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Query: UMLS:C0036572 (
seizures
)
80,221
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Chemically and electrically induced
seizures
elicit the rapid transcriptional activation in neurons of a class of genes referred to as cellular immediate-early genes. Since the products of these genes include transcription factors and cytokines, they are proposed to be involved in coupling neuronal excitation to a complex, and poorly understood, programme of cellular responses that involves the regulation of gene expression. Products of two cellular immediate-early genes,
c-fos
and c-jun, are components of the transcription factor AP-1. In this review, Jim Morgan and Tom Curran discuss how these gene products have begun to reveal some of the molecular details of stimulus-transcription coupling in the nervous system following
seizures
. In addition, these genes have provided novel reagents and concepts for investigating the biochemical and cellular sequelae of
seizure
in the CNS, and point towards new avenues of research and potential therapeutic targets in epilepsy.
...
PMID:Proto-oncogene transcription factors and epilepsy. 194 3
mRNA levels for the protooncogene
c-fos
, measured by Northern blot analysis, were greatly increased in brains of mice undergoing ethanol withdrawal
seizures
. This increase was transient (levels were increased at the time of the
seizure
and returned to normal by 24 hr or less after
seizure
) and was larger in hippocampus (40-fold) than in cerebral cortex (10-fold) or in cerebellum (6-fold). In mice that were fed ethanol chronically and withdrawn but that did not undergo overt withdrawal
seizures
,
c-fos
mRNA levels were not significantly increased. The findings with ethanol withdrawal
seizures
are similar in many respects to results of earlier studies with chemically induced
seizures
or kindling, which had led to the suggestion that
c-fos
expression may play a role in neuronal adaptation. The development of ethanol withdrawal
seizures
has been likened to kindling, and there is evidence indicating that ethanol withdrawal symptoms become more severe after repeated episodes of withdrawal. The present data support the hypothesis that this phenomenon may involve ethanol withdrawal
seizure
-induced increases in
c-fos
expression in various brain areas.
...
PMID:Ethanol withdrawal seizures produce increased c-fos mRNA in mouse brain. 210 90
Acute
seizures
and other stimuli that increase neuronal activity cause a rapid induction of the immediate-early genes
c-fos
and c-jun, also referred to as nuclear proto-oncogenes, in the nervous system. In the present study, rats were administered one or more electroconvulsive
seizures
(ECS) and the responsiveness of
c-fos
and c-jun to an acute, "test"
seizure
was examined. Four hours after a single ECS, the induction of
c-fos
mRNA by a test
seizure
was blocked, in agreement with earlier findings, but by 18 h the levels of
c-fos
mRNA could be reinduced by the test
seizure
, suggesting that 1 day is sufficient to "reset" the responsiveness of this system. However, it was found that chronic, daily ECS treatments resulted in a time-dependent decrease in the expression of
c-fos
mRNA in response to a test
seizure
administered 18 h after the last daily ECS; this effect was maximal after 8-10 days of treatment, at which time the induction of
c-fos
mRNA by the test
seizure
was blocked dramatically. Chronic ECS also blocked the induction of c-jun in response to an acute, test
seizure
. The effect of chronic ECS on levels of Fos protein was also investigated. It was found that basal levels of Fos protein were reduced after chronic (10 days) ECS and were not induced by a test
seizure
. Because levels of Fos protein remain elevated 4 h after a single
seizure
this finding suggests that the mechanisms by which acute (4 h) and chronic (8-10 days) ECS block the induction of
c-fos
may differ.
...
PMID:Chronic electroconvulsive seizures down-regulate expression of the immediate-early genes c-fos and c-jun in rat cerebral cortex. 211 Sep 70
Periodic induction of focal electrical
seizure
[afterdischarge (AD)] is an absolute prerequisite for the development of kindling, an animal model of complex partial epilepsy. Once established, it is a permanent condition. The mechanism(s) that translate ADs, which last tens of seconds, into life-long alterations in the CNS is unclear. Cellular immediate-early genes have been implicated in the conversion of short-term stimuli to long-term alterations in cellular phenotypes by regulating target gene expression. We have investigated the contribution of one such early gene,
c-fos
, to this process. The relationship between ADs and expression of
c-fos
gene in the rat hippocampus, a key structure in kindling development, was studied by analysis of mRNA levels. The low constitutive expression of
c-fos
mRNA in the hippocampus was not altered by kindling. There was an "all-or-none" relationship between induction of
c-fos
and the duration of AD. The threshold for induction was approximately 30 s of AD. Above-threshold ADs induced
c-fos
in both naive and kindled animals to the same extent and with identical temporal profiles. Although the expression of
c-fos
is unchanged with kindling,
c-fos
may nonetheless contribute to many long-term changes of kindling, both adaptive and epileptogenic.
