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

Expression of brain-derived neurotrophic factor (BDNF) may play a role in the mechanism of neuronal cell death after cerebral ischemia. We investigated the changes in levels of mRNAs encoding BDNF and its promoters in the rat brain after transient forebrain ischemia. Transient forebrain ischemia was induced by occlusion of bilateral common carotid arteries and systemic hypotension for 8 min. The alterations in BDNF gene expression in the hippocampus and in the cerebral cortex were examined by in situ hybridization using a mouse BDNF cDNA probe and cDNA probes including exon-specific promoters. BDNF transcripts were rapidly enhanced after the ischemic insult, both in the hippocampus and the cerebral cortex. NBQX suppressed the enhanced gene expression of BDNF markedly in the dentate gyrus (DG). In contrast, MK-801 had little effect on BDNF expression. In the piriform cortex, MK-801 or NBQX reduced the expression only moderately. After the ischemic insult, promoter specific BDNF 5'-exon I and exon III were increased remarkably in the DG. The increase in exon I in DG was suppressed partially by MK-801 and NBQX, while the increase in exon III in CA3 was suppressed by MK-801 but that in DG was not suppressed by either antagonist. In the piriform cortex, exon III was increased remarkably and this increase was not influenced by either agonist. These results suggest that the gene expression of BDNF was enhanced by transient ischemia both in the hippocampus and the cerebral cortex and that the cerebral ischemia stimulated at least two different promoter- and neuron type-specific pathways regulating expression of the BDNF gene mediated by glutamate receptors of non-NMDA type and NMDA type.
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PMID:Increases in levels of brain-derived neurotrophic factor mRNA and its promoters after transient forebrain ischemia in the rat brain. 976 65

The expression of the mRNAs of nerve growth factor (NGF), brain-derived neurotrophic factor (BDNF), neurotrophin 3 (NT3) and the neurotrophin receptor, TrkB, was studied in the rat hippocampus by in situ hybridization following normothermic (37 degreesC) and protective hypothermic (33 degreesC) transient cerebral ischemia of 15 min duration. In the resistant dentate gyrus, normothermic ischemia transiently induced NGF mRNA at around 8 h of recovery, while the NT3 mRNA levels were depressed over at least a 24-h recovery period. The levels of BDNF and TrkB were transiently and markedly elevated with a maximal expression at 24 h of recovery. Intraischemic hypothermia reduced the induction of NGF mRNA, while the increase of BDNF mRNA expression occurred earlier during recovery, and the post-ischemic NT3 mRNA depression was not affected. Also, the expression of TrkB mRNA was enhanced, and occurred concomitantly with the elevation of BDNF mRNA. In contrast, there were no changes in neurotrophin and TrkB mRNA in the CA3 and CA1 regions. The expression of BDNF mRNA at 24 h after normothermic ischemia, was attenuated by intraischemic hypothermia. We conclude that, the expressions of NGF, BDNF, NT3 or TrkB mRNA in ischemia-sensitive hippocampal subregions are not increased by protective hypothermia. In contrast, hypothermia induces neurotrophin mRNA alterations in the ischemia-resistant dentate gyrus that may convey protection to sensitive regions.
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PMID:The effect of hypothermia on the expression of neurotrophin mRNA in the hippocampus following transient cerebral ischemia in the rat. 983 92

Previous studies have demonstrated that cortical spreading depression (CSD) induces neuronal tolerance to a subsequent episode of ischemia. The objective of the present investigation was to determine whether CSD alters levels of mRNA coding for putative neuroprotective proteins. Unilateral CSD was evoked in male Wistar rats by applying 2 mol/L KCl over the frontal cortex for 2 hours. After recovery for 0, 2, or 24 hours, levels of several mRNA coding for neuroprotective proteins were measured bilaterally in parietal cortex using Northern blot analysis. Levels of c-fos mRNA and brain-derived neurotrophic factor (BDNF) mRNA were markedly elevated at 0 and 2 hours, but not 24 hours after CSD. Tissue plasminogen activator (tPA) mRNA levels were also significantly increased at 0 and 2 hours, but not 24 hours after CSD. Levels of the 72-kDa heat-shock protein (hsp72) mRNA were not significantly increased by CSD, except for a small elevation (20%) at 2 hours recovery. Levels of the 73-kDa heat-shock cognate (hsc73) mRNA were slightly, but significantly, increased at 2 and 24 hours of recovery. Finally, levels of mRNA for protease nexin-1 and glutamine synthetase were not significantly altered by CSD at any time studied. The current results support the hypothesis that neuronal tolerance to ischemia after CSD may be mediated by increased expression of FOS, BDNF, or tPA, but not by increased expression of hsp72, hsc73, nexin-1, or glutamine synthetase.
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PMID:Effect of cortical spreading depression on the levels of mRNA coding for putative neuroprotective proteins in rat brain. 985 Jan 43

