Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0022116 (ischemia)
91,303 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Glutamate antagonists have been shown to be neuroprotective in animal models of cerebral ischemia. Global cerebral ischemia in rats leads to selective neuronal damage in the hippocampus and striatum. Following ischemia a deficit in spatial learning and memory occurs. The aim of the present study was to investigate the potential neuroprotective effect of GYKI 52466, an antagonist at the non-N-methyl-D-aspartate receptor, with behavioural and histological measures of global ischemia in rats. Global ischemia was induced by four-vessel-occlusion (4VO) for 20 min in rats. GYKI 52466 (30 mg/kg i.p.) was administered either 20 min before induction of ischemia or immediately after onset of reperfusion. One week after surgery spatial learning was tested in the Morris water maze. After behavioural testing the animals were sacrificed and the neuronal damaged was assessed. GYKI 52466 reduced the increase in escape latency and in swim distance induced by 4VO when given before ischemia but not when applied after ischemia. Neuronal damage in the CA1 sector of the hippocampus produced by 4VO was significantly attenuated by pretreatment but not by posttreatment with GYKI 52466. Striatal neuronal damage was not affected by either treatment with GYKI 52466. GYKI 52466 had neuroprotective effects in a rat model of global cerebral ischemia. Pretreatment with GYKI 52466 protected rats against behavioural deficits and hippocampal neuronal damage induced by 4VO.
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PMID:Pretreatment but not posttreatment with GYKI 52466 reduces functional deficits and neuronal damage after global ischemia in rats. 885 48

Fructose-1,6-bisphosphate (FBP), an intermediate of glucose metabolism, is neuroprotective in brain hypoxia or ischemia. Because the mechanisms for this protection are not clear, we examined the effects of FBP on two important events in brain ischemia, i.e., loss of ATP and release of the excitatory neurotransmitter glutamate. Glutamate release from cortical brain slices was measured fluorometrically (glutamate dehydrogenase-catalyzed conversion of glutamate to alpha-ketoglutarate) during hypoxia (PO2 15 mm Hg) or hypoxia plus 100 microM cyanide. FBP (3.5 mM, with glucose 20 mM) reduced glutamate release during hypoxia by 55% and during hypoxia/cyanide by 46% (p < 0.005), and prevented a significant fall in [ATP]. [ATP] was maintained in oxygenated glucose-free conditions with 20 but not 3.5 mM FBP, and fell to < 20% of normal with hypoxia. Despite the drop in [ATP], 3.5 or 20 mM FBP without glucose decreased hypoxia-evoked glutamate release. We conclude (1) FBP present without glucose preserves normal [ATP] only when oxygen is available, suggesting limited uptake and metabolism; and (2) FBP decreases hypoxia-evoked glutamate release by processes independent of [ATP]. These results suggest protective actions of FBP that are separate from augmentation of anaerobic energy production, as previously proposed.
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PMID:Effects of fructose-1,6-bisphosphate on glutamate release and ATP loss from rat brain slices during hypoxia. 885 28

Glutamate triggers neuronal degeneration after ischemia-reperfusion in the brain. However, the details of intracellular signal transduction that propagates cell death remain unknown. The present work investigated whether protein tyrosine phosphorylation mediates neuronal death in the ischemic brain. Transient forebrain ischemia for 5-10 min in Mongolian gerbils or intoxication with the glutamate analogue kainic acid (12 mg/kg) in Sprague-Dawley rats caused neuronal death selectively in the hippocampus 2-4 days or 1 day later, respectively. Under these conditions, 160-, 115-, 105-, 92-, and 85-kDa proteins showed a significant increase in tyrosyl residue phosphorylation selectively in the hippocampus 3-12 h after ischemia or 4-8 h after kainic acid-induced seizures. Tyrosine kinases, including pp60c-src, were activated without a change of tyrosine phosphatases. Administration of radicicol, a selective inhibitor of tyrosine kinases, attenuated stimulation of tyrosine phosphorylation and hippocampal degeneration after ischemia or kainic acid injection. The results suggest that protein tyrosine phosphorylation might propagate delayed neuronal death in the mature hippocampus through glutamate overload after ischemia-reperfusion.
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PMID:Delayed neuronal death in ischemic hippocampus involves stimulation of protein tyrosine phosphorylation. 889 14

