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Query: UMLS:C0038220 (
status epilepticus
)
7,272
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Understanding the molecular basis of altered neuronal excitability in epilepsy is a major challenge in neuroscience research. The present study suggests an inverse correlation between changes in neuronal excitability in
status epilepticus
and the activity of type II multifunctional calcium/calmodulin-dependent kinase II (
CaM kinase II
), a major Ca(2+)-signal transducing system in brain. 'Continuous' hippocampal stimulation (CHS), a new model of non-convulsive limbic
status epilepticus
(SE), mimics the progression of electrographic changes characteristic in human SE and allows for quantitation of post-stimulus seizure severity. In the present study, hippocampus and anterior neocortex from CHS-stimulated rats and paired surgical controls were assayed for
CaM kinase II
activity by incorporation of radiolabeled phosphate from [gamma-32P]ATP into the 50-kDa subunit of the kinase itself (autophosphorylation). In all instances, CHS induced sustained interictal bursting and/or electrographic seizures. Decreased
CaM kinase II
activity was seen in all preparations from electrically stimulated hippocampus.
CaM kinase II
activity in CHS animals was diminished by 37% relative to controls (P less than 0.01; Student's paired t-test). The progressive intensity of the EEG discharges correlated directly with the decrement of
CaM kinase II
activity (P less than 0.05; Spearman's rank correlation test, n = 5). This is the first report of a dynamic modulation of a biochemical system that has been implicated in neuronal excitability in coordination with the characterized developmental stages of SE.
...
PMID:Loss of type II calcium/calmodulin-dependent kinase activity correlates with stages of development of electrographic seizures in status epilepticus in rat. 131 99
This study was conducted to characterize the post-pubertal developmental aspects on seizure susceptibility and severity as well as calcium/calmodulin protein kinase type II (
CaM kinase II
) activity in
status epilepticus
(SE). Thirty- to ninety-day-old rats, in 10-day increments, were studied. This corresponds to a developmental age group that has not received thorough attention. The pilocarpine model of SE was characterized both behaviorally and electrographically. Seven criteria were analyzed for electrographical characterization: seizure severity, SE susceptibility, the average number of discrete seizures, average time until first seizure, average time to SE, average time from first discrete seizure to SE, and death. After 1 h of SE, specific brain regions were isolated for biochemical study. Phosphate incorporation into a
CaM kinase II
-specific substrate, autocamtide III, was used to determine kinase activity. There was no developmental effect on the average number of discrete seizures, average time until first seizure, average time to SE, average time from first discrete seizure to SE, and death; however, there was a significant effect on SE probability and seizure severity. Once SE was expressed, all animals showed a decrease in both cortical and hippocampal
CaM kinase II
activities. Conversely, seizure activity in the absence of SE did not result in a decrease in
CaM kinase II
activity. The data suggest that there is a gradual age-dependent modulation of SE susceptibility and seizure severity within the developmental stages studied. Additionally, once
status epilepticus
is observed at any age, there is a corresponding SE-induced inhibition of
CaM kinase II
.
...
PMID:Age dependence of pilocarpine-induced status epilepticus and inhibition of CaM kinase II activity in the rat. 1586 29