The central nervous system (CNS) contains a large amount of zinc; a substantial fraction of it is located inside synaptic vesicles of glutamatergic terminals in chelatable forms and released in a calcium-dependent manner with intense neuronal activity. Recently, it has been shown that excessive zinc influx can kill neurons in rats subjected to transient forebrain ischemia. On the other hand, severe depletion of zinc has been also reported to induced cell death in certain nonneuronal cells. Since decreases in tissue zinc have been associated with Alzheimer's disease (AD) and senile macular degeneration, we examined whether depletion of intracellular zinc with a zinc chelator can directly induce neuronal death in mouse cortical cultures. Exposure of cortical cultures to a cell-permeant zinc-chelator, N,N,N',N'-tetrakis (2-pyridylmethyl) ethylenediamine (TPEN, 0.5-3.0 microM) induced gradually developing neuronal degeneration accompanied by various features of apoptosis: cell body shrinkage, nuclear condensation and fragmentation, and internucleosomal DNA breakage. At higher concentrations, TPEN induced additional glial cell death. TPEN-induced cell death was completely blocked by coaddition of zinc. Addition of a protein synthesis inhibitor cycloheximide as well as a caspase inhibitor carbobenzoxy-valyl-alanyl-aspartyl-fluoromethyl ketone (zVAD-fmk) markedly attenuated TPEN-induced neuronal death. On the other hand, brain-derived neurotrophic factor (BDNF), insulin-like growth factor-1 (IGF-1), phorbol 12-myristate 13-acetate (PMA), high K+, or an antioxidant, trolox, did not show any protective effect. The present results demonstrated that depletion of intracellular zinc induces protein synthesis-dependent neuronal apoptosis in cortical culture. Combined with the findings that extracellular zinc may promote extracellular beta-amyloid (A beta) aggregation and that total tissue zinc is reduced in AD, present results suggest a possibility that redistribution of zinc from intracellular to extracellular space may synergistically contribute to neuronal apoptosis in AD.
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PMID:Depletion of intracellular zinc induces protein synthesis-dependent neuronal apoptosis in mouse cortical culture. 987 67

Cellular localization and tissue levels of BDNF protein were studied using immunocytochemistry and enzyme immunoassay, respectively, in the cortex and striatum at different reperfusion times (0-24 h) after 2 h of unilateral middle cerebral artery occlusion (MCAO) in rats. The distribution of neuronal injury was analyzed in NeuN-, cresyl violet-, and Fluoro-Jade-stained sections. At 2 h postischemia, but not at later time points, there was a several-fold increase of the number of BDNF-immunoreactive (-ir) cells in the ipsilateral cingulate and frontal cortices outside the damaged area. Animals with cortical injury showed loss of BDNF-ir fibers in the striatum at 2-24 h, whereas rats with cell damage confined to the striatum exhibited no such change. At 2-16 h, strongly BDNF-ir fibers were observed along the myelinated fascicles medially in the striatum, in the anterior commissure, and in the corpus callosum ipsilateral to the MCAO. BDNF protein levels were increased (by 133-213%) at 2 h in the cingulate and frontal cortices and decreased (by 40%) at 24 h in the striatum. These findings show that the increased expression of BDNF mRNA in cortical neurons previously demonstrated after transient focal ischemia is accompanied by elevated levels of BDNF protein. The rapid decline of BDNF protein levels suggests a pronounced release or anterograde axonal transport in the postischemic phase. The reduction of BDNF protein in the striatum of animals with cortical damage provides further evidence for anterograde transport, which is also supported by the accumulation of BDNF protein in several preterminal fiber systems. The changes of BDNF protein after focal ischemia could play a role for survival and plasticity of cortical and striatal neurons.
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PMID:Rapid alterations of BDNF protein levels in the rat brain after focal ischemia: evidence for increased synthesis and anterograde axonal transport. 987 68

