that soman potently and tonically activates LC neurons. This effect appears to be mediated by direct inhibition of AChE in LC leading to a rapid accumulation of ACh. Unhydrolyzed ACh tonically activates LC neurons via muscarinic receptors. Soman-induced activation of LC neurons does not require seizures. We conclude that depletion of forebrain and olfactory bulb NE after systemic administration of soman results from tonic hypercholinergic stimulation of LC.
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PMID:Tonic activation of locus coeruleus neurons by systemic or intracoerulear microinjection of an irreversible acetylcholinesterase inhibitor: increased discharge rate and induction of C-fos. 138 4

Kindling induces long-term adaptations in neuronal function that lead to a decreased threshold for induction of seizures. In the present study, the influence of amygdala kindling on levels of mRNA for the immediate-early genes (IEGs) c-fos, c-jun, and NGF1-A were examined both before and after an acute electroconvulsive seizure (ECS). Although amygdala kindling did not significantly influence resting levels of c-fos mRNA in cerebral cortex, ECS-stimulated levels of c-fos mRNA (examined 45 min after ECS) were approximately twofold greater in the cerebral cortex of kindled rats relative to sham-treated controls. The influence of kindling on IEG expression was dependent on the time course of kindling, as ECS-stimulated levels of c-fos mRNA were not significantly increased in stage 2 kindled animals. ECS-stimulated levels of c-jun and NGF1-A mRNA were also significantly increased in cerebral cortex of kindled rats relative to sham-treated controls. The influence of kindling on IEG expression was long-lasting because an acute ECS stimulus significantly elevated levels of c-fos and c-jun mRNA in the cerebral cortex of animals that were kindled 5 months previously. In contrast to these effects in cerebral cortex, kindling did not influence ECS-stimulated levels of c-fos mRNA in hippocampus. Finally, immunohistochemical studies revealed lamina-specific changes in the cerebral cortex.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Amygdala kindling potentiates seizure-stimulated immediate-early gene expression in rat cerebral cortex. 140 20

The effects of intraseptal application of atropine on c-fos proto-oncogene expression related to soman treatment were studied by immunohistochemistry for c-Fos-like proteins. In control rats, 2 h after the onset of convulsion, c-Fos-like immunoreactivity was intense in the piriform and entorhinal cortices, but also in the cingulate, frontoparietal and retrosplenial cortices. In addition, the staining was moderate in the hypothalamus, amygdala and fascia dentata. The intraseptal application of atropine, which prevented soman-induced convulsions, reduced or even blocked c-Fos-like protein production related to soman treatment. This inhibition of Fos induction was significant in most of the limbic structures but also in non-limbic areas. The data in this study strongly suggest that the cholinergic cells of the medial septal area play a key role in soman-induced seizures, and confirm that c-Fos-like protein induction is closely related to neuronal hyperactivity.
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PMID:Influence of medial septal cholinoceptive cells on c-Fos-like proteins induced by soman. 145 Sep 6

The demonstration that the immediate-early gene c-fos is rapidly and transiently expressed in brain following a variety of manipulations has led to intense study of these genes to determine what physiological role they play. The very wide range of stimuli which lead to induction of immediate-early genes (IEGs) in the brain has raised concerns for the specificity of their actions and the suggestion that they might merely be involved in housekeeping functions. On the other hand, there is evidence that these genes may play a role in the transmission of information from cell surface receptors to the genetic material in many instances of neuronal plasticity, including development of seizure susceptibility (kindling), long-term potentiation, drug-induced changes, the phase shift in circadian rhythms, and spreading neuronal depression. In addition to being a putative third (or fourth) messenger involved in transduction of signals to the genetic material, activation of IEGs has proven to be a useful tool for the study of transsynaptic activation of certain neuronal pathways in the brain. Thus, studies on the induction of IEGs are proving to be especially useful in understanding some important functions and properties of the mammalian brain.
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PMID:Immediate-early genes, neuronal plasticity, and memory. 148 50

In situ hybridization for c-fos mRNA was performed on brain sections (a) from rats after an acute cocaine-induced seizure or from saline-injected controls and (b) from rats after their first cocaine-kindled seizure, as well as from rats that had not yet developed cocaine-kindled seizures (but were exposed to the same amount of cocaine as those that did exhibit convulsions) and from saline-injected controls. Increased expression of c-fos mRNA was observed in animals demonstrating cocaine-induced seizures acutely or following pharmacological kindling. Rats that experienced acute seizures after cocaine (65 mg/kg) showed pronounced increase in expression of c-fos mRNA in the dentate gyrus of the hippocampus and olfactory bulb. Increases were also observed in several other limbic cortical regions, as well as the striatum and ventromedial hypothalamic nucleus (VMH). In rats that were injected daily with an initially subconvulsive dose of cocaine-HCl (40 mg/kg), the cocaine-kindled seizures induced elevations in c-fos mRNA in the same brain regions as with an acute cocaine-induced seizure with the single exception of the VMH. These findings not only suggest the involvement of limbic, cortical and striatal structures in the cocaine-induced seizure, but also raise the possibility that alterations in the proto-oncogene c-fos and its subsequent impact on gene expression could play a role in the changes in neural excitability associated with cocaine-induced kindling.
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PMID:Expression of c-fos mRNA in acute and kindled cocaine seizures in rats. 149 73


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