Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0917798 (cerebral ischemia)
17,036 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Zinc is a potent inducer of the 72 kD heat shock protein (HSP72). In brain, pathological conditions such as ischemia and seizures increase extracellular zinc. The present study examines the effect of zinc on HSP72 expression in rat primary cortical astrocyte culture. Astrocytes were grown to confluence and exposed to zinc chloride in CO2-equilibrated Earle's buffered salt solution. Expression of HSP72 was examined using immunocytochemistry. HSP72 was induced with zinc concentrations of 5 to 100 microM after 4 h exposures, or 200 to 300 microM after 15 min exposures. At the lower concentrations expression occurred in small clusters of contiguous cells. At concentrations high enough to cause cell death, HSP72-positive astrocytes formed a continuous margin around patches of dead cells. These patterns of HSP72 expression are similar to the patterns seen after cerebral ischemia in vivo. Exposure to zinc at 100 microM for 4 h or 400 microM for 15 min caused greater than 90% cell death. Increases in extracellular zinc may contribute to HSP72 induction and astrocyte death under ischemia and other pathological conditions in brain.
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PMID:Zinc toxicity and induction of the 72 kD heat shock protein in primary astrocyte culture. 133 69

Cerebral ischemia induces the expression of a number of proteins that may have an important influence on cellular injury. The purpose of this study was to compare the regional effects of hypoxia-ischemia on the expression of the proto-oncogene, c-fos, and the heat shock protein-70 (HSP-70) gene in developing brain. Unilateral hypoxia-ischemia was produced in the brain of immature rats (7, 15, and 23 days after birth) using a combination of carotid artery ligation and systemic hypoxia (8% O2). After recovery for 2 and 24 h, the regional expression of c-fos and HSP-70 mRNA was determined using in situ hybridization. Littermates were permitted to recover for 1 week for assessment of histologic injury. Hypoxia-ischemia increased the expression of both c-fos and HSP-70 mRNA, but the topography of expression varied with the age of the animal as well as the mRNA species. In the 7-day-old group, expression of c-fos at 2 h increased in multiple regions of the ipsilateral hemisphere in nearly one-half of the animals, while HSP-70 mRNA was not expressed until 24 h and, then, predominantly in the hippocampus. In 15- and 23-day-old rats, expression of c-fos was increased at 2 h in the entorhinal cortex and in the dendritic field of the upper blade of the hippocampal dentate gyrus, while HSP-70 mRNA was prominently expressed in neocortex and the cell layers of the hippocampus. Interestingly, the strong expression of HSP-70 mRNA in dentate granule cells did not occur in the innermost layer of cells.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Regional expression of c-fos and heat shock protein-70 mRNA following hypoxia-ischemia in immature rat brain. 140 Jun 53

In situ hybridization was used to estimate regional levels of heat shock protein-70 (HSP-70) mRNA and c-fos mRNA in two related models of focal cerebral ischemia. In the first model, permanent occlusion of the distal middle cerebral artery (MCA) alone caused a patchy increase in HSP-70 mRNA by 1 h in the central zone of the MCA territory of the ipsilateral neocortex. Tissue levels of HSP-70 mRNA continued to increase for several hours and remained elevated at 24 h. In contrast to the focal expression of HSP-70, c-fos mRNA was increased throughout the ipsilateral cerebral cortex by 15 min and remained elevated for least 3 h. The wide distribution of c-fos expression suggests it may have been caused by spreading depression. In the second model, severe focal ischemia was produced with a combination of transient (1-h) bilateral carotid artery occlusion and permanent MCA occlusion. Combined occlusion for 1 h without reperfusion caused expression of HSP-70 mRNA only in regions adjacent to the central zone of the MCA territory of the neocortex. However, reperfusion of the carotids for 2 h generated intense expression of HSP-70 mRNA throughout most of the ipsilateral cerebral cortex, white matter, striatum, and hippocampus. The wide-spread increase in HSP-70 mRNA suggests that reperfusion triggered expression in all previously ischemic regions. However, at 24 h of reperfusion, increased levels of HSP-70 mRNA were restricted primarily to the ischemic core of the neocortex. These results suggest that expression of HSP-70 mRNA is prolonged in regions undergoing injury, but is transient in surrounding regions that recover.
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PMID:Regional expression of heat shock protein-70 mRNA and c-fos mRNA following focal ischemia in rat brain. 154 93

