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Query: UMLS:C0036572 (
seizures
)
80,221
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The substantia nigra pars reticulata (SNpr) is recognized as an important modulator of
seizures
within the limbic system. We have investigated the effects of N-methyl-D-aspartate (NMDA) infusion into SNpr upon
seizure
-related neuronal injury (assessed by expression of the 72-kDa
heat shock protein
- HSP 72) induced by systemic kainic acid (KA) in rats. Three to four days following implantation of guide cannulae for drug administration into SNpr, KA (7 mg/kg) was injected intravenously to induce
seizures
. Bilateral intranigral infusion of NMDA (20 nmol) 15 min prior to KA injection, suppressed the expression of HSP 72 in the hippocampal CA1 region without affecting
seizure
duration. These results support the involvement of NMDA receptors within SNpr in modulating neuronal injury following KA-induced limbic
seizures
.
...
PMID:Bilateral intranigral NMDA infusion suppresses neuronal injury without affecting the duration of kainic acid-induced seizures in rats. 971 67
Kainic acid-induced
seizures
in rats represent an established animal model for human temporal lobe epilepsy. However, it is well-known that behavioral responses to the systemic administration of kainic acid are inconsistent between animals. In this study, we examined the relationship between expression of genes, neuropathological damage, and behavioral changes (
seizure
intensity and body temperature) in rats after systemic administration of kainic acid. The considerable differences in the response to kainic acid-induced
seizures
were observed in rats after a single administration of kainic acid (12 mg/kg i.p.). There was no detection of the expression of
heat shock protein
hsp-70 mRNA and HSP-70 protein in brain of vehicle-treated controls and in animals exhibiting weak behavioral changes (stage 1-2). A moderate expression of hsp-70 mRNA was detected throughout all regions (the pyramidal cell layers of CA1-3 and dentate gyrus) of the hippocampus, the basolateral, lateral, central and medial amygdala, the piriform cortex, and the central medial thalamic nucleus of rats that developed moderate
seizures
(stage 3-4). Marked expression of hsp-70 mRNA was detected in the all regions (cingulate, parietal, somatosensory, insular, entorhinal, piriform cortices) of cerebral cortex and all regions of hippocampus, and the central medial thalamic nucleus of the rats that developed severe
seizures
(stage 4-5). In addition, marked HSP-70 immunoreactivity was detected in the pyramidal cell layers of CA1 and CA3 regions of hippocampus, all regions (cingulate, parietal, somatosensory, insular, piriform cortices) of cerebral cortex, and the striatum of rats that developed severe
seizures
(stage 4-5). Furthermore, a marked expression of cyclooxygenase-2 (COX-2) mRNA and brain-derived neurotrophic factor (BDNF) mRNA levels by kainic acid-induced behavioral
seizures
(stage 3-4 or stage 4-5) was detected in all hippocampal pyramidal cell layers, granule layers of dentate gyrus, piriform cortex, neocortex, and amygdala. The present study suggest that the behavioral changes (
seizure
intensity and body temperature) and neuropathological damage after systemic administration of kainic acid are inconsistent between animals, and that these behavioral changes (severity of kainic acid-induced limbic
seizures
) might be correlated with gene expression of hsp-70 mRNA, COX-2 mRNA, and BDNF mRNA in rat brain.
...
PMID:Behavioral changes and expression of heat shock protein hsp-70 mRNA, brain-derived neurotrophic factor mRNA, and cyclooxygenase-2 mRNA in rat brain following seizures induced by systemic administration of kainic acid. 975 41
Brain areas damaged by stroke and
seizures
express high levels of the 72-kd
heat shock protein
(HSP72). Whether HSP72 represents merely a marker of stress or plays a role in improving neuron survival in these cases has been debated. Some induced tolerance experiments have provided correlative evidence for a neuroprotective effect, and others have documented neuroprotection in the absence of HSP72 synthesis. We report that gene transfer therapy with defective herpes simplex virus vectors overexpressing hsp72 improves neuron survival against focal cerebral ischemia and systemic kainic acid administration. HSP72 overexpression improved striatal neuron survival from 62.3 to 95.4% in rats subjected to 1 hour of middle cerebral artery occlusion, and improved survival of hippocampal dentate gyrus neurons after systemic kainic acid administration, from 21.9 to 64.4%. We conclude that HSP72 may participate in processes that enhance neuron survival during transient focal cerebral ischemia and excitotoxin-induced
seizures
.
...
PMID:Gene therapy with HSP72 is neuroprotective in rat models of stroke and epilepsy. 977 55
Kainate-induced
seizures
are widely studied as a model of human temporal lobe epilepsy due to behavioral and pathological similarities. While kainate-induced neuronal injury is well characterized in rats, relatively little data is available on the use of kainate and its consequences in mice. The growing availability of genetically altered mice has focused attention on the need for well characterized mouse
seizure
models in which the effects of specific genetic manipulations can be examined. We therefore examined the kainate dose-response relationship and the time-course of specific histopathological changes in C57/BL mice, a commonly used founder strain for transgenic technology.