Some studies have provided evidence that delayed death of hippocampal CA1 neurons in transient global ischemia occurs by classical apoptosis. Recently, translocation of synaptic zinc has been shown to play a key role in ischemic CA1 neuronal death. With these two lines of evidence, we examined in mouse cortical cultures the possibility that zinc neurotoxicity, slowly triggered over a day, may occur by classical apoptosis. Exposure of cortical cultures to 30-35 microM zinc for 24 h resulted in slowly evolving death of neurons only, while exposure to zinc at higher concentrations ( > or = 40 microM) produced near-complete death of both neurons and glia. DNA agarose gel electrophoresis revealed internucleosomal DNA fragmentation, and the terminal deoxynucleotidyl transferase-mediated dUTP nick end labeling method revealed DNA breaks in degenerating neurons after 24 h exposure to 30-35 microM zinc, suggesting that the death may occur by apoptosis. However, electron-microscopic examinations revealed ultrastructural changes clearly indicative of necrosis, such as marked swelling of intracellular organelles and disruption of cell membranes amid relatively intact nuclear membranes. Furthermore, the slowly triggered zinc neurotoxicity was not attenuated by cycloheximide, neurotrophins (brain-derived neurotrophic factor, neurotrophin-3, neurotrophin-4/5) or high potassium, all of which effectively reduced several forms of apoptosis in our cortical cultures. Interestingly, a vitamin E analogue trolox almost completely blocked slowly triggered zinc neurotoxicity, indicating that free radical injury is the main mechanism of zinc neurotoxicity. Consistently, exposure to zinc increased membrane lipid peroxidation assessed by the thiobarbituric acid reactive substance assay. Although zinc-induced neuronal death, slowly triggered over a day, is associated with DNA fragmentation, overall it exhibited features more typical of necrosis. This neuronal death is probably mediated by free radical injury. Further studies appear warranted to investigate the mechanistic link between toxic zinc influx and free radical generation and the possibility that selective neuronal death in transient global ischemia also occurs by zinc-triggered neuronal death exhibiting features of both apoptosis and necrosis.
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PMID:Zinc-induced cortical neuronal death with features of apoptosis and necrosis: mediation by free radicals. 1005 Dec 27

Consumption of alcohol during pregnancy can result in central nervous system deficits in infants ranging from fetal alcohol effects to fetal alcohol syndrome. Changes in cerebral metabolism causing ischemic in utero conditions can also result from ethanol (EtOH). Growth factors have been shown to ameliorate ischemic damage and EtOH-induced neurotoxicity. However, using an in vitro model system of fetal alcohol effects/fetal alcohol syndrome, this study examines the neuroprotective effects of nerve growth factor, brain-derived neurotrophic factor, or glial cell line derived neurotrophic factor against EtOH treatment (0, 200, 400, 800, or 1, 600 mg/dl) combined with acute ischemia (2-hour hypoxia in EtOH-containing glucose-free media) followed by chronic hypoglycemia (16-hour glucose deprivation in EtOH-containing media). 3-(4, 5-Dimethylthiazol-2-yl)-2,5-diphenyl tetrazolium bromide assays assessed relative neurotoxicity. Glial cell derived neurotrophic factor was not neuroprotective. Nerve growth factor protected against ischemia/hypoglycemia combined with 0-1,600 mg/dl EtOH. Brain-derived neurotrophic factor protected against ischemia/hypoglycemia combined with 0-800 mg/dl EtOH. These studies demonstrate marked growth factor neuroprotection against a myriad of conditions encountered by developing EtOH-exposed fetuses.
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PMID:BDNF and NGF afford in vitro neuroprotection against ethanol combined with acute ischemia and chronic hypoglycemia. 1007 4

