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

A uniform, predictable pattern of cellular abnormalities is seen after complete, irreversible ischemic injury to the central nervous system. This is in contrast to the heterogeneous, multifocal picture which characterizes incomplete ischemia. The range of abnormalities in neuronal soma after an arterial occlusion changes considerably as a function of time and site. There is no single pattern of neuronal alteration that can be ascribed exclusively to ischemia. Red neurons are a relatively late (about 18 h) indicator of ischemia and are seen only in areas where blood supply is marginal. In addition to depletion of high-energy-phosphate reserves, brain ischemia results in characteristic alterations of amino acid concentrations in the ischemic tissue. Glutamate, glutamine, and aspartate either decrease or remain constant while alanine increases. Proportional decreases in the former three amino acids may be explained by simple dilution due to edema. Increases in alanine relative to glutamate and aspartate may be utilized as a biochemical index of perfusion to various brain regions.
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PMID:Neuronal ischemic injury: light microscopy, ultrastructure and biochemistry. 9 17

Recently, several lines of evidence have indicated the important roles of glial cells, especially astrocytes, in the regulation of neuronal functions. The neuron-glia interaction is one of the most important issues in neuroscience, including neuropharmacology. I reviewed the present status and perspectives on the physiologic and pathologic functions of astrocytes in relation to the roles of intracellular Cl-. Astrocytes have different types of Cl- transport systems, such as voltage-sensitive and ligand-gated channels; HCO3(-)-Cl- exchange; and Na+, K+, Cl- cotransport systems. Anion exchange and cotransport systems are responsible for intracellular pH regulation and astrocytic volume regulation, respectively. Especially, astrocytic volume regulation is physiologically important for reducing the concentrations of K+ and glutamate in the extracellular space by their uptake systems. Disturbance of astrocytic volume regulation is expressed as astrocytic swelling, which is usually observed in various brain pathologic states including ischemia. Experimentally, glutamate caused a typical swelling of astrocytes in culture by Cl- and Ca(++)-dependent processes. Glutamate-induced swelling is qualitatively different from reversible swelling induced by hypoosmotic medium. Recently, we found that Cl- is intracellular factor for modulating the receptor-adenylate cyclase system in brain slices. Similarly, the receptor- and forskolin-stimulated adenylate cyclase of astrocytes showed a clear Cl- dependence. This was functionally confirmed by astrocytic morphological transformation induced by the cyclic AMP system.
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PMID:[Regulation by chloride ion of astroglial cell functions and morphological transformation]. 131 34

Glutamate is the major excitatory neurotransmitter in the mammalian brain, with receptors on every neuron in the central nervous system; it has major roles in fast synaptic transmission and in the establishment of certain forms of memory. More than 20 years ago Olney and his colleagues described the 'Excitotoxic Hypothesis' which postulates that, in addition to its normal function in the healthy brain, glutamate can kill neurons by prolonged, receptor-mediated depolarization resulting in irreversible disturbances in ion homeostasis. Therefore, glutamate is a two-edged sword; in certain undefined, adverse conditions it undergoes a transition from neurotransmitter to neurotoxin. Its toxicity has been implicated in the death of neurons in ischemia, epilepsy, and the neurodegenerative disorders such as Alzheimer's, Huntington's, and Parkinson's disease. Recent advances in the molecular cloning of the genes for the glutamate family of receptors has revealed a plethora of receptor subtypes and an unexpected level of complexity in the mechanisms of receptor expression and function.
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PMID:Cloning of the genes for excitatory amino acid receptors. 135 85

Glutamate excites receptors located on neurons that cause calcium and sodium influx involved in excitatory synaptic transmission. During ischemia, excess glutamate is present in the extracellular space of brain tissue, leading to abnormal levels of calcium influx and eventually to cell death. In mixed neuronal/glial cell cultures we have found that reduction of extracellular sodium concentration below approximately 10 mM causes marked increases in glutamate and aspartate in medium collected 10 min after changing to low sodium. Various data indicate that the accumulated glutamate comes from reversal of normal cellular glutamate uptake, a process also thought to occur during ischemia.
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PMID:Endogenous extracellular glutamate accumulation in rat neocortical cultures by reversal of the transmembrane sodium gradient. 136 Dec 24

