UMLS:C0022116 - FACTA Search

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Query: UMLS:C0022116 (ischemia)
91,303 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Non-competitive N-methyl-D-aspartate receptor antagonists, including phencyclidine, ketamine, and MK801, produce vacuoles and induce the hsp 70 stress gene in layer III pyramidal neurons of the rat cingulate cortex. This study shows that phencyclidine (50 mg/kg) induces hsp 70 messenger RNA and HSP70 stress protein primarily in pyramidal neurons in posterior cingulate and retrosplenial cortex, neocortex, insular cortex, piriform cortex, hippocampus, and in the basal nuclei of the amygdala. Several neurotransmitter receptor antagonists inhibited induction of HSP70 produced by phencyclidine (50 mg/kg): haloperidol (ED50 = 0.8 mg/kg), clozapine (ED50 = 1 mg/kg), valium (ED50 = 1 mg/kg), SCH 23390 (ED50 = 7 mg/kg) and muscimol (ED50 = 3 mg/kg). Baclofen had no effect. Nifedipine blocked the induction of HSP70 produced by phencyclidine in some regions (cingulate, neocortex, insular cortex) but only partially blocked HSP70 induction in other regions (piriform cortex, amygdala). These results suggest that phencyclidine injuries pyramidal neurons via dopamine D1, D2, D4, sigma and other receptors. Several factors appear to contribute to this unusual multi-receptor mediated injury. (1) Phencyclidine blocks N-methyl-D-aspartate receptors on GABAergic interneurons resulting in decreased inhibition of pyramidal neurons. This may help to explain why multiple excitatory receptors mediate the injury and why GABAA agonists decrease the injury produced by phencyclidine. (2) Phencyclidine blockade of an amine transporter helps explain why dopamine receptor antagonists ameliorate injury. (3) Phencyclidine depolarizes neurons and produces high, potentially damaging intracellular calcium levels probably by blocking K+ channels that may be linked to sigma receptors. Since nifedipine prevents injury in cingulate, insula, and neocortex, it appears that calcium entry through L-type voltage gated calcium channels plays a role in the pyramidal neuronal injury produced by phencyclidine in these regions. There are similarities between the cingulate neurons injured by phencyclidine and circuits recently hypothesized to explain receptor changes in cingulate gyrus of schizophrenic patients. The present and previous studies also provide approaches for decreasing the clinical side effects of N-methyl-D-aspartate receptor antagonists to facilitate their possible use in the treatment of ischemia and other disorders.
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PMID:Phencyclidine induction of the hsp 70 stress gene in injured pyramidal neurons is mediated via multiple receptors and voltage gated calcium channels. 784 88

We report here the time-dependent expression of several classes of HSP mRNAs following focal cerebral ischemia in rats. HSP70, GRP78, HSP27, HSP90 and HSP47 have been reported to possess distinct functions under normal and/or stress conditions. These different classes of HSP mRNAs were differentially induced by ischemia, as determined by Northern blot analysis. Messenger RNAs of the HSP70 family proteins were induced within 4 h after ischemia and then rapidly decreased, whereas HSP27 and HSP47 mRNAs reached a maximum level of expression at 24 h and 48 h after ischemic treatment, respectively. In situ hybridization showed that the expression of inducible HSP70 mRNA was observed predominantly in regions adjacent to the ischemic core except during the early periods of ischemia. HSP27 mRNA was expressed over a broad area of the ipsilateral cerebral neocortex except for the ischemic center 24 h after ischemia. The unique induction kinetics for each HSP mRNA species may reflect their distinct roles in the brain during various physiological stresses. We will also discuss that stress proteins may be involved in the central nervous system after ischemia in two important aspects: early protection against stress and restoration of damaged lesions in the brain at later stages after ischemia.
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PMID:Differential induction of mRNA species encoding several classes of stress proteins following focal cerebral ischemia in rats. 795 88

