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)

Metabotropic glutamate receptors of the mGlu(1) and mGlu(5) subtypes exhibit a high degree of sequence homology and are both coupled to phospholipase C and intracellular Ca(2+) mobilization. However, functional differences have been detected for these receptor subtypes when they are coexpressed in the same neuronal populations. Experimental evidence indicates that mGlu(1) and mGlu(5) receptors play a differential role in models of cerebral ischemia and that only mGlu(1) receptors are implicated in the pathways leading to post-ischemic neuronal injury. The localization of mGlu(1) receptors in GABA-containing interneurons rather than in hippocampal CA1 pyramidal cells that are vulnerable to ischemia has prompted studies that have provided a new viewpoint on the neuroprotective mechanism of mGlu(1) receptor antagonists. The hypothesis predicts that these pharmacological agents attenuate post-ischemic injury by enhancing GABA-mediated neurotransmission.
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PMID:The distinct role of mGlu1 receptors in post-ischemic neuronal death. 1296 71

The aim of the study was to assess the effects of global cerebral ischaemia (caused by temporary cardiac arrest and early (1, 24 h) and late (7 days) consequences of reperfusion) on the sensitivity of K+-dependent dopamine release from synaptosomes and D2 receptor binding sites. The rate of K+-dependent dopamine release decreased after 10 min cardiac arrest (70% of control). This effect was slightly enhanced after 1 h, 24 h and 7 days post-reperfusion; there was no possibility of recovery after 7 days post-reperfusion. Simultaneously, we observed increased dopamine D2 receptor affinity (decreased KD) and reduction of D2 receptor binding sites (Bmax) in the early post-reperfusion phase. No recovery was observed after extending the period to 7 days. Present observations are different from previously published data, which show almost full recovery in release of GABA and GABA(B) receptor binding. It seems that cardiac arrest-induced ischaemic insult can cause selective alterations in dopaminergic transmission. Lack of possibility to recover dopamine release and activity of dopamine D2 receptor after 7 days post-reperfusion can be associated with irreversible injury of dopaminergic neurones, which can be involved in several dysfunctions of the brain.
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PMID:Lack of recovery in K+-dependent dopamine release and D2 receptor binding after cardiac arrest and reperfusion. 1460 94

Ischemic injury to the CNS results in loss of ionic homeostasis and the development of neuronal death. An increase in intracellular Ca2+ is well established, but there are few studies of changes in intracellular Cl- ([Cl-]i) after ischemia. We used an in vitro model of cerebral ischemia (oxygen-glucose deprivation) to examine changes in [Cl-]i and GABA(A) receptor-mediated responses in hippocampal slices from adult rats. Changes in [Cl-]i were measured in area CA1 pyramidal neurons using optical imaging of 6-methoxy-N-ethylquinolinium chloride, a Cl--sensitive fluorescent indicator. Oxygen-glucose deprivation induced an immediate rise in [Cl-]i, which recovered within 20 min. A second and more prolonged rise in [Cl-]i occurred within the next hour, during which postsynaptic field potentials failed to recover. The sustained increase in [Cl-]i was not blocked by GABA(A) receptor antagonists. However, oxygen-glucose deprivation caused a progressive downregulation of the K+-Cl- cotransporter (KCC2), which may have contributed to the Cl- accumulation. The rise in [Cl-]i was accompanied by an inability of the GABA(A) agonist muscimol to cause Cl- influx. In vivo, diazepam is neuroprotective when given early after ischemia, although the mechanism by which this occurs is not well understood. Here, we added diazepam early after oxygen-glucose deprivation and prevented the downregulation of KCC2 and the accumulation of [Cl-]i. Consequently, both GABA(A) responses and synaptic transmission within the hippocampus were restored. Thus, after oxygen-glucose deprivation, diazepam may decrease neuronal excitability, thereby reducing the energy demands of the neuron. This may prevent the activation of downstream cell death mechanisms and restore Cl- homeostasis and neuronal function
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PMID:Changes in intracellular chloride after oxygen-glucose deprivation of the adult hippocampal slice: effect of diazepam. 1512 62

Topiramate (TPM) is a new anti-convulsant drug, prescribed in epileptic seizure. Pharmacological actions of TPM are: a) a positive modulation of GABA receptors; b) inhibition of the kainite and aminohydroxymethylisoxazole propionic acid (AMPA) glutamate receptor sub-types; c) a use-dependent Na+ channel blocker. Recent studies suggest that TPM can have anti-excitotoxic properties, because it protects against motor neuron degeneration. Moreover, TPM enhances neuroprotection and reduces hemorrhagic incidence in focal cerebral ischemia.
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PMID:[Neuroprotective effects of topiramate]. 1524 11