...
PMID:Induction of c-fos mRNA expression by afterdischarge in the hippocampus of naive and kindled rats. 211 45
Recently the nuclear proto-oncogene
c-fos
has been shown to be rapidly and transiently expressed following
seizures
in many types of epilepsies. Until now, immunohistochemical as well as in situ hybridization studies have reported that the dentate gyrus of the hippocampus and most of the cortical areas were invariably heavily labeled. In order to see whether this distribution was reproduced or not in a model of epilepsy which has been proved to not involve these structures, a study was performed on genetically epilepsy-prone DBA/2 mice. Here we show that following audiogenic
seizures
,
c-fos
oncoprotein is not expressed in cortical and limbic structures but rather mapped the subcortical auditory nuclei.
...
PMID:Audiogenic seizures evoked in DBA/2 mice induce c-fos oncogene expression into subcortical auditory nuclei. 211 90
Induction of messenger RNA encoding the 70-kDa heat shock or stress protein, hsp70, and the product of the proto-oncogene
c-fos
was evaluated in gerbil hippocampus by in situ hybridization at various recirculation intervals after 5 minutes of ischemia. Striking increases in
c-fos
RNA were observed in dentate granule cells within 15 minutes of recirculation and remained evident through 1 hour, returning to undetectable control levels by 3 hours. Modest
c-fos
hybridization was seen in CA1 and CA3 neurons during the same time course. These results are consistent with the rapid and transient stimulation-induced
c-fos
expression observed in many experimental systems. Hsp70 expression showed a longer time course, being strongly induced in all major hippocampal neuron populations within 3 hours and persisting for approximately 12 hours in dentate granule cells and through 24 hours in CA3 pyramidal neurons. Notably, the most prolonged expression of hsp70 RNA was observed in vulnerable CA1 neurons that minimally accumulate the immunoreactive protein, with hybridization detected essentially until the death of this cell population at 3-4 days. These studies demonstrate an overlapping distribution of hsp70 and
c-fos
expression in gerbil hippocampus after ischemia, although there are differences in time course and in the relative induction observed in different neuron populations. The transient increase in
c-fos
hybridization in dentate granule cells is identical to that seen in various
seizure
paradigms and provides further support for activation of hippocampal circuitry after ischemia. The prolonged time course of hsp70 messenger RNA expression in vulnerable CA1 neurons may provide a molecular correlate of proposed excitotoxic mechanisms mediating delayed neuronal death.
...
PMID:70-kDa heat shock protein and c-fos gene expression after transient ischemia. 212 54
Unilateral carotid ligation in immature rats, followed by 2 h of hypoxia led to ischemic cell change from 2 h after the insult, on the ligated side of the brain. There was a time-dependent induction of immunoreactive
c-fos
protein in neurones but not glia or ependyma on the non-ligated side of the brain. Induction only occurred in rats that had
seizures
post hypoxia-ischemia. In the ligated hemisphere
c-fos
protein was induced in glial-like cells in the corpus callosum, fornix/fimbria and internal capsule and in ependymal cells lining the lateral ventricle starting from 2 h after hypoxia but subsiding by 3 days. No neuronal
c-fos
induction was seen in areas showing neuronal damage. MK-801 or carbamazepine, which prevented hypoxia-ischemia-induced
seizures
, also prevented
c-fos
induction in the non-ligated hemisphere while MK-801 was associated with increased
c-fos
induction in hippocampal neurones from the ligated side, as well as in glial-like and ependymal cells. These results suggest several processes are involved following the hypoxic-ischemic insult. Firstly, severe hypoxia-ischemia is associated with a reduction in neuronal
c-fos
protein levels, probably as a result of neuronal failure and death. Secondly, post hypoxic
seizures
cause
c-fos
induction in surviving neurones. Thirdly, glial-like from regions in which there is neural loss also exhibit induction of
c-fos
, which may be important for their subsequent proliferation or for the production of growth factors.
...