Vulnerability of aged hearts to ischemia may be due to defects in protective mechanisms provided by heat shock proteins (HSPs). To determine whether there is a defect in the induction of HSPs by ischemia in old hearts, HSP72 and HSP73 (inducible and constitutive HSP70, respectively) mRNA induction was examined in young (2-mo-old; n = 36) and old (18-mo-old; n = 32) rat hearts. Transient (10- or 20-min) ischemia was applied by tightening a snare placed around left coronary arterial branches 3 days before examination to avoid the effect of operation on induction. HSP72 mRNA was induced markedly in young hearts after 10-min ischemia, peaked at 2 h, but was induced only slightly in old hearts. HSP73 mRNA was also induced in young hearts, peaked at 4 h, but was not induced in old hearts. The mRNAs were markedly induced in old hearts as well after 20-min ischemia, which was accompanied by the induction of HSP72 protein. Thus the age-related modulation of HSP72 and HSP73 mRNAs suggests a defective sensing mechanism for ischemia in old hearts.
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PMID:Diminished heat shock protein 70 mRNA induction in aged rat hearts after ischemia. 797 10

The effects of a 20-min transient episode of forebrain ischemia on the induction of HSP70 mRNA and protein, and the histopathological outcome in the hippocampus of the developing gerbil, were examined at postnatal days (P) 7, 15, 21 and 30 and in adulthood. 4 days after the ischemic episode, P7 gerbils did not show apparent histological abnormalities; however, from P15 onwards, ischemia resulted in necrosis in selected areas of the hippocampus. At P15 and P21, necrosis was observed in the base of the granular cell layer of the dentate gyrus and in the CA3 pyramidal cell layer, whereas at P30 and adult necrosis was apparent in the CA1 pyramidal cell layer. HSP70 mRNA induction was not found in ischemic P7 and P15 gerbils while, from P21 onwards, induction was observed in the dentate gyrus and CA1 pyramidal cell layer. In addition, at P30 and adult, HSP70 mRNA expression was also seen in CA3 pyramidal cell layer. Induction of HSP70 immunoreactivity was not seen at P7 but, from P15 onwards, ischemia induced HSP70 immunoreactivity in different areas: in dentate gyrus granular and molecular layers, from P15 onwards; in CA1 pyramidal cell layer, from P21 onwards; and in CA3 pyramidal cell layer, from P30 onwards. Results show selective age-dependent patterns of vulnerability to ischemia in the gerbil hippocampus which, overall, were not well-correlated to the corresponding HSP70 mRNA and protein induction patterns.
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PMID:Induction of HSP70 mRNA and HSP70 protein in the hippocampus of the developing gerbil following transient forebrain ischemia. 798 52

The heat shock (HS) response is remarkably conserved during evolution and is evoked under many conditions of stress. There are a number of ways in which this ubiquitous response may be important for the understanding of renal pathophysiology. Ischemia, toxin exposure, and oxidative stress induce this response. Several models of hypertension are associated with increased susceptibility to environmental stress and increased accumulation of heat shock protein mRNA. HSP70 polymorphism has been demonstrated when comparing normotensive and hypertensive rats. Heat shock proteins may play a role in renal diseases through their important involvement in immunological processes. Several observations point to a role of the heat shock response in systemic lupus erythematosus (SLE). Autoantibodies against HSP70 and ubiquitin are found in many patients with this disease. Autoantibodies against ubiquitin and ubiquitinated histone H2A are localized to the kidney glomerular basement membrane of SLE patients with active disease. A better understanding of the HS response may thus provide important insight into renal pathophysiology and may suggest paradigms for therapeutic interventions.
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PMID:Heat shock proteins and the kidney. 804 58

Regional and global myocardial ischemia and reperfusion have been demonstrated to induce expression of the stress response protein heat shock 70 (HSP70) and of immediate early genes, c-jun, c-fos, and c-myc. Because of the models that have been utilized, it has not been possible to discriminate whether this response is the consequence of ischemia, reperfusion, or abnormal hemodynamic stress superimposed on stunned myocardium. In a nonworking isolated and blood-perfused rat heart model, we evaluated the mRNAs for c-fos, c-myc, and hsp70. The heart was subjected to varying periods of ischemia and reperfusion. Significant increases in hsp70 and c-fos were observed, which increased with longer periods of ischemia. No significant increase in c-myc was measured. In addition, mRNA encoding the Ca2+/glucose responsive stress protein GRP78 was evaluated. No increase in this early response gene was noted despite the use of a model associated with cellular calcium loading. Based on these observations, we suggest that the induction of hsp70 and c-fos is the consequence of ischemia and reperfusion and not dependent upon an early hypertrophy response such as would be observed in afterload mismatching or on calcium loading. Further investigations are necessary to isolate the effects of ischemia from those of reperfusion.
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PMID:Myocardial stunning: association with altered gene expression. 806 49

