Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0038220 (status epilepticus)
 7,272 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Increased but transient expression of the proto-oncogene c-fos has been recently reported in metrazol and kindling-induced seizures. Here we tested whether kainic acid-induced status epilepticus may result in a long-term increase of this oncogene. A specific pattern of immunoreactive c-fos material was observed with the development of the seizures. Intense labeling first appeared in the dentate gyrus of the hippocampus and the entorhinal cortex. Pyramidal cell layer CA3, CA4 and CA1 as well as other limbic structures were then positively stained during status epilepticus. In addition, the duration of c-fos expression was different according to the anatomical sites. In the dentate gyrus labeling did not exceed 4-5 h whereas the pyramidal cell layer CA1 exhibited increased c-fos expression for as long as 24 h. Here we propose that c-fos which has been related to growth and differentiation in previous studies, could be involved in processes inducing long-term plastic alterations in the limbic system.
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PMID:Long-lasting and sequential increase of c-fos oncoprotein expression in kainic acid-induced status epilepticus. 313 54

The induction of the proto-oncogene c-fos has been used extensively to identify spatially distributed neural systems activated by seizures. The substantia nigra pars reticulata (SNpr) has been implicated as a critical structure in neural networks involved in the modulation of seizure expression, yet the SNpr has not been reported to express Fos following seizures induced in a variety of seizure paradigms. In this study we determined whether (1) the temporal characteristics of Fos induction in the SNpr were different than those of other brain areas following kindled seizures, (2) neurons in the SNpr possess the cellular machinery to express Fos, (3) Fos can be induced in SNpr by direct electrical stimulation, and (4) Fos expression is induced in the SNpr following kainate or pilocarpine-induced status epilepticus. Results indicate that Fos is not induced in SNpr at any time point (1-12 h) after kindled seizures, and that serum response factor, a constitutively expressed nuclear protein necessary for Fos expression, is present in SNpr neurons. Results further indicate that Fos expression in the SNpr is induced following either direct electrical stimulation or pilocarpine status, but not status elicited by kainate. We conclude that, in so far as the SNpr represents a critical structure for modulating seizure expression, seizure activity does not represent a sufficient stimulus to induce Fos in SNpr neurons. Further, the neural networks defined by Fos expression following seizure may be incomplete, and should be interpreted conservatively.
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PMID:The substantia nigra pars reticulata, seizures and Fos expression. 771 58

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

The expression of the c-fos proto-oncogene, as estimated by immunohistochemistry of the FOS nuclear protein, was studied in both focal and generalized seizures induced in rats by systemic administration of pilocarpine. Focal seizures, as indicated by the occurrence of stereotyped oral movements, chewing and sniffing, were evoked by either a subconvulsant dose of pilocarpine (200 mg/kg) or the association of a convulsant dose of pilocarpine (400 mg/kg) with SCH 23390, a selective D-1 dopamine receptor antagonist. This seizure pattern resulted in FOS accumulation in certain limbic areas, namely, the piriform cortex, amygdala, and olfactory tubercle. On the other hand, in rats developing generalized seizures, accumulation of FOS was also found in hippocampus, cingulate cortex, frontal cortex, striatum, accumbens, as well as in certain thalamic nuclei. Generalized seizures, including motor limbic seizures and status epilepticus, were induced by either a convulsant dose of pilocarpine (400 mg/kg) or a low dose of pilocarpine (15-200 mg/kg) combined with either lithium or the D-1 selective agonist SKF 38393. These findings indicate a close correlation between the sequence of behavioural alterations induced by pilocarpine and the proto-oncogene activation. The results provide the basis for mapping the areas of origin and the pathways of generalization of seizure activity. As shown by the effects of dopamine receptor agonists and antagonists, the process of generalization appears to be controlled by the dopamine system.
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PMID:Expression of c-fos protein in the experimental epilepsy induced by pilocarpine. 851 14