PMID:Effects of hypoxia-ischemia and seizures on neuronal and glial-like c-fos protein levels in the infant rat. 212 69
We have analyzed the brain pattern and time-course of
c-fos
-like proteins expression in kainic acid-induced
seizures
in the rat. C-fos-like immunoreactivity increased initially in the hippocampus, notably in the dentate gyrus, at the time of the first limbic motor
seizure
(90 min after kainate). C-fos-like labelling progressively involved different structures of the limbic system when the rats manifested a permanent epileptic state (3-6 h). The labelling was still conspicuous 12 h after kainate treatment and progressively declined to reach control levels 48 h after kainate. This time-course is similar to that produced by kainic acid on 2-deoxyglucose consumption and correlates with the electrographic changes previously described, supporting the idea that
c-fos
-like immunostaining may provide a useful marker of neuronal activity, with a cellular resolution. Since anoxic-ischemic treatment produces a very slight and transient increase in
c-fos
-like immunostaining restricted to the fascia dentata,
c-fos
-like expression is
seizure
-related and not due to a local hypoxia or ischemia.
...
PMID:Effects of kainic acid-induced seizures and ischemia on c-fos-like proteins in rat brain. 212 98
Extracellular adenosine acts through specific cell surface receptors to modulate numerous physiological processes in both the CNS and peripheral tissues (e.g. neurotransmitter release and blood flow). Activation of A1 or A2 adenosine receptors leads to decreased or increased intracellular cAMP levels, respectively. Fos and Jun are nuclear proto-oncogene products, which, like cAMP, appear to act as intermediates in a number of signal transduction pathways. Since increases in both adenosine release and Fos and Jun expression occur in the brain following
seizures
, we wanted to determine whether Fos and Jun induction might occur as a result of adenosine receptor activation. 3T3 fibroblasts and NG108-15 neuroblastoma-glioma hybrid cells were chosen for study, since they were known to respond to adenosine agonists with changes in cAMP levels. The membranes of NG108-15 cells were shown to have A2-like binding activity in a competitive binding assay. Cultures of each cell line were treated with the adenosine agonists, CHA (A1-selective) and NECA (non-selective adenosine agonist). Both lines responded with a concentration-dependent transient increase in
c-fos
, but not c-jun, mRNA content after treatment with either agonist. The kinetics of the response were much more rapid for 3T3 cells (peak between 15 and 30 min) than for NG cells (peak between 60 and 90 min). The slower, more prolonged response in the NG108-15 cells is more similar to the time interval between adenosine release and the peak of
c-fos
mRNA induction in brains of animals following the administration of
seizure
-promoting drugs.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:Activation of adenosine receptors induces c-fos, but not c-jun, expression in neuron-glia hybrids and fibroblasts. 217 6
Recent studies have demonstrated that the regulation of neuropeptide expression in forebrain neurons is responsive to external influences including changes in physiological activity. This has been demonstrated most clearly in studies of hippocampus where the synthesis and resting levels of several neuropeptides, localized within well-characterized components of hippocampal circuitry, have been shown to be selectively influenced by
seizure
activity. In studies described here, we examined the influence of recurrent limbic
seizures
on the expression of enkephalin, dynorphin, cholecystokinin, and neuropeptide Y (NPY) in rat and mouse hippocampus using immunohistochemical, in situ hybridization and blot hybridization techniques. The data demonstrate that
seizures
differentially influence the expression of each peptide as a part of a broader cascade of changes in genomic expression within individual hippocampal neurons. In particular,
seizures
increase preproenkephalin mRNA and enkephalin peptide but decrease dynorphin peptide in the dentate gyrus granule cell/mossy fiber system.
Seizure
-induced decreases in the concentration of preprodynorphin mRNA in the granule cells have been reported by others. Immunoreactivity for CCK, which is codistributed with the opioid peptides in the mossy fiber system of mouse, is also dramatically reduced in the granule cell axons by
seizure
. Recurrent seizures induce two temporally distinct changes in NPY expression in hippocampus. First, there is an increase in hybridization to preproNPY mRNA within scattered, probable local circuit neurons in all subfields. This is followed by the seemingly novel appearance of preproNPY mRNA within the dentate gyrus granule cells and pyramidal cells of field CA1. Clues about mechanisms of neuropeptide regulation have come from observations of other, more rapid, transcriptional events induced by
seizure
. Most notably, our results and those of others demonstrate that
seizures
increase the expression of messenger RNAs from immediate-early genes (
c-fos
, c-jun, and NGFI-A) which encode proteins that may mediate neuropeptide gene regulation. In addition, mRNA for nerve growth factor is dramatically increased in the dentate gyrus granule cells by
seizure
; increased production of this trophic factor might mediate the more delayed changes in genomic expression and growth responses observed to occur in hippocampus and other forebrain areas following
seizure
activity.
...
PMID:Seizures, neuropeptide regulation, and mRNA expression in the hippocampus. 220 4
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