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)

Kainate, a potent excitatory and neurotoxic agent, has also proved useful in studies on other glutamate-driven phenomena, such as neuronal plasticity. Long-term effects of kainate are apparently dependent on its influence on the expression of various genes, including those encoding the AP-1 transcription factor, consisting of proteins belonging to the Fos and Jun families. In our studies we analysed c-fos, fos B, c-jun, jun B and jun D mRNA levels as well as a functional feature of AP-1, its DNA-binding activity, in the rat brain following systemic injection of kainate. Two phases of elevated AP-1 DNA-binding activity were observed in the hippocampus and entorhinal cortex, and were correlated with period of seizures (2 and 6 h after kainate injection) and neuron damage (48-72 h). At 72 h after kainate treatment DNA fragmentation, believed to be diagnostic of apoptotic processes typical of programmed cell death phenomena, was noted. Two and six hours after the treatment, AP-1 consisted predominantly of Fos B, c-Fos, Fra-2 and Jun B, while at 72 h Jun D constituted the major AP-1 component in place of Jun B, and no c-Fos was detected. Only a slight AP-1 increase was seen 24 h after kainate treatment. In the sensory cortex, only the late phase of AP-1 elevation was detected. Contrary to AP-1, no effect of kainate on levels of two other transcription factors, CREB/ATF (cAMP-responsive element binding proteins) and OCT (octamer element DNA-binding activity) was seen.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Dynamic changes in the composition of the AP-1 transcription factor DNA-binding activity in rat brain following kainate-induced seizures and cell death. 785 19

Kindling is a model in which fleeting changes of neuronal activity produce a lifelong modification of neuronal structure and function in the mature nervous system. Immediate-early genes (IEGs) such as c-fos have been implicated as a causal link in the chain of molecular events coupling fleeting pathologic activity to lasting hyperexcitability. Identification of the brain structures exhibiting IEG expression during the evolution of kindling is necessary to guide investigations of the phenotypic consequences. We used in situ hybridization histochemistry to identify the structures exhibiting expression of multiple IEGs during the evolution of amygdala kindling and compared this to the pattern following angular bundle kindling. The principal findings included that: (1) generalized limbic and clonic motor (class 5) kindled seizures evoked by stimulation of one amygdala induced the expression of IEGs in a small subset of limbic structures with remarkable symmetry between the two hemispheres; (2) the anatomic extent of seizure-evoked expression of c-fos mRNA expanded progressively following focal limbic and motor (classes 0-3) seizures during the development of amygdala kindling; c-fos mRNA was detected first ipsilaterally in AM, ACO, and PC and with higher-class seizures in hippocampal formation and homologous structures contralaterally, and (3) class 5 seizures evoked by stimulation of two different sites in the limbic system (amygdala or angular bundle) induced IEG expression in distinct but partially overlapping anatomic structures. We propose that synaptic activation of glutamate receptors contributes to the expression of these diverse IEGs throughout the forebrain. The findings provide a constellation of anatomic structures in which to investigate the structural and functional consequences of IEG expression.
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PMID:Differences in the anatomic distribution of immediate-early gene expression in amygdala and angular bundle kindling development. 789 Nov 85

Metabolic stressors such as hyperthermia, seizures and ischemic hypoxia result in the induction of c-fos and heat-shock proteins (HSP) in affected brain cells of the adult rodent, especially within the hippocampal region, which normally has high metabolic demands. Here we ligated the uterine vessels of gestational day (GD) 21 rat pups to produce ischemic hypoxia. We confirmed that HSP-72 protein, as previously reported, was activated in the perinatal rat pup, especially in the hippocampal CA3 region. However, the capability of hippocampal cells to produce c-fos protein following drug-induced seizures has been reported to develop only after postnatal day 13. Here, ischemic hypoxia caused CA1 hippocampal cells to produce immunohistochemically detectable c-fos protein in GD-21 rats. These results seem to contradict the previous reports of no c-fos induction in rats this young by demonstrating a functional c-fos translational mechanism by GD-21. However, seizure vs ischemic hypoxia-induced c-fos expression may involve several different pre-translational pathways. A delayed development of a receptor, second messenger, or genomic element for regulating c-fos transcription remain as possible explanations for the late maturity of responsivity to seizures.
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PMID:The effects of reduced perfusion and reperfusion on c-fos and HSP-72 protein immunohistochemistry in gestational day 21 rat brains. 790 May 42

