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Target Concepts:
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Query: UMLS:C0038220 (
status epilepticus
)
7,272
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
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.
...
PMID:Histone modifications in status epilepticus induced by kainate. 1659 77
Chromatin remodelling, including histone modifications has been recognized to play a central role in the regulation of gene expression.
Histone
modifications are mostly based on studies in cell culture systems in vitro. Recent evidence suggests that histone modifications are actively involved in activity-dependent neural plasticity via regulation of critical gene transcription necessary for the biological process in vivo. We have reviewed here the recent works studied on long-term memory formation, visual cortical plasticity during the critical period and drug-induced
status epilepticus
to elucidate a role for histone modifications in these biological processes. All of the studies indicate that chromatin structure, including histone modifications is highly dynamic within the nervous system and suggest the possibility that chromatin structure itself might be recruited as a target of plasticity-associated signal transduction mechanisms.
...
PMID:Histone modifications in the brain. 1754 19