The influence of kainic acid (KA), which induces acute seizures, on expression of mRNA for the calcium-binding protein, calbindin-D28k, brain-derived neurotrophic factor (BDNF), neurotrophin-3 (NT-3) and early-response genes [c-fos, zif268 (NGFI-A), nur77 (NGFI-B)] was examined in rat hippocampus by Northern blot analysis. A significant increase (3.2-fold) in BDNF mRNA was observed 1 h after KA injection (12 mg/kg i.p.) and peak expression (9.4-fold) occurred 3 h after KA. The induction of BDNF mRNA was preceded by the induction of c-fos, mRNA (30 min after KA) and was followed by the induction of calbindin-D28k mRNA (3.5-fold 3 h after KA; a maximal response was at 3-6 h after KA). Region-specific changes, analyzed by immunocytochemistry and in situ hybridization, indicated that the most dramatic increases in calbindin protein and mRNA after KA treatment were in the dentate gyrus. Although calbindin-D28k and BDNF mRNAs were induced, a 3.4-3.8-fold decrease in NT-3 mRNA was observed by Northern analysis 3-24 h after KA treatment. Calbindin-D28k gene expression was also examined in rats with a chronic epileptic state characterized by recurrent seizures established with an episode of electrical stimulation-induced status epilepticus (SE). When these animals were examined 30 days post-SE, no changes in hippocampal calbindin-D28k mRNA were observed. Our findings suggest that the induction of calbindin-D28k mRNA (which may be interrelated to the induction of BDNF mRNA) is an early response which may not be related to enhanced neuronal activity or seizures per se, but rather to maintaining neuronal viability.
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PMID:Early induction of mRNA for calbindin-D28k and BDNF but not NT-3 in rat hippocampus after kainic acid treatment. 922 16

It is well documented that prolonged seizures (status epilepticus) can cause neuronal injury and result in synaptic reorganization in certain brain regions. However, the effect of recurrent, relatively short seizures in young animals on subsequent brain development is not known. To study the consequences of recurrent seizures on the developing brain, we subjected immature rats to a total of 50 flurothyl-induced seizures from postnatal day 11 until day 23. Immunohistochemistry for c-fos was performed to characterize the pattern of neuronal activation following the seizures. Cell counting of dentate granule cells, CA3, CA1, and hilar neurons, using unbiased stereological methods, and the silver impregnation method were used to evaluate neuronal death following the recurrent seizures. Timm and Golgi staining were performed four weeks after the 50th seizure to evaluate the effects of recurrent seizures on synaptic organization. Our results show that recurrent flurothyl-induced seizures progressively increased excitability of the brain, as revealed by a dramatic increase in the extent and intensity of c-fos immunostaining. While no cell loss was detected in the hippocampus with either Cresyl Violet or silver stains, animals experiencing multiple daily seizures developed increased mossy fiber sprouting in both the supragranular layer of the dentate gyrus and the infrapyramidale layer of the CA3 region. Golgi staining confirmed that there was an increase in mossy fibers in the pyramidal cell layer. Our results suggest that serial recurrent seizures in the immature brain can lead to significant changes in mossy fiber distribution even though the seizures do not cause significant hippocampal cell loss.
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PMID:Consequences of recurrent seizures during early brain development. 1042 98

Although it is now established that neurogenesis of dentate gyrus granule cells increases after experimental seizures, little is currently known about the function of the new granule cells. One question is whether they become integrated into the network around them. Recent experiments that focused on the newly born granule cells in the hilus showed that indeed the new cells appear to become synchronized with host hippocampal neurons [Scharfman et al. (2000) J. Neurosci. 20, 6144-6158]. To address this issue further, we asked whether the new hilar granule cells were active during spontaneous limbic seizures that follow status epilepticus induced by pilocarpine injection. Thus, we perfused rats after spontaneous seizures and stained sections using antibodies to c-fos, a marker of neural activity, and calbindin, a marker of the newly born hilar granule cells [Scharfman et al. (2000) J. Neurosci. 20, 6144-6158]. We asked whether calbindin-immunoreactive hilar neurons were also c-fos-immunoreactive.C-fos was highly expressed in calbindin-immunoreactive hilar neurons. Approximately 23% of hilar cells that expressed c-fos were double-labeled for calbindin. In addition, other types of hilar neurons, i.e. those expressing parvalbumin or neuropeptide Y, also expressed c-fos. Yet other hippocampal neurons, including granule cells and pyramidal cells, had weak expression of c-fos at the latency after the seizure that hilar neuron expression occurred. In controls, there was very little c-fos or calbindin expression in the hilus.These results indicate that calbindin-immunoreactive hilar cells are activated by spontaneous seizures. Based on the evidence that many of these cells are likely to be newly born, the data indicate that new cells can become functionally integrated into limbic circuits involved in recurrent seizure generation. Furthermore, they appear to do so in a manner similar to many neighboring hilar neurons, apparently assimilating into the local environment. Finally, the results show that a number of hilar cell types are activated during chronic recurrent seizures in the pilocarpine model, a surprising result given that many hilar neurons are thought to be damaged soon after pilocarpine-induced status epilepticus.
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PMID:Spontaneous recurrent seizures after pilocarpine-induced status epilepticus activate calbindin-immunoreactive hilar cells of the rat dentate gyrus. 1195 13

