Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

The present studies were initiated to investigate whether p53 transactivated target genes are induced in a rat model of focal cerebral ischemia. Therefore, we applied in situ hybridization, immunocytochemistry and western blotting to study the temporal and spatial expression of p53 and its transcriptional targets Bax, p21 and cyclin G1 following permanent middle cerebral artery occlusion in the rat. Cyclin G1 immunoreactivity was constitutively expressed in the nuclei of cells in the choroid plexus and ependymal cell layer and in the cytoplasm of cell bodies and dendrites of pyramidal neurons of the cerebral cortex. Cyclin G1 messenger RNA and protein levels transiently increased to 150% of contralateral levels in neurons of the ipsilateral frontal and parietal cortex and striatum 3 h following middle cerebral artery occlusion. A low level of constitutively expressed p21 messenger RNA and protein was found in nuclei of cells in the choroid plexus, oligodendrocytes and neurons. p21 messenger RNA and protein levels gradually increased to 250% and 140% of contralateral levels in areas bordering the infarct core up to 6 h following middle cerebral artery occlusion. In contrast, p53 and Bax messenger RNA and protein levels, and protein levels of p27, cyclin-dependent kinase 5, p35 and cyclin E decreased in the infarct core and border areas with time after middle cerebral artery occlusion. The selective up-regulation of cyclin G1 and p21 in neurons in the border zone of a focal ischemic infarct indicates their involvement in an adaptive response to ischemic injury. The possible participation of cyclin G1 and p21 in a signal transduction pathway associated with ischemia-induced cellular stress is discussed.
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PMID:Cell cycle-related gene expression in the adult rat brain: selective induction of cyclin G1 and p21WAF1/CIP1 in neurons following focal cerebral ischemia. 957 98

Oxidative stress affecting DNA integrity may be an important mediator of cell death induced by cerebral ischemia followed by reperfusion. Genes involved in the DNA repair processes may play an important role in cell viability. We studied the spatial expression of the DNA damage inducible gene p53 and its transcriptional targets p21WAF1/CIP1, cyclin G1, and Bax and compared their expression with markers of early DNA damage following 10 min of transient forebrain ischemia in rats. Cyclin G1 and p21WAF1/CIP1 mRNA levels increased significantly between 2.5 and 4-fold in neurons of the hippocampus, cortex, and striatum during the first 24 hr after reperfusion and decreased at 48 hr of reperfusion. Significant increases in the protein levels of Cyclin G1 and p21 WAF1/CIP1 were only seen in the striatum at 48 hr of reperfusion. The mRNA levels of the p21 family members p27KIP1 or p57KIP2 demonstrated no significant changes. p53, baxalpha, and bcl-xl mRNA levels increased in all areas of the hippocampus by 12 to 24 hr and decreased over the next 2 days of reperfusion. baxalpha mRNA was specifically induced in neurons of the outer cortical layers at 12 and 24 hr after reperfusion, and protein levels increased in the striatum at 48 hr. No changes in protein levels of p53, Bcl-xl, or Bcl-2 were detected in the cerebral cortex, hippocampus, or striatum at any time point following reperfusion. Single-stranded DNA breaks detected with DNA polymerase I-mediated in situ nick translation partly overlapped with nuclear cyclin G1 protein in the striatum, cortex, and hippocampus at 24 hr, however at 48 hr cyclin G1 remained elevated only in neurons bordering areas exhibiting DNA damage. Nuclear p53 protein, p21 mRNA, and baxalpha mRNA were absent in cells stained with the in situ nick translation method but p21 mRNA and baxalpha mRNA were increased in neurons adjacent to those with detectable DNA nick ends at 24 and 48 hr following reperfusion. The enhanced expression of cyclin G1, p21WAF1/CIP1, and baxalpha in neurons surviving transient forebrain ischemia may indicate their participation in an adaptive response to cerebral ischemia and reperfusion.
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PMID:Increased expression of cyclin G1 and p21WAF1/CIP1 in neurons following transient forebrain ischemia: comparison with early DNA damage. 969 56