Seizures
were induced in male C57/BL mice (kainate 10-40 mg/kg i.p.) and animals were sacrificed at various time-points after injection.
Seizures
were graded using a behavioral scale developed in our laboratory. Neuronal injury was assayed by examining DNA fragmentation using in situ nick translation histochemistry. In parallel experiments, we examined the expression an inducible member of the
heat shock protein
family, HSP-72, another putative marker of neuronal injury, using a monoclonal antibody.
Seizure
severity paralleled kainate dosage. At higher doses DNA fragmentation is seen mainly in hippocampus in area CA3, and variably in CA1, thalamus and amygdala within 24 h, is maximal within 72 h, and is largely gone by 7 days after administration of kainate. HSP-72 expression is also highly selective, occurring in limbic structures, and it evolves over a characteristic time-course. HSP-72 is expressed mainly in structures that also manifest DNA fragmentation. Using double-labeling techniques, however, we find essentially no overlap between neurons expressing HSP-72 and DNA fragmentation. These findings indicate that DNA fragmentation and HSP-72 expression are complementary markers of
seizure
-induced stress and injury, and support the notion that HSP-72 expression is neuroprotective following kainate-induced
seizures
.
...
PMID:Neuronal stress and injury in C57/BL mice after systemic kainic acid administration. 981 46
We determined the changes in the levels of the mammalian small
heat shock protein
of 25-28 kDa (hsp27) and the hsp alphaB-crystallin in various regions of rat brain after kainic acid-induced
seizure
activity by means of specific immunoassays. The levels of hsp27 in the hippocampus and entorhinal cortex were markedly increased and reached a maximum (1.5-2 microg/mg of protein) 2-4 days after the
seizure
. The levels of hsp27 in these regions were considerably high even 10 days after the
seizure
. A marked increase in levels of mRNA for hsp27 was also observed in the hippocampus of rats 1-2 days after the
seizure
. A severalfold increase in the levels of alphaB-crystallin was observed in the hippocampus and entorhinal cortex of rats 2 days after the
seizure
. However, the maximum levels were <50 ng/mg of protein. The levels of protein sulfhydryl group and glutathione were significantly reduced in the hippocampus of rats at 24 h after the
seizure
, which might have enhanced the expressions of hsp27 and alphaB-crystallin. The expression of inducible mammalian hsp of 70 kDa (hsp70) was also enhanced in the hippocampus of rats after the
seizure
, as detected by western and northern blotting analyses. Immunohistochemically, an intensive staining of hsp27 was observed in both glial cells and neurons in the hippocampus, piriform cortex, and entorhinal cortex of rats with kainic acid-induced
seizure
. However, in the cerebellum, where the receptors for kainic acid are also rich, hsp27 was barely induced in the same rats. This might be due to high levels of the cerebellar calcium-binding proteins parvalbumin and 28-kDa calbindin-D, which might have a protective effect against the kainic acid-inducible damage.
...
PMID:Responses of heat shock proteins hsp27, alphaB-crystallin, and hsp70 in rat brain after kainic acid-induced seizure activity. 1038 75
In response to many environmental and pathophysiologic stressful stimuli, cells undergo a stress response characterized by induction of a variety of proteins, including the
heat shock protein
family. The inducible heat shock protein 70 (hsp70) is believed to participate in an array of cellular activities, including cytoprotection. Normal brain cells have little detectable hsp70 RNA or protein. However, following a stressful condition hsp70 mRNA and protein are induced in different cell types depending on the severity and the nature of the stimulus. The induction of hsp70 protein correlates with the regional and cellular vulnerability to a particular injury as identified by standard histologic methods. The pattern of hsp70 expression differs in response to various neurotoxic stimuli, including hyperthermia, ischemia,
seizures
, hemorrhage, and N-methyl-D-aspartate receptor antagonist administration. Hsp70 expression is a useful marker of cellular injury and may help to identify previously unrecognized areas of vulnerability in the nervous system after a neurotoxic stimulus. Hsp70 may also play a neuroprotective role in the brain.
...
PMID:Stress proteins as molecular markers of neurotoxicity. 1066 96
Following
seizures
,
heat shock protein
(
HSP
)-70 is induced in various brain regions. Since zinc that can induce
HSP
-70 in various cell systems is enriched in certain glutamatergic terminals and translocates to postsynaptic neurons with
seizures
, we examined the possibility that
HSP
-70 induction in the epileptic brain is mediated by synaptic zinc. Adult rats were injected intraperitoneally with kainate to induce
seizures
.
