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)

Rats were subjected to transient cerebral ischemia by four-vessel occlusion of 30 min duration, followed by 2, 4, 8 or 24 h of recovery. Total RNA was isolated from the cerebral cortex and hippocampus, and reverse transcribed into cDNA. Hsp40 mRNA levels of samples were evaluated by quantitative PCR. Transient cerebral ischemia caused a marked increase in hsp40 mRNA levels to about 250% and 500% of control in the cortex and hippocampus respectively. Since hsp40 exerts a critical regulatory function in the HSC70/HSP70 ATPase cycle, an ischemia-induced rise of hsp40 mRNA levels could mark the onset of the recovery process after transient ischemia. On the other hand, the inhibitory action of hsp40 on P58 (a protein that activates protein synthesis by blocking the interferon-induced double-stranded RNA-activated protein kinase PKR) implies that the rise in hsp40 expression may equally well contribute to the post-ischemic suppression of protein synthesis.
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PMID:Effects of transient cerebral ischemia on hsp40 mRNA levels in rat brain. 958 51

Cerebral ischemia is associated with the induction of several heat shock proteins (HSPs), but the effects on HSP40 and GrpE are less clear. The present study investigated the induction of Hsp40 and GrpE mRNAs following 30 min of middle cerebral artery occlusion in the rat model. Reverse transcription-polymerase chain reaction (PCR) and in situ hybridization analyses showed significant induction of both mRNAs in the ischemic cortex. These results demonstrate the synergic induction of HSP70 molecular chaperone machinery in cerebral ischemia.
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PMID:Induction of heat shock protein 40 and GrpE mRNAs following transient focal cerebral ischemia in the rat. 1250 84

Transient cerebral ischemia leads to protein aggregation mainly in neurons destined to undergo delayed neuronal death after ischemia. This study utilized a rat transient cerebral ischemia model to investigate whether ischemic preconditioning is able to alleviate neuronal protein aggregation, thereby protecting neurons from ischemic neuronal damage. Ischemic preconditioning was introduced by a sublethal 3 min period of ischemia followed by 48 h of recovery. Brains from rats with either ischemic preconditioning or sham-surgery were then subjected to a subsequent 7 min period of ischemia followed by 30 min, 4, 24, 48 and 72 h of reperfusion. Protein aggregation and neuronal death were studied by electron and confocal microscopy, as well as by biochemical analyses. Seven minutes of cerebral ischemia alone induced severe protein aggregation after 4 h of reperfusion mainly in CA1 neurons destined to undergo delayed neuronal death (which took place after 72 h of reperfusion). Ischemic preconditioning reduced significantly protein aggregation and virtually eliminated neuronal death in CA1 neurons. Biochemical analyses revealed that ischemic preconditioning decreased accumulation of ubiquitin-conjugated proteins (ubi-proteins) and reduced free ubiquitin depletion after brain ischemia. Furthermore, ischemic preconditioning also reduced redistribution of heat shock cognate protein 70 and Hdj1 from cytosolic fraction to protein aggregate-containing fraction after brain ischemia. These results suggest that ischemic preconditioning decreases protein aggregation after brain ischemia.
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PMID:Ischemic preconditioning prevents protein aggregation after transient cerebral ischemia. 1593 39

Transient cerebral ischemia leads to irreversible translational inhibition which has been considered as a hallmark of delayed neuronal death after ischemia. This study utilized a rat transient cerebral ischemia model to investigate whether irreversible translational inhibition is due to abnormal aggregation of translational complex, i.e. the ribosomes and their associated nascent polypeptides, initiation factors, translational chaperones and degradation enzymes after ischemia. Translational complex aggregation was studied by electron microscopy, as well as by biochemical analyses. A duration of 15 or 20 min of cerebral ischemia induced severe translational complex aggregation starting from 30 min of reperfusion and lasting until the onset of delayed neuronal death at 48 h of reperfusion. Under electron microscopy, most rosette-shaped polyribosomes were relatively evenly distributed in the cytoplasm of sham-operated control neurons. After ischemia, most ribosomes were clumped into large abnormal aggregates in neurons destined to die. Translational complex components consisting of small ribosomal subunit protein 6, large subunit protein 28, eukaryotic initiation factor-3eta, co-translational chaperone heat shock cognate protein 70 and co-chaperone HSP40-Hdj1, as well as co-translational ubiquitin ligase c-terminus of hsp70-interacting protein were all irreversibly clumped into large abnormal protein aggregates after ischemia. Translational components were also highly ubiquitinated. To our knowledge, irreversible aggregation of translational components has not been reported after brain ischemia. This study clearly indicates that ischemia damages co-translational chaperone and degradation machinery, resulting in irreversible destruction of protein synthesis machinery by protein aggregation after ischemia.
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PMID:Co-translational protein aggregation after transient cerebral ischemia. 1603 1