Glutamate uptake was measured in primary rat cortical astrocyte cultures exposed to sodium azide, 2,4-dinitrophenol, or antimycin A to assess the ability of astrocytes to function under hypoxic conditions. Uptake was maintained at 54-63% of control values despite maximal inhibition of oxidative ATP production. In contrast, the glycolytic inhibitor sodium fluoride (20 mM) reduced glutamate uptake by more than 95% when glucose was the only available substrate. These data suggest that glutamate uptake is largely maintained during hypoxia provided glucose remains available. Astrocyte glutamate uptake may aid neuronal survival during conditions such as incomplete ischemia where oxygen but not glucose is depleted.
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PMID:Astrocyte glutamate uptake during chemical hypoxia in vitro. 136 5

Hyperammonemia has been suggested to induce enhanced cerebral cortex ammonia uptake, subsequent glutamine synthesis and accumulation, and finally net glutamine release into the blood stream, but this has never been confirmed in liver insufficiency models. Therefore, cerebral cortex ammonia- and glutamine-related metabolism was studied during liver insufficiency-induced hyperammonemia by measuring plasma flow and venous-arterial concentration differences of ammonia and amino acids across the cerebral cortex (enabling estimation of net metabolite exchange), 1 day after portacaval shunting and 2, 4, and 6 h after hepatic artery ligation (or in controls). The intra-organ effects were investigated by measuring cerebral cortex tissue ammonia and amino acids 6 h after liver ischemia induction or in controls. Arterial ammonia and glutamine increased in portacaval-shunted rats versus controls, and further increased during liver ischemia. Cerebral cortex net ammonia uptake, observed in portacaval-shunted rats, increased progressively during liver ischemia, but net glutamine release was only observed after 6 h of liver ischemia. Cerebral cortex tissue glutamine, gamma-aminobutyric acid, most other amino acids, and ammonia levels were increased during liver ischemia. Glutamate was equally decreased in portacaval-shunted and liver-ischemia rats. The observed net cerebral cortex ammonia uptake, cerebral cortex tissue ammonia and glutamine accumulation, and finally glutamine release into the blood suggest that the rat cerebral cortex initially contributes to net ammonia removal from the blood during liver insufficiency-induced hyperammonemia by augmenting tissue glutamine and ammonia pools, and later by net glutamine release into the blood. The changes in cerebral cortex glutamate and gamma-aminobutyric acid could be related to altered ammonia metabolism.
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PMID:Cerebral cortex ammonia and glutamine metabolism during liver insufficiency-induced hyperammonemia in the rat. 149 99

Isolated working rat hearts perfused with Krebs-Hensleit buffer were arrested and made ischemic. After 22 min, the hearts were reperfused with buffer, yielding restoration of function. Nucleotide levels rose and fell in the cardiac tissue as ischemia was imposed; the changes were consistent with the energy needs of the tissue. ATP concentrations in the tissues fell by 75% during ischemia, AMP levels were low initially and subsequently rose 5-fold, and ADP levels were essentially unchanged. Upon reperfusion ATP levels rebounded, although not to initial values, and AMP returned to initial values. During ischemia, there was a 10-fold or greater rise in inosine, hypoxanthine, and xanthine levels which fell to normally low levels upon reperfusion. Lactate dehydrogenase (LDH) activity rose during ischemia and returned to baseline upon reperfusion. Changes in LDH isozyme distribution suggest that, during ischemia, there is an increased proportion of liver-associated forms which returns to normally low levels upon reperfusion. Glutamate oxalacetate transaminase activity rose slightly at 5 min of ischemia, but, by 22 min of ischemia, it had fallen to 60% of initial values. Upon reperfusion, activity rose and, by 15 min, had reached 127% of initial values. On the other hand, there is no significant change in levels of extractable creatine kinase or isocitrate dehydrogenase activities as a result of the various conditions imposed on the hearts. As an index of protein oxidation, carbonyl levels in extractable protein rose during ischemia and were over four times the initial values at 5 min of reperfusion but, with continued reperfusion, declined to approximately 150% of initial values at 15 min.
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PMID:Biochemical effects of ischemia on isolated, perfused rat heart tissues. 157 15

