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Query: UMLS:C0036572 (
seizures
)
80,221
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The influence of kainic acid (KA)-induced limbic
seizure
activity on the expression of mRNA for nerve growth factor (NGF) in adult rat brain was studied using in situ hybridization and
S1 nuclease
protection techniques with RNA probes complementary to murine and rat NGF mRNA. Within hippocampus, intracerebroventricular injection of 0.5 microgram KA caused a dramatic bilateral increase in hybridization of the 35S-labeled cRNA within stratum granulosum. This increase was first evident 1 h post-KA, appeared maximal at approximately 20-fold control levels at 2-3 h post-injection, and declined to control levels by 48 h post-injection. During the period of maximal hybridization, all but the deepest cells within stratum granulosum appeared to be autoradiographically labeled. Hybridization of the NGF cRNA probe was also increased within superficial layers of piriform and entorhinal cortex and, to much lesser extent, within scattered neurons of layers II and III of neocortex in KA-treated rats. In olfactory cortical areas, hybridization was maximally elevated 15.5-24.5 h after KA injection. In contrast to these effects, KA treatment did not consistently influence the density of hybridization, or number of neurons labeled, within the dentate gyrus hilus or the hippocampus proper (CA1-CA3). In agreement with the in situ hybridization results,
S1 nuclease
protection assay detected KA-induced increases in hybridization within pooled dentate gyrus/CA1 samples, but not hippocampal CA3 samples. These data support the conclusion that
seizure
activity stimulates a transient increase in NGF expression by select populations of forebrain neurons and indicates that experimental
seizure
paradigms might be further exploited for analyses of the mechanisms of NGF regulation and processing in the adult brain.
...
PMID:Kainic acid-induced seizures stimulate increased expression of nerve growth factor mRNA in rat hippocampus. 170 74
The NGFI-B cDNA was previously isolated by virtue of its induction by nerve growth factor (NGF) in PC12 cells. It encodes a 61-kilodalton protein that has two regions of extensive homology with members of the steroid/thyroid hormone receptor gene family. The rat NGFI-B gene is approximately 7.6 kilobases long and is interrupted by six introns. Although the exon-intron structure of the gene is similar to those of several other members of the steroid/thyroid hormone receptor gene family, there is a novel splice site within the DNA-binding domain which suggests that NGFI-B constitutes yet another evolutionary digression from a postulated common ancestral receptor gene. Primer extension and
S1 nuclease
protection assays were used to determine the transcription initiation site, which displayed the heterogeneity typical of genes that lack a TATA box. Sequence analysis of the 5' flanking region revealed several GC boxes but no identifiable TATA box. Four potential AP1 binding sites were identified at nucleotides -49, -78, -222, and -242. Neither the serum response element nor the CArG box element, two sequences found in other growth factor-inducible genes, was detected in this region of the growth factor-inducible NGFI-B gene. Nevertheless, results of nuclear runoff experiments demonstrated that the NGFI-B gene was transcriptionally activated by nerve growth factor in PC12 cells. In vivo, a rapid, dramatic increase in NGFI-B mRNA was observed in the cerebral cortex, midbrain, and cerebellum of animals that experienced a convulsant-induced
seizure
.
...
PMID:The NGFI-B gene, a transcriptionally inducible member of the steroid receptor gene superfamily: genomic structure and expression in rat brain after seizure induction. 247 23
The distribution of basic fibroblast growth factor (bFGF) mRNA in normal rat forebrain, and the influence of recurrent
seizure
activity on the expression of this mRNA, was evaluated using in situ hybridization and
S1 nuclease
protection techniques. In the untreated adult rat, hybridization of 35S-labeled bFGF cRNA densely labeled neurons in a few discrete areas including the tenia tecta, indusium gresium, and hippocampal stratum pyramidale of regions CA2 and rostromedial CA1. Neurons in the prosubiculum and rostromedial dentate gyrus stratum granulosum were lightly labeled. In addition, a diffuse distribution of autoradiographic labeling in areas such as the hippocampal molecular layers, olfactory cortical layer I, and the olfactory nerve layer was suggestive of localization in glial cells. Platinum wire hilar lesions, which did not induce
seizures
, increased cRNA hybridization in glial cells in primary and secondary areas of degeneration in the ipsilateral hemisphere only; hybridization was not noticeably increased in neurons in these lesion-control rats. Focal stainless-steel wire hilar lesions, which caused recurrent
seizures
2-10 h postlesion, induced bilaterally distributed increases in cRNA hybridization in hippocampus, neocortex, olfactory cortex, amygdala, and septum. These
seizure
-dependent increases in hybridization were evident 6 h postlesion, were maximal from 12 to 24 h postlesion, and declined to near control levels by 4 days. In most regions the elevated hybridization appeared to be associated primarily with astroglia but in experimental
seizure
rats sacrificed 12 and 24 h postlesion hybridization was also markedly increased in the dentate gyrus granule cells and olfactory cortical neurons. These results demonstrate that recurrent
seizures
increase bFGF mRNA expression by both forebrain neurons and glia and implicate bFGF in the coordination of other changes in the biosynthetic activities of forebrain neurons that occur after
seizures
.
...
PMID:Seizures increase basic fibroblast growth factor mRNA in adult rat forebrain neurons and glia. 817 Mar 44
In the present study, in situ hybridization and
S1 nuclease
protection analyses were used to evaluate the temporal and spatial parameters of changes in nerve growth factor (NGF) mRNA expression in rat forebrain following hilus lesion-induced recurrent limbic
seizures
.
Seizure
-induced increases in NGF mRNA levels were widespread with differences in the temporal parameters of change between brain areas. There were two distinct increases in NGF cRNA hybridization in dentate gyrus stratum granulosum. Hybridization was increased several-fold by 6 h after a
seizure
-producing hilus lesion (HL), declined to below control values by 12 h post-HL, and then increased again by 24 h post-HL, or 12 h after the termination of
seizures
. This biphasic increase was corroborated by
S1 nuclease
protection analysis. In entorhinal cortex, cingulate cortex and neocortex NGF cRNA hybridization was markedly increased first in layers II/III by 6-12 h post-HL and progressed to layers V/VI by 24 h post-HL. Striking increases in NGF mRNA were detected in the majority of amygdaloid nuclei beginning with the cortical nuclei by 12 h postlesion and extending into the more deeply placed nuclei by 24 h postlesion. Labeling was increased in sparsely distributed neurons in the caudate putamen, ventral pallidum, and tenia tecta at 24 h post-HL. In all areas, hybridization declined to control values by 48-96 h post-HL. NGF expression was not changed in some forebrain regions which normally contain NGF mRNA including the diagonal bands of Broca and select thalamic nuclei. These data demonstrate that
seizures
stimulate NGF expression in many different types of neurons. Moreover, regional differences in the time courses of induction suggest that distinct regulatory mechanisms subserve activity-dependent changes in NGF mRNA expression in different neuronal populations.
...
PMID:Seizure-induced increases in NGF mRNA exhibit different time courses across forebrain regions and are biphasic in hippocampus. 830 22