Glutamate antagonists have been shown to be neuroprotective in animal models of cerebral ischemia. Global cerebral ischemia in rats leads to selective neuronal damage in the hippocampus and striatum. Following ischemia a transient locomotor hyperactivity and a deficit in spatial learning and memory occurs. The aim of the present study was to investigate the potential neuroprotective effect of dextromethorphan, an antagonist at the N-methyl-D-aspartate receptor, with behavioural and histological measures of global ischemia in rats. Global ischemia was induced by four-vessel occlusion (4VO) for 20 min in rats. Dextromethorphan was administered 20 min before induction of ischemia at a dose of 10 or 50 mg/kg. Before and on day 1, 3 and 5 after operation the spontaneous locomotor activity was measured. One week after surgery spatial learning was tested in the Morris water maze. After behavioural testing the animals were sacrificed and the neuronal damage was assessed. Treatment with 50 mg/kg of dextromethorphan reduced the increase in locomotor activity observed on day 1 and 3 after ischemia. In the water maze dextromethorphan reduced the increase in escape latency and in swim distance induced by 4VO. Furthermore, the ischemia-induced reduction in time spent in the quadrant of the former platform position during the probe trial was increased by treatment with dextromethorphan. Neuronal damage in the CA1 sector of the hippocampus and in the dorsolateral striatum produced by 4VO was significantly attenuated by dextromethorphan. The present results demonstrate that protective effects on neuronal damage may be related to an attenuation of deficits in spatial leaning and memory following global ischemia.
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PMID:Dextromethorphan reduces functional deficits and neuronal damage after global ischemia in rats. 900 17

Hypothermia has been reported to be beneficial in CNS physical injury and ischemia. We previously reported that posttraumatic cooling to 17 degrees C for 2 h increased survival of mouse spinal cord (SC) neurons subjected to physical injury (dendrite transection) but that cooling below 17 degrees C caused a lethal NMDA receptor-linked stress to both lesioned and uninjured neurons. The present study tested whether cooling below 17 degrees C increases extracellular levels of excitatory amino acids (EAA). SC cultures were placed at 10 degrees C or 37 degrees C. Glutamate (Glu) and aspartate (Asp) levels were higher in the medium of the cooled cultures after 0.5 h (23 +/- 4 nM/microgram vs. 4 +/- 1 nM/microgram and 4 +/- 1 nM/microgram vs. 1 +/- 0 nM/microgram, respectively). The concentration of each EAA then declined and reached a plateau at 2-4 h that was still significantly higher than control levels (p < 0.0001, two-factor ANOVA, three cultures per group). Other amino acids (glycine, asparagine, glutamine, serine) showed an opposite pattern, with higher levels in the 37 degrees C group. Both NMDA and non-NMDA antagonists prevented the lethal cold injury. Survival of SC neurons cooled at 10 degrees C for 2 h and rewarmed for 22 h was 58% +/- 25% in the control group, 94% +/- 5% in the CNQX-treated group, 97% +/- 5% in the DAPV-treated group, and 99% +/- 2% in the group treated with both antagonists [p < 0.0006, one factor ANOVA, five cultures (> 120 neurons) per group]. These results show that death of neurons cooled to 10 degrees C is caused by elevated extracellular Glu and Asp and requires activation of both the NMDA and non-NMDA receptor subtypes.
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PMID:The role of excitatory amino acids in hypothermic injury to mammalian spinal cord neurons. 900 66

The effects of free radical generating systems on basal and ischemia/reperfusion-evoked release of amino acids into cortical superfusates was examined in the rat using the cortical cup technique. Xanthine oxidase plus xanthine significantly enhanced GABA levels 358 fold over controls during 20 min of four vessel occlusion. Glutamate and phosphoethanolamine release following reperfusion were also elevated. Prostaglandin synthase plus arachidonic acid significantly enhanced the ischemia-evoked release of all amino acids (aspartate 360 fold; glutamate 433 fold; glycine 6 fold; GABA 689 fold; phosphoethanolamine 69 fold) and increased the pre-ischemic levels of glutamate, glycine and phosphoethanolamine. Administration of H2O2 plus ferrous sulfate significantly elevated both pre-ischemic amino acid release and ischemia-evoked release. A role for free radical generating systems in the development of ischemic injury is supported by the ability of superoxide dismutase plus catalase to reduce ischemia-evoked amino acid efflux into cortical superfusates. Thus, the species of free radical produced, as well as the amount generated, may after the pattern of amino acid release under both ischemic and non-ischemic conditions.
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PMID:Free radicals and the ischemia-evoked extracellular accumulation of amino acids in rat cerebral cortex. 905 61

Excessive release of glutamate, from glial cells as well as neurons, is thought to be a major cause of neuronal death in ischemia. To investigate glutamate release from glial cells, we measured glutamate efflux from cultures of rat astrocytes preloaded with L-[3H]glutamate. Glutamate efflux was induced by either 60 mM KCI or Na+-free medium, suggesting that the efflux is due to the reversed operation of a Na+- and K+-coupled glutamate uptake machinery. While investigating various neuropeptides and neurotransmitters, we found that endothelin (ET) specifically induced efflux of glutamate. Northern blot analysis and binding study showed that the ET type B receptor (ET(B)-R) subtype was expressed two to three times more densely than the ET type A receptor (ET(A)-R) in astrocytes. The ET(B)-R antagonist IRL 2500 partially inhibited efflux of glutamate induced by 1 nM ET-1 in a concentration-dependent manner, causing a maximal inhibition of 60% at 1 microM. However, the ET(A)-R antagonist BQ-123 did not cause significant inhibition even at 10 microM. Combination of both antagonists completely inhibited the ET-1-induced efflux. These results indicate that both receptor subtypes are involved in efflux of glutamate with a major contribution from the ET(B)-R. Our findings suggest that ET, which is known to be released in ischemia, may exacerbate neurodegeneration by stimulating efflux of glutamate.
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PMID:Endothelin evokes efflux of glutamate in cultures of rat astrocytes. 910 48