The effects of systemic hypothermia (33.5 degrees C) on the ischemia-evoked release of the neurotransmitter amino acids, glutamate, aspartate, gamma-amino-butyric acid (GABA) and glycine into rat cerebral cortical superfusates were evaluated in the rat four vessel occlusion model. Glutamate, aspartate and GABA, but not glycine, levels were enhanced during and following a 20 min period of ischemia. However, when compared with normothermic ischemic animals, no reductions in glutamate, aspartate or GABA levels in the superfusates were apparent either prior to, during or following forebrain ischemic episodes. Indeed, the superfusate levels of aspartate and GABA were transiently increased immediately following ischemia. Glycine levels were significantly depressed, both pre- and post-ischemia, in cortical superfusates from hypothermic animals in comparison with normothermic rats.
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PMID:The effects of hypothermia on amino acid neurotransmitter release from the cerebral cortex. 167 60

Excessive activation of excitatory amino acid receptors has been implicated in the neuronal degeneration caused by ischemia, hypoglycemia, and prolonged seizures. We have observed directly the time course and regional vulnerability of hippocampal neurons to glutamate receptor-mediated injury in organotypic hippocampal cultures, a preparation which combines accessibility and long-term survival with preservation of regional differentiation and neuroanatomic organization. Cultures were incubated with the fluorescent dye propidium iodide which selectively enters and stains cells only after membrane damage. After 5 to 10 min of a 30-min exposure to kainate (100 microM), large neurons in the hilus of the dentate were first to become brightly fluorescent. Propidium staining subsequently appeared in the other regions of the hippocampus and increased to a maximum over the first 6 h of recovery. NMDA (10 microM) caused propidium staining that was limited to CA1 and the dentate gyrus of the cultures, sparing CA3, consistent with the regions of highest NMDA receptor density in vivo. Glutamate (1 mM) caused a delayed, progressive pattern of staining that began in CA1 (2 to 4 h after exposure), then extended to include CA3 and finally the dentate gyrus over the next 24 h. Release of LDH activity into the media was slower and less sensitive than propidium staining. Histologic degeneration was limited to neurons 24 h after agonist exposure and was consistent with the propidium staining. NMDA, kainate, and glutamate each produced a unique pattern of neuronal injury. Most notably, glutamate had low potency as a toxin and its pattern of neuronal injury was not reproduced by NMDA.
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PMID:Direct observation of the agonist-specific regional vulnerability to glutamate, NMDA, and kainate neurotoxicity in organotypic hippocampal cultures. 171 7

We used in vivo microdialysis to determine the impact of a focal hypoxic-ischemic insult on striatal amino acid efflux in the immature brain. Microdialysis probes were inserted into the right striatum of postnatal day 7 rats. To induce hypoxic-ischemic injury, the right carotid artery was ligated and the animals were exposed to 8% oxygen for 2.5 hours (n = 22). Rats exposed to ligation alone (n = 10) or hypoxia alone (n = 8) and untreated controls (n = 17) were also studied. Two hours after probe insertion, a 30-minute baseline microdialysis sample was obtained. After arterial ligation, two additional baseline samples were collected. Five more samples were collected over the next 2.5 hours (in 8% oxygen or room air). Eight amino acids (glutamate, aspartate, taurine, glutamine, alanine, serine, glycine, and asparagine) were consistently detected in dialysates using a high-performance liquid chromatography assay with electrochemical detection. In untreated controls, amino acid efflux did not change over 4 hours. During hypoxia-ischemia, efflux values fluctuated widely, with marked intra-animal and interanimal variability. Efflux peaks for each amino acid were defined as values greater than the highest control mean value plus two standard deviations. Glutamate efflux peaks (greater than 7 pmol/min compared with 2 pmol/min at baseline) were detected in no controls and in eight hypoxic-ischemic rats (p = 0.006, Fisher's two-tailed exact test). Taurine efflux peaks (greater than 75 pmol/min compared with 10 pmol/min for controls at baseline) were detected in 10 hypoxic-ischemic rats and one control (p = 0.01) and in seven of the eight animals in which glutamate efflux peaks occurred (p = 0.006).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Effects of perinatal stroke on striatal amino acid efflux in rats studied with in vivo microdialysis. 185 13


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