Seizures
were halted 3 h after the kainate administration by the injection of phenytoin. Staining of brain sections with zinc-specific fluorescent dye TFL at 24 h after the kainate injection revealed a one-to-one correlation between dense TFL fluorescence and acidophilic neuronal degeneration in the hippocampus. Subsequent staining with anti-
HSP
-70 antibody, however, revealed that more numerous neurons than degenerating neurons exhibited
HSP
-70 immunoreactivity. Most of the
HSP
-70(+) neurons were not stained with acid fuchsin but exhibited mild zinc fluorescence in the cytoplasm. Intraventricular injection of CaEDTA attenuated neuronal death as well as the
HSP
-70 induction in a dose-dependent manner. Supporting the specificity of zinc rather than calcium as the inducer of
HSP
-70 in neurons, exposure to zinc but not to a calcium ionophore or excitotoxins increased expression of
HSP
-70 mRNA and protein in cultured cortical neurons. The present results suggest that not only selective neuronal death, but also
HSP
-70 induction in neurons after
seizures
, is mediated by the translocation of endogenous synaptic zinc.
...
PMID:Induction by synaptic zinc of heat shock protein-70 in hippocampus after kainate seizures. 1068 65
The 27-kDa
heat shock protein
(Hsp27) is constitutively expressed in many neurons of the brainstem and spinal cord, is strongly induced in glial cells in response to ischemia,
seizures
, or spreading depression, and is selectively induced in neurons after axotomy. Here, the expression of Hsp27 was examined in brains of adult rats from 1.5 hours to 6 days after brief hyperthermic stress (core body temperature of 42 degrees C for 15 minutes). Twenty-four hours following hyperthermia, Western blot analysis showed that Hsp27 was elevated in the cerebral cortex, hippocampus, cerebellum, and brainstem. Immunohistochemistry for Hsp27 revealed a time-dependent, but transient, increase in the level of Hsp27 immunoreactivity (Hsp27 IR) in neuroglia and neurons. Hsp27 IR was detected in astrocytes throughout the brain and in Bergmann glia of the cerebellum from 3 hours to 6 days following heat shock. Peak levels were apparent at 24 hours, gradually declining thereafter. In addition, increases in Hsp27 IR were detected in the ependyma and choroid plexus. Hyperthermia induced Hsp27 IR in neurons of the subfornical organ and the area postrema within 3 hours and reached a maximum by 24 hours with a return to control levels 4-6 days after hyperthermia. Specific populations of hypothalamic neurons also showed Hsp27 IR after hyperthermia. These results demonstrate that hyperthermia induces transient expression of Hsp27 in several types of neuroglia and specific populations of neurons. The pattern of induced Hsp27 IR suggests that some of the activated cells are involved in physiological responses related to body fluid homeostasis and temperature regulation.
...
PMID:Hyperthermic induction of the 27-kDa heat shock protein (Hsp27) in neuroglia and neurons of the rat central nervous system. 1107 47
We studied activation of microglia and expression of the 27 kDa
heat shock protein
(HSP27) in the brain during kainic acid-induced acute hippocampal
seizures
in rats. The microglial activation was observed at 6 hrs after
seizure
induction, but the expression of HSP27 was delayed until 3 days after
seizure
induction. The gross anatomical distributions of the two phenomena in the brain structures were almost identical, being localized not only in the primary focus at the dorsal hippocampus ipsilateral to the kainic acid injection, but also in selected remote brain structures that was highly consistent with the propagation pathways of the hippocampal
seizure
as detected previously by metabolic mapping. These structures included the hippocampus, amygdala, entorhinal cortex, piriform cortex, sensorimotor cortex, hypothalamus and thalamus. A close observation, however, revealed a difference in distribution of the two phenomena in the layers of the contralateral hippocampus: The HSP27 expression showed a layer-specific distribution, being localized selectively in the molecular layer and hilus of the dentate gyrus, and the radiatum and molecular layers of the CA-3 subfield suggesting the expression in the neuropil. On the other hand, the distribution of the microglial activation was non-specific to the layers, being scattered in the whole regions of the dorsal hippocampus. There were no apparent morphological changes in the neurons in these structures except for the ipsilateral dorsal hippocampus, by light microscopic examinations with hematoxylin-eosin staining. These findings thus indicate that activation of microglial cells and expression of HSP27 occur transsynaptically by epileptic activities through the propagation pathways of hippocampal
seizure
and suggest that these phenomena may reflect a part of early microenvironmental alterations in epileptic brain.
...
PMID:[The microglial activation and the expression of heat shock protein 27 through the propagation pathway of kainic acid-induced hippocampal seizure in the rat]. 1128 Sep 25
Japanese herbal medicine has long been considered as only supplementary therapy to Western medicine. However, we discovered that an herbal mixture, Saiko-keishi-to-ka shakuyaku (SK, TJ-960), showed regulatory function of gene expression such as increased expression of
seizure
-related gene PTZ-17, proto-oncogene c-fos and
heat shock protein
HSP 72. These results provide a scientific basis for an important ancient concept and usage of herbal mixtures as a "therapy against diseases which will be suffered in the future". Our results also give an adequate provide break-throughs for therapy and even prevention of intractable epilepsy, Alzheimer's disease, developmental disorders during pregnancy and the postnatal period, and also probably for prevention of metastasis or relapse of various cancers.
...
PMID:Regulation of gene expression by herbal medicines--a new paradigm of gene therapy for multifocal abnormalities of genes. 1148 47
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