UMLS:C0917798 - FACTA Search

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Query: UMLS:C0917798 (cerebral ischemia)
17,036 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

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

The endoplasmic reticulum (ER) is a subcellular compartment playing a central role in folding and processing membrane and secretory proteins. The importance of these reactions for normal cellular function is indicated by the fact that blocking of these processes is potentially lethal for cells. Under conditions associated with ER dysfunction, unfolded proteins accumulate in the ER lumen. This is the warning signal of two stress responses: the unfolded protein response (UPR) required for inducing the new synthesis of chaperons to refold the unfolded proteins, and the ER-associated degradation (ERAD) to degrade unfolded proteins at the proteasome. Cells in which UPR and ERAD cannot be activated to such an extent that ER function is restored die by apoptosis. In acute pathological states of the brain, including stroke, neurotrauma and epileptic seizures, and in degenerative diseases ER function is impaired in multiple ways. These include oxidative stress, nitric oxide-induced inactivation of the ER calcium pump resulting in disturbances of ER calcium homeostasis and impairment of UPR and ERAD. Furthermore, proteasomal function is impaired which causes secondary ER dysfunction. The only way to escape this potentially lethal cycle is to induce UPR and thus to activate new synthesis of ER chaperon GRP78 to levels sufficient to refold unfolded proteins. ER dysfunction may induce a state of tolerance, impair cellular functions, or induce apoptosis, depending on the severity and duration and the cell type affected. This review focuses on the possible role of ER dysfunction in the pathological process induced by transient cerebral ischemia.
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PMID:Endoplasmic reticulum dysfunction in brain pathology: critical role of protein synthesis. 1618 92

After ischemia, endoplasmic reticulum (ER) stress pathways are activated that include unfolded protein response (UPR) and protein synthesis inhibition (PSI). Both of these mechanisms aim to restore ER functioning mainly by inhibition of translation and increased processing of excess proteins in ER. We were interested in the role of these pathways during spontaneous recovery after transient middle cerebral artery occlusion (MCAO) in rats. The spontaneous recovery of rats was assessed with a limb-placing test. The expression of ER-stress-related genes (IRE1, ATF6, GRP78, eif2alpha, ATF4, PERK) was studied by using in situ hybridization in different brain areas on post-operative days 2, 7, 14 and 28. Elevated signals were detected in striatum contralateral to the lesion on days 2 (PERK and IRE1) and 14 post-ischemia (IRE1). Gene expression was elevated on day 7 in the striatum ipsilateral to the lesion (ATF6 and GRP78) and on day 14 (GRP78) post-ischemia. Furthermore, elevated levels of GRP78 were detected on day 14 after ischemia in the ipsilateral sensorimotor cortex. These results suggest that altered gene expression related to unfolded protein response may be more long lasting than expected following focal cerebral ischemia. In addition, these results show that the response to ER stress differs ipsi- and contralaterally after MCAO in rats. Since these differences are detected in both hemispheres only in areas adjacent to the lesion, UPR may contribute to spontaneous recovery after MCAO in rats.
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PMID:Prolonged bihemispheric alterations in unfolded protein response related gene expression after experimental stroke. 1668 12

Both prostaglandin A(1) (PGA(1)) and lithium have been reported to protect neurons against excitotoxic and ischemic injury. The present study was undertaken to examine the effects of lithium and PGA1 on heat shock proteins (HSP) and the growth arrest and DNA-damage-inducible gene (GADD153) and to evaluate if lithium could potentiate PGA(1)'s neuroprotective effects against cerebral ischemia. Rats were pretreated with a subcutaneous injection of lithium for 2 days and a single intracerebral ventricle administration of PGA(1) 15 min before ischemic insult. Brain ischemia was induced by a permanent middle cerebral artery occlusion. The infarct volume, motor behavior deficits and brain edema were analyzed 24 h after ischemic insult. The result showed that PGA(1) significantly reduced infarct volume, neurological deficits and brain edema. Except for neurological deficit, lithium enhanced PGA(1)'s neuroprotection. The neuroprotective effects of PGA(1) were associated with an up-regulation of cytoprotective heat shock proteins HSP70 and GRP78 in the ischemic brain hemisphere as determined by immunoblotting and immunofluorescence. The induction of HSP70 and GRP78 was enhanced by lithium. However, although the expression of GADD153 was enhanced significantly after pMCAO, it was not influenced by either PGA(1) or lithium or their combination. These studies suggest that lithium can potentiate PGA(1)'s neuroprotective effects and thus may have potential clinical value for the treatment of stroke in combination with other neuroprotective agents.
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PMID:Enhancement of neuroprotection and heat shock protein induction by combined prostaglandin A1 and lithium in rodent models of focal ischemia. 1679 96