The tumor suppressor protein p53 is implicated in cell cycle arrest and DNA repair as well as in apoptosis. In the CNS, p53 has been associated with neuronal cell death following various insults, including cerebral ischemia. We investigated the expression of p53 messenger RNA and protein, and the messenger RNA expression of the p53-responsive gene p21(WAF1/CiP1, in specific hippocampal regions following 15 min of normothermic and neuroprotective hypothermic (33 degrees C) global forebrain ischemia in the rat. Both p53 and p21WAF1/Cip1 messenger RNAs were transiently induced in ischemia resistant regions following normo- and hypothermic ischemia. In the ischemia sensitive CA1 region, p53 and p21WAF1/Cip1 messenger RNAs were up-regulated throughout reperfusion following the normothermic insult. The p53 protein levels increased following the insult, most markedly in ischemia-resistant CA3 neurons after normothermic ischemia, and in the CA1 neurons following hypothermic ischemia. Concomitantly, the protein was translocated to nuclei. These findings indicate that p53 and p21WAF1/Cip1 are not markers of neuronal death following global cerebral ischemia. Their rapid and transient induction correlates with cell survival, and suggests a possible role in DNA repair.
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PMID:The tumor suppressor p53 and its response gene p21WAF1/Cip1 are not markers of neuronal death following transient global cerebral ischemia. 1021 79

A brief, 3 min period of global forebrain ischemia in the rat, induced by bilateral common carotid occlusion combined with hypotension, confers resistance to hippocampal pyramidal neurons against a subsequent 10 min ischemia, which is normally lethal to these cells. The molecular mechanisms underlying this ischemic preconditioning, or tolerance, are poorly understood. The tumor suppressor p53 is a transcription factor implicated in neuronal death following various insults, including cerebral ischemia. p53 is activated in response to cellular stress, e.g. hypoxia and DNA damage. Using in situ hybridization, we investigated the hippocampal mRNA expression of p53, and two of its target genes, p21(WAF1/Cip1) and the recently cloned PAG608/Wig-1, in a two-vessel occlusion model of ischemic preconditioning. We also evaluated changes in the protein levels of p53 and PAG608/Wig-1 using immunohistochemistry. The mRNA levels of all three genes increased in the ischemia sensitive CA1 region both following 3 min (non-lethal) preconditioning and 10 min of (lethal) nonconditioned ischemia. In contrast, after 10 min of ischemia preconditioned by a 3 min ischemic insult 48 h earlier, no upregulation of these genes was detected in the CA1. Following 10 min of nonconditioned ischemia, increased neuronal immunostaining of p53 and PAG608/Wig-1 was observed in the hippocampus, which was less pronounced following 3 min of preconditioning ischemia and 10 min of preconditioned ischemia. Our results demonstrate that activation of p53 and its response genes p21(WAF1/Cip1) and PAG608/Wig-1 occurs in the brain following lethal as well as non-lethal ischemic insults, and that ischemic preconditioning markedly diminishes this activation.
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PMID:Activation of p53 and its target genes p21(WAF1/Cip1) and PAG608/Wig-1 in ischemic preconditioning. 1040 80