The effect of a short-term energy deprivation (ischemia) on thermoresistance and heat-shock protein (HSP) synthesis in murine ascites EL-4 thymoma cells was studied in vitro. The incubation of the cells in glucose-free medium with rotenone (respiratory inhibitor) for 10 min caused rapid ATP depletion (to 9% of the initial level). After recovery, the synthesis of HSP70 and HSP90 was stimulated in the cells and they became greatly more resistant to hyperthermia than the control cells. The simultaneous rotenone and thermal treatment significantly decreased cell viability. The transition of HSP70 to Triton X-100-insoluble cell fraction was found in the ATP-depleted cells as well as in the heat-shocked cells, and 1 mM ATP fully reversed such insolubilization when it was added in Triton extraction buffer. The data obtained reveal that transient ATP depletion per se is sufficient to result in the HSP70 insolubilization, thus being conducive to induction of HSP synthesis and thermotolerance in the cells which recovered after energy deprivation. A novel mechanism of protein aggregation in ATP-deficient cells and a possible role of transient ischemia in development of tumor thermotolerance in vivo are discussed.
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PMID:Induction of heat-shock protein synthesis and thermotolerance in EL-4 ascites tumor cells by transient ATP depletion after ischemic stress. 807 May 44

The c-fos immediate early gene is induced by normal stimuli including light, stress, hyperosmolar solutions, and hormones. Ischemia, hypoxia, seizures, cortical injury, nerve section and other pathological stimuli can also induce c-fos. The induction can occur via increases in intracellular calcium that act through a Ca2+/cAMP element on its promoter, or via trophic and other factors that act through a serum response element (SRE) on its promoter. Several studies show that calcium entry via voltage sensitive calcium channels (VSCCs) is important for inducing c-fos. We have shown that calcium entry via the NMDA receptor is important for induction of c-fos mRNA by glutamate and cAMP in cultured cortical neurons. Moreover, the NMDA receptor appears to regulate translation of c-fos mRNA to Fos protein when cells are stimulated with other types of stimuli including vasoactive intestinal peptide, zinc, and fibroblast growth factor. These results suggest that toxins that elevate intracellular calcium will likely induce the c-fos gene in brain. The heat shock or stress genes are induced by a wide variety of stimuli including heavy metals, heat, oxidative and ischemic stress, prolonged seizures, hypoglycemia, calcium ionophores, and certain toxins. It is believed that denatured proteins stimulate heat shock factors to bind to heat shock elements on the promoters of all heat shock genes to induce gene transcription. We and others have shown that global and focal ischemia induce the hsp70 heat shock gene in brain. Mild ischemia induces hsp70 mRNA and HSP70 protein in neurons only.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Alterations in gene expression as an index of neuronal injury: heat shock and the immediate early gene response. 809 Mar 62

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

Distribution of heat shock protein (HSP) 90 alpha mRNA induction after 10 min of transient global ischemia was investigated in gerbil hippocampus by in situ hybridization. A small amount of HSP90 alpha mRNA was normally present in hippocampal cells and the mRNA was further induced with a peak at 8 h after ischemia. In hippocampal CA1 cells that are vulnerable to ischemia, HSP90 alpha mRNA was continuously induced by 1 day and finally diminished at 2 days. The temporal profile of HSP90 alpha mRNA induction in hippocampal CA1 cells was similar to that of HSP70 mRNA reported previously, suggesting a cooperative role of HSP90 alpha with other HSPs after ischemia.
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PMID:Induction of HSP90 alpha heat shock mRNA after transient global ischemia in gerbil hippocampus. 822 Oct 63

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