The endoplasmic reticulum (ER) is important for maintaining the quality of cellular proteins. Various stimuli can disrupt ER homeostasis and cause the accumulation of unfolded or misfolded proteins, i.e., a state of ER stress. Recently, ER stress has been reported to play an important role in the pathogenesis of neurological disorders such as cerebral ischemia and neurodegenerative diseases, but its involvement in the spinal cord diseases has not been fully discussed. We conducted this study using tunicamycin (Tm) as an ER stress inducer for rat spinal cord in organotypic slice culture, a system that we have recently established. Tm was shown to induce ER stress by increased expression of GRP78. The viability rate of spinal cord neurons decreased in a dose-dependent manner with Tm treatment, and dorsal horn interneurons were more vulnerable to Tm-induced neurotoxicity. A p53 inhibitor significantly increased the viability of dorsal horn interneurons, and immunofluorescence studies showed nuclear accumulation of p53 in the dorsal horns of Tm-treated spinal cord slices. These findings suggest that p53 plays an important role in the killing of dorsal horn interneurons by Tm. In contrast, motor neurons were not protected by the p53 inhibitor, suggesting that the role of p53 may vary between different cell types. This difference might be a clue to the mechanism of the stress-response pathway and might also contribute to the potential application of p53 inhibitors for the treatment of spinal cord diseases, including amyotrophic lateral sclerosis.
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PMID:Role of p53 in neurotoxicity induced by the endoplasmic reticulum stress agent tunicamycin in organotypic slice cultures of rat spinal cord. 1713 18

Recent reports have shown that ER stress is involved in the pathology of some neurodegenerative diseases. In a screen for compounds that induce the ER-mediated chaperone BiP/GRP 78 (BiP), we identified BiP inducer X (BIX). BIX induced BiP only, in a dose-dependent manner, without induction of other molecules involved in the ER stress response. Pretreatment of neuroblastoma cells with BIX reduced cell death induced by ER stress. Intracerebroventricular pretreatment with BIX reduced the area of infarction due to focal cerebral ischemia in mice. In the penumbra of BIX-treated mice, ER stress-induced apoptosis was suppressed, leading to a reduction in the number of apoptotic cells. Taken together, BIX induces BiP to prevent neuronal death by ER stress, suggesting that it may be a potential therapeutic agent for cerebral diseases caused by ER stress.
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PMID:[A molecular chaperone inducer as potential therapeutic agent for neurodegenerative disease]. 1751 12

Phosphorylation of the alpha subunit of eukaryotic translation initiation factor 2 (eIF2alpha), which is one of the substrates of protein phosphatase 1 (PP1), occurs rapidly during the first minutes of post-ischemic reperfusion after an episode of cerebral ischemia. In the present work, two experimental models of transient global ischemia and ischemic tolerance (IT) were used to study PP1 interacting/regulatory proteins following ischemic reperfusion. For that purpose we utilized PP1 purified by microcystin chromatography, as well as 2D DIGE of PP1alpha and PP1gamma immunoprecipitates. The highest levels of phosphorylated eIF2alpha found after 30 min reperfusion in rats without IT, correlated with increased levels in PP1 immunoprecipitates of the inhibitor DARPP32 as well as GRP78 and HSC70 proteins. After 4 h reperfusion, the levels of these proteins in PP1c complexes had returned to control values, in parallel to a significant decrease in eIF2alpha phosphorylated levels. IT that promoted a decrease in eIF2alpha phosphorylated levels after 30 min reperfusion induced the association of GADD34 with PP1c, while prevented that of DARPP32, GRP78, and HSC70. Different levels of HSC70 and DARPP32 associated with PP1alpha and PP1gamma isoforms, whereas GRP78 was only detected in PP1gamma immunoprecipitates. Here we suggest that PP1, through different signaling complexes with their interacting proteins, may modulate the eIF2alpha phosphorylation/dephosphorylation during reperfusion after a transient global ischemia in the rat brain. Of particular interest is the potential role of GADD34/PP1c complexes after tolerance acquisition.
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PMID:Regulatory proteins of eukaryotic initiation factor 2-alpha subunit (eIF2 alpha) phosphatase, under ischemic reperfusion and tolerance. 1776 Aug 64