We performed studies to determine the anatomical regions and chemical phenotypes of neurons within the rat medulla oblongata activated by pentylenetetrazole-induced seizures. Activated cells were identified by their expression of the c-fos gene, detected by in situ hybridization for c-fos mRNA and immunocytochemistry for Fos protein. Activated cells were located predominantly in nucleus tractus solitarius (NTS), with c-fos mRNA appearing within 20 min after seizures (peak at 1-2 h), followed by Fos immunoreactivity visible at 1 h (peak at 2-4 h). Neither nonspecific noxious stimulation by intraperitoneal injection of saline nor brief exposure to hypoxic or hypercapnic gas mixtures to stimulate chemoreceptors reproduced this pattern of labeling. Prodynorphin or proenkephalin mRNA, detected by in situ hybridization, was colocalized with Fos immunoreactivity in many NTS cells. Thus, seizures activate neuronal pathways in the medulla oblongata which express genes for endogenous opioids. Potential long-term effects of seizures are suggested by the in situ hybridization finding that NTS prodynorphin mRNA increased 24 h after seizures compared to control levels.
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PMID:Activation of the c-fos gene in prodynorphin- and proenkephalin-expressing cells of nucleus tractus solitarius after seizures. 795 42

In naive Wistar rats susceptible to sound, a single audiogenic seizure induced the expression of c-fos in the subcortical auditory nuclei whereas the forebrain was almost completely devoid of any labelling. After kindling of audiogenic seizures by 40 daily exposures to sound, the seizure induced a strong c-fos expression in the amygdala, the piriform cortex, the hippocampus and the neocortex. These results confirm: (1) that audiogenic seizures are brain-stem seizures related to dysfunction of auditory pathways, and (ii) that kindling of audiogenic seizures recruits forebrain and limbic structures into the seizure network.
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PMID:C-fos expression after single and kindled audiogenic seizures in Wistar rats. 797 Feb 12

The mRNA levels of four immediate early genes (IEG) were measured in rat brain regions 60 min after administration of pilocarpine (30 mg/kg) to lithium-treated (3 mmol/kg) rats, during generalized convulsive status epilepticus. Northern blots demonstrated induction of the genes in the order of c-fos = jun-B > c-jun > jun-D with large increases in the cerebral cortex, hippocampus, and striatum, a smaller increase in the cerebellum, and less in the brainstem. The mRNA levels of these four IEG were measured in rat cerebral cortex and hippocampus at several times after administration of the cholinergic agonist pilocarpine (5 or 30 mg/kg) with or without lithium pretreatment (3 mmol/kg, 16 h prior, or chronic 4 week dietary administration). Treatment with pilocarpine (30 mg/kg) alone increased mRNA levels in the order of c-fos > jun-B > c-jun but did not change the jun-D mRNA level, and maximal c-fos and jun-B mRNA levels occurred earlier (30 min) in the cortex than in the hippocampus. Treatment with the lower dose of pilocarpine (5 mg/kg) alone caused only small increases in c-fos and jun-B mRNA levels and these responses were unaffected by lithium pretreatment. Lithium pretreatment potentiated IEG expression induced by 30 mg/kg pilocarpine, likely as a result of the seizures caused by this combination of drugs because pretreatment with anticonvulsants (diazepam or MK-801) blocked seizures and the enhanced IEG mRNA levels. The mRNA levels were increased during seizures in the order of c-fos > jun-B > c-jun > jun-D in the hippocampus and jun-B > c-fos > c-jun > jun-D in the cortex, and were increased for a longer duration as well as to a greater extent than after administration of pilocarpine alone. Administration of pilocarpine (30 mg/kg) to rats treated chronically with lithium caused increases similar to those measured with acute lithium pretreatment. Thus the induction of IEG by cholinergic stimulation varied with dose, time, and brain region, and unique responses were observed for each of the IEG. Lithium pretreatment did not impair IEG expression induced by the lower dose of pilocarpine and greatly enhanced expression of IEG after administration of the higher dose of pilocarpine concomitant with seizure activity.
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PMID:Distinctive rat brain immediate early gene responses to seizures induced by lithium plus pilocarpine. 798 56

C-fos proteins were visualized immunohistochemically in the brain of rats after seizures induced by injecting penicillin into hippocampus and by penicillin+electroacupuncture treatment. Three hours following seizures there was an evident expression of c-fos proteins in the hippocampus (CA1 area), dentate gyrus, piriform cortex, dorsal part of entorhinal cortex, and amygdaloid nucleus, and there was a dramatic increase of c-fos proteins in CA3 area and the areas mentioned above except the CA1 area where c-fos proteins apparently decreased after electroacupuncture treatment. The results showed that seizures can induce c-fos proteins in some nuclei related with seizure and that electroacupuncture can also regulates the c-fos expression after seizure.
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PMID:[C-fos expression in rat brain during seizure and electroacupuncture]. 801 91