An essential part of gene expression and regulation is the binding of a regulatory protein (transcription factor) to the recognition sequence of the appropriate gene. A novel protein motif for nucleic acid recognition (called 'zinc finger') is one of such transcription factors. A relationship between gene expressions of a transcription factor and heat shock protein (HSP) 70 has been suggested. Possible inductions of mRNA for 'zinc finger' and HSP70 were examined after transient focal ischemia in rat cerebral cortex by Northern blot analysis using a synthetic oligonucleotide probe for 'zinc finger' gene expression, and a human genomic DNA probe for HSP70 gene expression. After 30 min of middle cerebral artery (MCA) occlusion, the rats recovered for 1, 3, 8h, 1, 2, and 7 days (n = 5). Zinc finger gene is normally expressed in rat cerebral cortex, and is induced by transient ischemia with a maximum at 1 h after the reperfusion. In contrast, HSP70 mRNA is not expressed in normal condition, but is greatly induced by transient ischemia with a maximum at 8 h of reperfusion. These results indicate that the gene expression for a transcription factor changes in the early stage of reperfusion after cerebral ischemia before HSP70 induction begins.
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PMID:Induction of the 'zinc finger' gene after transient focal ischemia in rat cerebral cortex. 202 39

Focal cerebral ischemia in the adult rat produces induction of 72-kDa heat shock protein (HSP-72) in neurons, glia and endothelial cells. Double antigen immunocytochemistry was carried out to find out whether microglial cells express HSP-72 following 1-h middle cerebral artery (MCA) occlusion. A monoclonal antibody against the CR3 complement receptor (OX-42) specific for microglia was used followed by a monoclonal antibody against HSP-72. Co-localization of these antibodies was seen in cells of the ipsilateral corpus callosum and striatum at 3 h following 1-h MCA occlusion, and in the ipsilateral striatal penumbra, corpus callosum and cortex at 8 h. Results demonstrate that stellate microglial cells show an early response to 1-h MCA occlusion by expressing inducible HSP-72, thus suggesting that microglial cells are sensitive to the ischemic insult.
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PMID:Early 72-kDa heat shock protein induction in microglial cells following focal ischemia in the rat brain. 771 11

BW619C89 [4-amino-2-(4-methyl-1-piperazinyl)-5-(2,3,5- trichlorophenyl)pyrimidine is a use-dependent blocker of voltage-dependent sodium channels that blocks veratrine-induced glutamate release in vitro. The aim of this study is to determine if BW619C89 inhibits glutamate release and is neuroprotective in cerebral ischemia produced by proximal middle cerebral artery (MCA) occlusion in rats. Infarct volume was determined at 24 hr after permanent MCA occlusion from 2,3,5-triphenyltetrazolim hydrochloride-stained sections. Pretreatment with BW619C89 (10, 20, 30 and 50 mg/kg i.v. of mesylate salt) decreased infarct volume in a dose-dependent fashion maximal at 30 mg/kg compared to saline controls. Treatment with 30 mg/kg up to 45 min after MCA occlusion also was effective. Microdialysate glutamate in rats treated with 30 mg/kg of drug before MCA occlusion was decreased in both caudate (ischemic core) and rostral cortex (penumbra) compared to controls. BW619C89 did not induce significant arterial hypotension, except when it was administered by rapid bolus administration. In this case, the hypotension was transient and did not reduce efficacy or superficial cortical blood flow. BW619C89 did not induce the 72 kD heat shock protein in cingulate gyrus or retrosplenial cortex as did MK801, suggesting that BW619C89 does not injure neurons in these regions as do N-methyl-D-aspartate antagonists. These results suggest that inhibition of glutamate release by BW619C89 may be an effective and nontoxic treatment for stroke.
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PMID:Neuroprotective effects of a use-dependent blocker of voltage-dependent sodium channels, BW619C89, in rat middle cerebral artery occlusion. 791 Feb 13