The endoplasmic reticulum (ER) stress response is a defense system for dealing with the accumulation of unfolded proteins in the ER lumen. Recent reports have shown that ER stress is involved in the pathology of some neurodegenerative diseases and cerebral ischemia. In a screen for compounds that induce the ER-mediated chaperone BiP (immunoglobulin heavy-chain binding protein)/GRP78 (78 kDa glucose-regulated protein), we identified BiP inducer X (BIX). BIX preferentially induced BiP with slight inductions of GRP94 (94 kDa glucose-regulated protein), calreticulin, and C/EBP homologous protein. The induction of BiP mRNA by BIX was mediated by activation of ER stress response elements upstream of the BiP gene, through the ATF6 (activating transcription factor 6) pathway. Pretreatment of neuroblastoma cells with BIX reduced cell death induced by ER stress. Intracerebroventricular pretreatment with BIX reduced the area of infarction due to focal cerebral ischemia in mice. In the penumbra of BIX-treated mice, ER stress-induced apoptosis was suppressed, leading to a reduction in the number of apoptotic cells. Considering these results together, it appears that BIX induces BiP to prevent neuronal death by ER stress, suggesting that it may be a potential therapeutic agent for cerebral diseases caused by ER stress.
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PMID:A molecular chaperone inducer protects neurons from ER stress. 1804 81

Recent studies have suggested that neuronal apoptosis in cerebral ischemia could arise from dysfunction of endoplasmic reticulum (ER) and mitochondria. B-cell lymphoma/leukemia-2 gene (Bcl-2) has been described as an inhibitor both in programmed cell death (PCD) and ER dysfunction during apoptosis, and the Bcl-2 family play a key role in regulating the PCD, both locally at the ER and from a distance at the mitochondrial membrane. However, its signal pathways and concrete mechanisms in endoplasmic reticulum-initiated apoptosis remain incompletely understood. We therefore investigate whether ischemia/reperfusion (I/R) causes neuronal apoptosis in part via cross-talk between ER and mitochondria or not, and how the overexpression of Bcl-2 prevents this form of cell death. Here we show that analogous I/R-induced cell death occurs consequent to interactions of ER stress and mitochondrial death pathways. The participation of the mitochondrial pathway was demonstrated by the release of cytochrome C (cyt C) from mitochondrial into cytoplasmic fractions and caspase-9 cleavage. The involvement of ER stress was further supported by the observable increase of glucose-regulated protein 78(GRP78)/BiP expression and caspase-12 activity. Furthermore, prior to these changes, swelling of the ER lumen and dissociation of ribosomes from rough ER were detected by electron microscopy. Bcl-2 overexpression inhibits the release of cyt C and the activation of caspase-9/-8/-3 but not caspase-12 based on the results of Western blot. These suggest that cross-talk between ER and mitochondria participate in neuronal damage after ischemia/reperfusion. Bcl-2 overexpression could suppress I/R-induced neuronal apoptosis via influencing mitochondrial integrity.
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PMID:The protection of Bcl-2 overexpression on rat cortical neuronal injury caused by analogous ischemia/reperfusion in vitro. 1872 55

Mild NMDA receptor activation is correlated with neuroprotection in models of cerebral ischemia. Neuroprotection with NMDA manifests as a form of ischemic tolerance and involves the induction of cellular stress systems sensitive to disturbances in cellular calcium homeostasis. Unilateral micro-injection of 10, 160 and 320 microM NMDA into the prefrontal cortex of a rat 30 min prior to permanent occlusion of the middle cerebral artery (MCAO) significantly reduced the area of infarct observed after 4 h of ischemia. The highest dose of NMDA (320 microM) prevented the propagation of ischemic damage through a direct toxicity on neuronal tissue adjacent to the injection site as demonstrated in thionin-stained sections. As a result, the degree of ischemia-induced damage was similar to that measured in rats pretreated with the low dose of NMDA (10 microM). Expression of heat shock protein (HSP) 70 and glucose-regulated protein (GRP) 94 in cortical samples taken from the region of infarct following MCAO was significantly reduced in rats pretreated with 10 microM NMDA compared to saline-injected control rats and rats pretreated with higher doses of NMDA. Furthermore, 10 microM NMDA did not appear to influence expression of m-calpain or GRP78, however, higher doses of NMDA did significantly induce expression of both proteins as assessed by Western blotting. In summary, our data demonstrate an in vivo rodent model of ischemic tolerance in which 30 min of neuronal preconditioning with 10 microM NMDA confers protection against a 4 h period of MCAO-induced ischemia. This effect may involve modulation of cellular stress signals, in particular HSP70 and GRP94.
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PMID:Ischemic tolerance following low dose NMDA involves modulation of cellular stress proteins. 1899 20

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