The release of [3H]GABA from hippocampal slices from adult (3-month-old) and developing (7-day-old) mice was studied in cell-damaging conditions in vitro using a superfusion system. Cell damage was induced by modified superfusion media, including hypoxia, hypoglycemia, ischemia, the presence of Free radicals and oxidative stress. The basal release of GABA from the immature and mature hippocampus was generally markedly increased in all cell-damaging conditions. In 7-day-old mice the release was enhanced most in the presence of free radicals. 1.0 mM NaCN and ischemia, whereas in the adults 1.0 mM NaCN provoked the largest release of GABA, followed by ischemia and free radical-containing media. Potassium stimulation (50 mM K+) was still able to potentiate the release in all cell-damaging conditions in both age groups. It was shown by superfusing the slices in Ca- and Na-free media that ischemia-induced GABA release was Ca-independent, occurring by a reversed operation of Na-dependent cell membrane carriers in both adult and developing hippocampus. Glutamate and its receptor agonists, N-methyl-D-aspartate (NMDA), kainate and 2-amino-3-hydroxy-5-methyl-4-isoxazolepropionate (AMPA), potentiated GABA release only in the immature hippocampus by a receptor-mediated mechanism. The enhancement by kainate and AMPA receptors also operated under ischemic conditions. The massive amount of GABA released simultaneously with excitatory amino acids in the mature and immature hippocampus may be an important protective mechanism against excitotoxicity, counteracting harmful effects that lead to neuronal death. The GABA release induced by activation of presynaptic glutamate receptors may contribute particularly to the maintenance of homeostasis in the hippocampus upon impending hyperexcitation.
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PMID:Enhanced GABA release in cell-damaging conditions in the adult and developing mouse hippocampus. 917 35

In the present experiment the combination of brain microdialysis and CZE-LIFD permitted the measurement of glutamate in 100 nl microdialysis samples collected every 5 or 6 s. Samples were collected every 6 s, in rats anesthetized with two different anesthetic agents (ketamine and sodium thiopental). A microdialysis probe was inserted in the cortex of an anesthetized rat in the territory irrigated by the middle cerebral artery. The artery was clamped for 30 s and then released. The samples were derivatized with fluorescein isothiocyanate I (FITC) by means of a continuous-flow reactor, collected and injected into a home-made CZE-LIFD instrument. Glutamate decreased immediately after clamping the artery in ketamine anesthetized rats and increased 1 min after the onset of the ischemia in sodium thiopental anesthetized rats. In another experiment a 60 mM KCl solution was injected through a microdialysis probe inserted in the hippocampus of an anesthetized rat. In the first 5 s after the KCl solution reached the tissue, glutamate increased but gamma-aminobutytic acid and glutamine did not. The experiments show that time resolution of brain microdialysis can be reduced to a few seconds if the analytical technique is the proper one.
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PMID:Glutamate measured by 6-s resolution brain microdialysis: capillary electrophoretic and laser-induced fluorescence detection application. 925 48

The extracellular concentration of glutamate increases during hypoxia/ischemia probably due to deficient uptake. Glutamate might contribute to neuronal damage associated with this disorder and to neurodegeneration during aging. In the present study, we have tested the effect of two inhibitors of glutamate transport, L-trans-pyrrolidine-2,4-dicarboxylate and dihydrokainate, on the extracellular levels of glutamate and on neuronal damage, which was quantitatively studied by image analysis of histological brain sections. Drugs were administered by microdialysis and glutamate concentration was determined by HPLC in the striatum and the hippocampus of 3-month-old and 22-24-month-old rats. In both regions studied, the basal concentration of extracellular glutamate was higher in aged than in young rats. Pyrrolidine dicarboxylate induced a substantial elevation of extracellular glutamate in both regions, and although this increase was almost twofold higher in old than in young animals, no neuronal damage was observed. In contrast, dihydrokainate had a poor effect on glutamate levels, but induced clear neuronal damage in the striatum and the hippocampus in both groups of rats. The present results suggest that age appears not to be a significant factor in the sensitivity of neurons to the toxic effect of extracellular glutamate increase via blockade of its transport system.
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PMID:Glutamate uptake impairment and neuronal damage in young and aged rats in vivo. 928 38


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