Preconditioning the brain with sublethal cerebral ischemia induces tolerance to subsequent lethal periods of ischemia (ischemic tolerance). The purpose of this study is to investigate the role of low-molecular weight stress proteins, 27-kDa heat shock protein (HSP27) and alpha B crystallin, in ischemic tolerance. We measured the content of these proteins with enzyme immunoassay in the rat hippocampus and cerebral cortex following 6 min of ischemia with and without preconditioning with 3 min of ischemia and 3 days of reperfusion. We also visualized the localization of HSP27 immunohistochemically in comparison with that of HSP70. A 3-min period of ischemia caused a 2.4-fold increase in HSP27 content in the hippocampus after 3 days. Immunohistochemical localization of HSP27 was found in glial cells in all subregions of the hippocampus, whereas HSP70 immunostaining was seen only in CA1 pyramidal neurons. HSP27 content in the hippocampus decreased 2 h after 6 min of ischemia. HSP27 content progressively increased in the unpreconditioned hippocampus after 1 and 3 days, but returned to preischemic levels in the preconditioned hippocampus. HSP27 and HSP70 immunostaining was seen in CA1 pyramidal neurons after 1 day both with and without preconditioning. After 3 and 7 days, an intense HSP27 staining was observed in reactive glial cells in the CA1 without preconditioning, whereas the staining decreased in the preconditioned hippocampus. HSP70 staining was seen only in neurons at these time points. We observed no significant changes in HSP27 content in the cerebral cortex although neurons in the third and fifth layers were immunostained after 1 and 3 days. We observed no alterations in alpha B crystallin content after ischemia both in the hippocampus and the cortex. The present study demonstrated that cerebral ischemia induces HSP27 expression but not alpha B crystallin. Both HSP27 and HSP70 induction had a good temporal correlation with the induction of ischemic tolerance. However, different sites of action were suggested because the localization and cell types of HSP27 induction were quite different from those of HSP70 induction. The result suggests that it is unlikely that HSP27 is directly involved in the protection afforded by ischemic preconditioning.
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PMID:Induction of 27-kDa heat shock protein following cerebral ischemia in a rat model of ischemic tolerance. 813 Oct 73

Inductions of mRNAs for heat shock protein (HSP) 70 and heat shock cognate protein (HSC) 70 were examined in the cerebral cortex, cerebellum, heart, lung, kidney, and liver of gerbils after a 10-min transient forebrain ischemia. HSP70 mRNA was normally expressed in a small amount in the cerebellum, lung, and kidney, but was not expressed in the heart or liver in a detectable amount. A very small amount of HSP70 mRNA was also present in the cerebral cortex. HSC70 mRNA was normally present in all the organs examined with a variety in the amount. Eight hours after the cerebral ischemia, the level of HSP70 mRNA increased in the cerebral cortex, lung, and kidney. HSC70 mRNA levels also increased in all the organs. However, the increase of HSC70 mRNA was remarkable in the heart. Transient cerebral ischemia caused subsequent hyperthermia. Treatment of gerbils with an artificial hyperthermia without cerebral ischemia increased the HSP70 and HSC70 mRNA levels as well. However, the HSC70 mRNA level in the heart after cerebral ischemia was much higher than that in the case with hyperthermic treatment. These results suggest that HSC70 mRNA was preferentially induced in the heart after transient forebrain ischemia that was not only due to the subsequent hyperthermia.
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PMID:Preferential expression of HSC70 heat shock mRNA in gerbil heart after transient brain ischemia. 826 47

We studied the possible role of prior ischemic stress as a protective mechanism against cerebral infarction in rats. Two brief periods of global cerebral ischemia, separated by 24 h, did not cause cell death in brain, but did produce neuronal stress, as demonstrated by induction of the nonconstitutive 72 kDa heat shock protein (HSP72). Forty-eight hours later, animals subjected to prior ischemia had smaller infarct from permanent middle cerebral artery occlusion than did sham-operated controls. These findings support an association between ischemia-induced stress, HSP72 induction, and attenuation of injury from subsequent focal cerebral ischemia.
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PMID:Prior ischemic stress protects against experimental stroke. 830 18

To clarify the role of heat shock protein-70 (HSP70) in ischaemic tolerance following pretreatment with sublethal cerebral ischaemia, we examined whether the induction of tolerance in the gerbil hippocampus is inhibited by quercetin, an inhibitor of HSP70 expression, or anti-HSP70 antibody. A 3 min period of forebrain ischaemia was induced following pretreatment with 2 min of ischaemia and 3 days of reperfusion. Quercetin or anti-HSP70 antibody was continuously infused into the left lateral ventricle using an implanted osmotic minipump started 3 h after or 2 h before the first ischaemia. The animals were killed 4 days after the second ischaemia for histological observations. Both agents produced no neuronal damage in the brain following a single 2 min period of ischaemia. The neuronal density of the CA1 hippocampus in animals subjected to treatment with quercetin and anti-HSP70 antibody was significantly lower than vehicle-treated animals but were significantly higher than animals with a single 3 min period of ischaemia. Thus, the present study showed that quercetin and anti-HSP70 antibody prevent the induction of ischaemic tolerance. The result suggests that HSP70 expression, at least in part, plays a role in the induction of ischaemic tolerance.
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PMID:Inhibition of ischaemic tolerance in the gerbil hippocampus by quercetin and anti-heat shock protein-70 antibody. 834 9


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