This review primarily discusses work that has been performed in our laboratories and that of our direct collaborators and therefore does not represent an exhaustive review of the current literature. Our aim is to further discuss the role that gene expression plays in neuronal plasticity and pathology. In the first part of this review we examine activity-dependent changes in the expression of inducible transcription factors (ITFs) and neurotrophins with long-term potentiation (LTP) and kindling. This work has identified particular ITFs (Krox-20 and Krox-24) and neurotrophin systems (particularly the brain-derived neurotrophic factor (BDNF)/tyrosine receptor kinase-B, Trk-B system) that may be involved in stabilizing long-lasting LTP (i.e. LTP3). We also show that changes in the expression of other ITFs (Fos, Jun-D and Krox-20) and the BDNF/trkB neurotrophin system may play a central role in the development of hippocampal kindling, an animal model of human temporal lobe epilepsy. In the next part of this review we examine changes in gene expression after neuronal injuries (ischemia, prolonged seizure activity and focal brain injury) and after nerve transection (axotomy). We identify apoptosis-related genes (p53, c-Jun, Bax) whose delayed expression selectively increases in degenerating neurons, further suggesting that some forms of neuronal death may involve apoptosis. Moreover, since overexpression of the tumour-suppressor gene p53 induces apoptosis in a wide variety of dividing cell types we speculate that it may perform the same function in post-mitotic neurons following brain injuries. Additionally, we show that neuronal injury is associated with rapid, transient, activity-dependent expression of neurotrophins (BDNF and activinA) in neurons, contrasting with a delayed and more persistent injury-induced expression of certain growth factors (IGF-1 and TGFbeta) in glia. In this section we also describe results linking ITFs and neurotrophic factor expression. Firstly, we show that while BDNF and trkB are induced as immediate-early genes following injury, the injury-induced expression of activinA and trkC may be regulated by ITFs. We also discuss whether loss of retrograde transport of neurotrophic factors such as nerve growth factor following nerve transection triggers the selective and prolonged expression of c-Jun in axotomized neurons and whether c-Jun is responsible for regeneration or degeneration of these axotomized neurons. In the last section we further examine the role that gene expression may play in memory formation, epileptogenesis and neuronal degeneration, lastly speculating whether the expression of various growth factors after brain injury represents an endogenous neuroprotective response of the brain to injury. Here we discuss our results which show that pharmacological enhancement of this response with exogenous application of IGF-1 or TGF-beta reduces neuronal loss after brain injury.
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PMID:Activity and injury-dependent expression of inducible transcription factors, growth factors and apoptosis-related genes within the central nervous system. 1008 Mar 84

Two unilateral hypoxic-ischemia (HI) models (moderate and severe) in immature rat brain have been used to investigate the role of various transcription factors and related proteins in delayed neuronal death and survival. The moderate HI model results in an apoptotic-like neuronal death in selectively vulnerable regions of the brain while the more severe HI injury consistently produces widespread necrosis resulting in infarction, with some necrosis resistant cell populations showing evidence of an apoptotic type death. In susceptible regions undergoing an apoptotic-like death there was not only a prolonged induction of the immediate early genes, c-jun, c-fos and nur77, but also of possible target genes amyloid precursor protein (APP751) and CPP32. In contrast, increased levels of BDNF, phosphorylated CREB and PGHS-2 were found in cells resistant to the moderate HI insult suggesting that these proteins either alone or in combination may be of importance in the process of neuroprotection. An additional feature of both the moderate and severe brain insults was the rapid activation and/or proliferation of glial cells (microglia and astrocytes) in and around the site of damage. The glial response following HI was associated with an upregulation of both the CCAAT-enhancer binding protein alpha (microglia only) and NFkappaB transcription factors.
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PMID:Neuronal death and survival in two models of hypoxic-ischemic brain damage. 1020 30

The expression of brain-derived neurotrophic factor (BDNF) and its receptor tyrosine kinase B are both increased after global ischemia. Therefore, a protective action of BDNF against the delayed degeneration of vulnerable neurons has been suggested. We have investigated the neuroprotective action of BDNF in global ischemia induced by a four-vessel occlusion in the rat. Following reperfusion, 0.06 microg/hr BDNF was continuously administered intracerebroventricularly with an osmotic minipump. Rats were sacrificed up to 7 days after ischemia and neuronal degeneration was identified by terminal transferase and biotin-dUTP nick end labeling (TUNEL) staining. Additionally, the glial reaction was investigated immunohistochemically and by measuring the activation of immunological nitric oxide synthase protein expression. Postischemic intracerebroventricular infusion of BDNF prevented neuronal death in the vulnerable CA1 region of the hippocampus. Additionally, astroglial activation and macrophage infiltration, which were observed in association with neuronal death, were inhibited by BDNF. This was paralleled by an inhibition of inducible nitric oxide synthase (iNOS) expression in the hippocampus. Thus, the observed neuroprotective effects of continuous BDNF administration after reperfusion suggest a therapeutic potential for BDNF in cerebral ischemia.
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PMID:Brain-derived neurotrophic factor prevents neuronal death and glial activation after global ischemia in the rat. 1021 71


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