Iron chelators are pluripotent neuronal antiapoptotic agents that have been shown to enhance metabolic recovery in cerebral ischemia models. The precise mechanism(s) by which these agents exert their effects remains unclear. Recent studies have demonstrated that iron chelators activate a hypoxia signal transduction pathway in non-neuronal cells that culminates in the stabilization of the transcriptional activator hypoxia-inducible factor-1 (HIF-1) and increased expression of gene products that mediate hypoxic adaptation. We examined the hypothesis that iron chelators prevent oxidative stress-induced death in cortical neuronal cultures by inducing expression of HIF-1 and its target genes. We report that the structurally distinct iron chelators deferoxamine mesylate and mimosine prevent apoptosis induced by glutathione depletion and oxidative stress in embryonic cortical neuronal cultures. The protective effects of iron chelators are correlated with their ability to enhance DNA binding of HIF-1 and activating transcription factor 1(ATF-1)/cAMP response element-binding protein (CREB) to the hypoxia response element in cortical cultures and the H19-7 hippocampal neuronal cell line. We show that mRNA, protein, and/or activity levels for genes whose expression is known to be regulated by HIF-1, including glycolytic enzymes, p21(waf1/cip1), and erythropoietin, are increased in cortical neuronal cultures in response to iron chelator treatment. Finally, we demonstrate that cobalt chloride, which also activates HIF-1 and ATF-1/CREB in cortical cultures, also prevents oxidative stress-induced death in these cells. Altogether, these results suggest that iron chelators exert their neuroprotective effects, in part, by activating a signal transduction pathway leading to increased expression of genes known to compensate for hypoxic or oxidative stress.
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PMID:Protection from oxidative stress-induced apoptosis in cortical neuronal cultures by iron chelators is associated with enhanced DNA binding of hypoxia-inducible factor-1 and ATF-1/CREB and increased expression of glycolytic enzymes, p21(waf1/cip1), and erythropoietin. 1055 91

No neuroprotective compounds are clinically available for the treatment of ischemic stroke. The potential salutary effect of pifithrin alpha, a novel-specific inhibitor of the transcription factor p53, administered 1-6 h following focal reversible cerebral ischemia, was investigated. Studies measuring histological, motor, and behavioral outcomes showed significant improvements in pifithrin alpha-treated animals. Pifithrin alpha reduced the number of apoptotic cells in the ischemic brain by inhibiting the binding of p53 to its DNA sites as it reduced the expression of the p53-related gene p21(WAF) without changing the amount of p53 protein itself.
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PMID:The role of p53-induced apoptosis in cerebral ischemia: effects of the p53 inhibitor pifithrin alpha. 1514 74

Cell cycle inhibition of neural stem and progenitor cells is critical for maintaining the stability of central nervous system in adults, but it may represent a significant hurdle for neural regeneration after injury. We have previously demonstrated that the cyclin-dependent kinase inhibitor (CKI) p21(cip1/waf1) (p21) maintains the quiescence of neural stem-like cells under cerebral ischemia, as similarly shown for the hematopoietic stem cells. Here, we report the distinct role of another CKI member, p27(kip1) (p27) in neural progenitor cells (NPCs) from adult brain (subventricular zone and hippocampal subgranular zone) under both homeostatic and ischemic conditions. The basal level of NPC proliferation in the p27-/- mice was higher than that in p27+/+ mice. Upon ischemia, the overall proliferation of NPCs continued to be higher in p27-/- mice than that in p27+/+ mice. Moreover, the increase of NPC proliferation in p27-/- mice remained until 2 weeks after ischemia, whereas it resumed back to the basal level in p27+/+ mice. As a result, newly generated neuronal cells in the granular layer of p27-/- brain were more abundant compared with p27+/+ controls. These new data demonstrate that p27 functions as a distinct inhibitor for NPC proliferation under homeostatic as well as ischemic conditions.
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PMID:p27Kip1 constrains proliferation of neural progenitor cells in adult brain under homeostatic and ischemic conditions. 1935 20