The c-fos immediate early gene is induced by normal stimuli including light, stress, hyperosmolar solutions, and hormones. Ischemia, hypoxia, seizures, cortical injury, nerve section and other pathological stimuli can also induce c-fos. The induction can occur via increases in intracellular calcium that act through a Ca2+/cAMP element on its promoter, or via trophic and other factors that act through a serum response element (SRE) on its promoter. Several studies show that calcium entry via voltage sensitive calcium channels (VSCCs) is important for inducing c-fos. We have shown that calcium entry via the NMDA receptor is important for induction of c-fos mRNA by glutamate and cAMP in cultured cortical neurons. Moreover, the NMDA receptor appears to regulate translation of c-fos mRNA to Fos protein when cells are stimulated with other types of stimuli including vasoactive intestinal peptide, zinc, and fibroblast growth factor. These results suggest that toxins that elevate intracellular calcium will likely induce the c-fos gene in brain. The heat shock or stress genes are induced by a wide variety of stimuli including heavy metals, heat, oxidative and ischemic stress, prolonged seizures, hypoglycemia, calcium ionophores, and certain toxins. It is believed that denatured proteins stimulate heat shock factors to bind to heat shock elements on the promoters of all heat shock genes to induce gene transcription. We and others have shown that global and focal ischemia induce the hsp70 heat shock gene in brain. Mild ischemia induces hsp70 mRNA and HSP70 protein in neurons only.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Alterations in gene expression as an index of neuronal injury: heat shock and the immediate early gene response. 809 Mar 62

In microdialysis procedures high potassium ion concentrations are generally used to induce neurotransmitter release. However, the widespread effects, if any, of such a treatment have not been described. In order to establish a possible link between c-fos expression and stimulating conditions for neurotransmitter release in microdialysis procedures we administered KCl (100 mM) into the hippocampus. Proto-oncogene c-FOS-like immunoreactivity is upregulated in granule cells of the dentate gyrus, pyramidal cells of the hippocampus, cingulate, piriform and frontoparietal cortices at 2 h, but not 24 h after K+ administration. Neither implantation of the probes nor perfusion with artificial cerebrospinal fluid resulted in similar patterns of c-FOS immunoreactivity. In addition, we investigated whether the impairment of the cholinergic septohippocampal pathway would modify the K(+)-induced expression of the immediate early gene c-fos in the hippocampus. The expression of c-fos induced by KCl was not altered in the animals with fimbria-fornix lesion despite the marked decrease in acetylcholine release in the hippocampus. Glutamate concentrations measured in the same superfusates showed that a significantly greater glutamate release occurs in denervated hippocampi. Furthermore, abolishment of seizure-like activity (induced by KCl) in anesthetized animals did not alter expression of c-FOS immunoreactivity in the K(+)-stimulated hippocampi. The results from these studies confirm that most of the releasable acetylcholine of the hippocampus is linked to the fimbrial input and may suggest that c-FOS upregulation in this model does not respond to any cholinergic input from the medial septum via the fimbria-fornix.
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PMID:Induction of c-FOS immunoreactivity in the hippocampus following potassium stimulation. 809 2

Recent studies show that focal brain injury, cerebral ischaemia, hypoglycaemia and seizures increase the expression of c-fos and brain-derived neurotrophic factor in brain. Here we report that hippocampal focal brain injury transiently induces the immediate early genes c-fos, jun-B, c-jun and krox-24 (zif-268) messenger RNA and protein and brain-derived neurotrophic factor messenger RNA in rat dentate gyrus neurons, an effect that was blocked by the N-methyl-D-aspartate receptor antagonist MK-801. Prior administration of the protein synthesis inhibitor cycloheximide super-induced immediate early gene messenger RNA, abolished immediate early gene protein induction, but had no effect on injury-mediated induction of brain-derived neurotrophic factor messenger RNA. Thus, while N-methyl-D-aspartate receptor activation results in the induction of both immediate early genes and brain-derived neurotrophic factor messenger RNA, de novo synthesis of immediate early gene proteins is not critical for the increased expression of brain-derived neurotrophic factor messenger RNA seen in brain after focal injury. These results suggest that brain-derived neurotrophic factor is induced after injury as an immediate early gene.
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PMID:Brain-derived neurotrophic factor is induced as an immediate early gene following N-methyl-D-aspartate receptor activation. 811 41


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