To understand the molecular actions of status epilepticus at the chromatin level, we studied the effects of kainate-induced status epilepticus on two different histone modifications at amino terminal tails: histone H3 phosphorylation at serine 10 and histone H4 acetylation. In addition to induction of c-fos and c-jun immediate early genes (IEGs) expression in mouse hippocampus, we also found the upregulation of acetylation and phosphorylation of histones, coupled with status epilepticus after kainate administration. c-fos and c-jun mRNA were sequentially induced in response to kainate, in different hippocampal subpopulations, starting from the dentate gyrus (DG) and spreading to the cornus ammonis regions. Immunohistochemical analysis showed that the spatio-temporal distribution of histone H4 hyperacetylation after kainate treatment was well correlated with the expression of c-fos and c-jun genes. Additionally, there was a transient appearance of phosphorylated histone H3 specifically in the DG region. CREB-binding protein or CBP, a well-known transcriptional co-activator with histone acetyltransferase (HAT) activity, was also induced by kainate and its expression pattern well correlated with histone H4 hyperacetylation in the hippocampus. Chromatin immunoprecipitation analysis showed that both histone modifications were associated with c-fos gene promoter after kainate stimulation, but only histone acetylation with c-jun gene. Pretreatment with curcumin, which has a HAT inhibitory activity specific for CBP/p300, attenuated histone modifications, IEGs expression and also the severity of status epilepticus after kainate treatment. Our findings suggest the involvement of histone modifications induced by kainate not only in IEGs expression but also in the development of epilepsy.
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PMID:Histone modifications in kainate-induced status epilepticus. 1655 89

Animal models of epilepsy have allowed the determination of the basic molecular and cellular mechanisms of epileptogenesis. Generalized limbic seizures and subsequent status epilepticus can be induced by either pilocarpine, the muscarinic acetylcholine receptor agonist or kainate, the glutamate receptor agonist. There has been increasing interest that chromatin remodeling might play a critical role in gene regulation even in non-dividing cells such as neurons. One form of chromatin remodeling is histone amino-terminal modification that can generate synergistic or antagonistic affinities for the interactions of transcriptional factors, in turn causing changes in gene activity. Two widely studied histone modification processes are histone acetylation and phosphorylation. While histone hyperacetylation indicates an increase in gene activity, its hypoacetylation marks gene repression. Both states are controlled by a dynamic interplay of histone acetyltransferase (HAT) and histone deacetylase (HDAC). We have found the upregulation of acetylation and phosphorylation of histones, coupled with status epilepticus after kainate administration. c-fos and c-jun mRNA have been sequentially induced in response to kainate, in different hippocampal subpopulations starting from the dentate gyrus and spreading to the cornus ammonis regions well correlated with the spatio-temporal distribution of histone H4 hyperacetylation. Both histone modifications are associated with the c-fos gene promoter after kainate stimulation, while only histone acetylation with the c-jun gene. Pretreatment with curcumin, which has a HAT inhibitory activity specific for CBP/p300, attenuates histone modifications, IEGs expression and also the severity of status epilepticus after kainate treatment. Histone modifications may have a crucial role in the development of epilepsy induced by kainate.
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PMID:Histone modifications in status epilepticus induced by kainate. 1659 77

The dynamics of the involvement of different brain structures in a pathological process is very important for decoding the mechanisms of temporal lobe epilepsy. In this work, the experimental model of temporal lobe epilepsy induced by lithium chloride and pilocarpine was used. The method of immunochemical detection of the immediate early gene c-fos was used as an indicator of functioning neurons in the brain. The c-fos expression was determined at different time points (30, 60 and 90 min) after the pilocarpine injection. An increase in the c-fos expression was observed in neuronal populations during the development of the status epilepticus, the time and degree of involvement of different brain structures being different. The expression of c-fos was first observed in the piriform cortex, the olfactory tubercle, thalamic nuclei, lateral habenular nuclei, and the caudate putamen. Then the hippocampus, the septal formation, the amygdala, and basal ganglia were involved in the activation process. In the hypothalamic areas, c-fos expression was observed latest. These data contribute to understanding the mechanisms of temporal lobe epilepsy and searching for the ways of its therapy.
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PMID:[Detection of c-fos expression in animal brain in a pilocarpine model of temporal lobe epilepsy]. 2303 66


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