Melatonin is synthesized and released by the pineal gland in a circadian rhythm, and many of its peripheral actions are mediated via membrane MT1 and MT2 receptors. Apart from its metabolic functions, melatonin is a potent neuroprotective molecule owing to its antioxidative actions. The roles of MT1 and MT2 in the neuroprotective effects of melatonin and cell signaling after cerebral ischemia remain unknown. With the use of MT1 and MT2 knockout (mt1/2(-/-) ) mice treated with melatonin, we evaluated brain injury, edema formation, inducible nitric oxide synthase (iNOS) activity, and signaling pathways, including CREB, ATF-1, p21, Jun kinase (JNK)1/2, p38 phosphorylation, resulting from ischemia/reperfusion injury. We show that the infarct volume and brain edema do not differ between mt1/2(-/-) and wild-type (WT) animals, but melatonin treatment decreases infarct volume in both groups and brain edema in WT animals after middle cerebral artery occlusion. Notably, melatonin's neuroprotective effect was even more pronounced in mt1/2(-/-) animals compared to that in WT animals. We also demonstrate that melatonin treatment decreased CREB, ATF-1, and p38 phosphorylation in both mt1/2(-/-) and WT mice, while p21 and JNK1/2 were reduced only in melatonin-treated WT animals in the ischemic hemisphere. Furthermore, melatonin treatment lowered iNOS activity only in WT animals. We provide evidence that the absence of MT1 and MT2 has no unfavorable effect on ischemic brain injury. In addition, the neuroprotective effects of melatonin appear to be mediated through a mechanism independent of its membrane receptors. The underlying mechanism(s) should be further studied using selective melatonin receptor agonists and antagonists.
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PMID:Evidence that membrane-bound G protein-coupled melatonin receptors MT1 and MT2 are not involved in the neuroprotective effects of melatonin in focal cerebral ischemia. 2191 72

The purpose of this study was to investigate the mechanisms by which electroacupuncture (EA) enhances hippocampal neural stem cells (NSCs) proliferation in cerebral ischemia-reperfusion (I/R) injured rats. A total of 72 male adult Sprague-Dawley rats were randomly divided into the sham operation control group (SC), the ischemia control group (IC) and the EA group. Middle cerebral artery occlusion (MCAO) was performed to establish the focal cerebral I/R injury model. Proliferation of hippocampal NSCs in cerebral I/R injured rats was determined by the Nestin immunohistochemical staining. Activation of the notch signaling pathway was detected by Western blotting and reverse transcription polymerase chain reaction analysis. The serum level of neurotrophic factors, e.g., the brain-derived neurotrophic factor (BDNF) and the Glial cell line-derived neurotrophic factor (GDNF), was measured using enzyme-linked immunosorbent assay (ELISA). The results showed that EA at Quchi (LI11) and Zusanli (ST36) acupoints significantly alleviated neurological deficits, reduced infarct volumes and promoted the proliferation of hippocampal NSCs in cerebral I/R injured rats. The crucial signaling molecules in the notch signaling pathway were activated and the secretion of BDNF and GDNF was increased upon EA. The protein and mRNA levels of Cyclin D1, Cdk4 and p-Rb were increased, while p21 and p27 transcripts were suppressed by notch signaling. These results suggest that the up-regulatory effect of EA on the notch signaling pathway and neurotrophic factor secretion may result in the promotion of NSCs proliferation and consequently a therapeutic effect on cerebral ischemia.
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PMID:Electroacupuncture enhances hippocampal NSCs proliferation in cerebral ischemia-reperfusion injured rats via activation of notch signaling pathway. 2400 40

The aim of this study was to investigate the effect of electroacupuncture (EA) on cell proliferation and its molecular mechanisms. Sixty rats were randomly divided into 5 groups: sham operation control (SC), ischemia control (IC), EA, EA and DMSO injection (ED), EA and U0126 injection (EU). All the groups, with the exception of SC, underwent middle cerebral artery occlusion (MCAO), and DMSO or U0126 was injected into the rat in the ED or EU group 30 min prior to MCAO. Cell proliferation was evaluated by proliferating cell nuclear antigen (PCNA) immunostaining. The changes of cell cycle proteins (cyclin D1, CDK4, cyclin E, CDK2, p21 and p27) and the ERK1/2 pathway activation were examined by RT-PCR and western blot analysis. The results showed that the positive cell numbers of PCNA immunostaining in the EA and ED groups were more than those in the IC group (P<0.05). The mRNA and protein levels of p21 or p27 were obviously increased, however, the mRNA and protein levels of cyclin D1, CDK4, cyclin E and CDK2 were reduced in the IC and EU groups. The findings suggested that EA activates the ERK1/2 signaling pathway to protect brain injury during cerebral ischemia. However, this positive effect of EA can be blocked by U0126.
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PMID:Electroacupuncture promotes neural cell proliferation in vivo through activation of the ERK1/2 signaling pathway. 2463 71


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