In nerve terminals, vesicular transporters pack neurotransmitters into synaptic vesicles, which is an essential prerequisite for transmitter release. To date, three distinct families of vesicular transporters have been identified which are specific for (a) excitatory amino acids (glutamate and aspartate), (b) inhibitory amino acids (GABA and glycine) and (c) acetylcholine and monoamines. The present study evaluated the effect of transient focal cerebral ischemia on the expression of these vesicular transporters in adult rat brain. Ischemia was induced by a 1 h transient middle cerebral artery occlusion (MCAO) in spontaneously hypertensive rats. At various reperfusion periods (3-72 h), mRNA levels of the vesicular transporters were estimated in the contralateral and the ipsilateral cerebral cortex by real-time PCR analysis. Following transient focal ischemia, mRNA expression of the vesicular GABA transporter (VGAT) decreased significantly by 3 h of reperfusion and remained at a significantly lower level than sham until at least 72 h of reperfusion. Western blotting showed a significant decrease in the VGAT immunoreactive protein levels in the ipsilateral cortex of rats subjected to focal ischemia and 24 h reperfusion. Immunohistochemistry demonstrated many VGAT immunopositive puncta in the contralateral cortex, which were significantly decreased in the ipsilateral cortex at 24 h reperfusion. Focal ischemia had no effect on the mRNA levels of the vesicular transporters specific for glutamate/aspartate, acetylcholine and monoamines at either 6 h or 24 h of reperfusion.
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PMID:Decreased expression of vesicular GABA transporter, but not vesicular glutamate, acetylcholine and monoamine transporters in rat brain following focal ischemia. 1593 16

In this study, we investigated whether transient cerebral ischemia affects the function and molecular expression of specific muscarinic cholinergic receptors. Our results show that in contrast to the GABA-B and A1 adenosine receptor systems, the ability of muscarinic receptors to attenuate evoked excitatory responses at vulnerable CA1 synapses is significantly attenuated by 18 h following reperfusion. This attenuation in efficacy was restricted to the vulnerable CA1 subfield, as no significant change in muscarinic receptor-mediated attenuation of evoked responsiveness was observed within post-ischemic dentate granule cell synapses. Expression analysis revealed that the mRNA and immunoreactive protein levels for individual types of muscarinic receptors respond differently and uniquely to transient cerebral ischemia insult. Of particular interest is the m4 subtype of receptor, whose mRNA and protein expression levels were significantly diminished within the hippocampus by 12 and 24 h following reperfusion, respectively. As the m4 muscarinic receptor localizes to presynaptic terminals within the hippocampus, a decrease in its expression could account for the impaired functional responsiveness of the muscarinic receptor system following ischemic insult. Taken together, these results demonstrate that transient forebrain ischemia leads to dynamic alterations in the gene expression, protein prevalence, and functionality of muscarinic receptors in the post-ischemic hippocampus at times preceding the degeneration of the vulnerable neurons.
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PMID:Decreased expression and impaired function of muscarinic acetylcholine receptors in the rat hippocampus following transient forebrain ischemia. 1595 Nov 92

We performed this study to determine whether gamma-aminobutyric acid (GABA(A)) receptor inhibition could reverse the effect of 17beta-estradiol on blood-brain barrier (BBB) disruption in focal cerebral ischemia. Young ovariectomized rats were implanted with a 500 microg 17beta-estradiol 21-day release pellet or with a vehicle pellet 21 days before the experiments. Forty-five minutes after middle cerebral artery (MCA) occlusion, half of each group was infused with bicuculline (a GABA(A) receptor antagonist) 1 mg/kg/min for 2 min followed by 0.1 mg/kg/min up to the end of experiments. The other half was infused with the same volume of normal saline. The transfer coefficient (Ki) of 14C-alpha-aminoisobutyric acid and the volume of 3H-dextran distribution (70,000 Daltons) were determined to measure the degree of BBB disruption one hour after MCA occlusion. In the control vehicle-treated animals, the Ki in the ischemic cortex (7.2 +/- 2.6 microl/g/min) was higher than in the contralateral cortex (2.5 +/- 1.4 microl/g/min). After bicuculline infusion, the Ki in the ischemic cortex increased (10.6 +/- 5.4 microl/g/min) although the increase was not statistically significant. In the 17beta-estradiol treated animals, the Ki in the ischemic cortex (3.8 +/- 1.6 microl/g/min) was lower than control vehicle-treated rats. With bicuculline infusion, the Ki in the ischemic cortex (14.5 +/- 6.8 microl/g/min) was markedly increased. In the non-ischemic cortex, there was no significant difference in Ki among the experimental groups. The volume of dextran distribution was not significantly different between the experimental groups in the ischemic or non-ischemic cortex. Our data suggests that part of the reason for the decreased BBB disruption in the focal ischemic area after 17beta-estradiol treatment could be due to the interaction between GABA(A) receptors and 17beta-estradiol.
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PMID:Effects of 17beta-estradiol on blood-brain barrier disruption in focal ischemia during GABA(A) receptor inhibition. 1595 79

The excitatory glutamatergic neurons in the hippocampus are modulated by inhibitory GABA-releasing interneurons. The neuromodulator adenosine is known to inhibit the presynaptic release of neurotransmitters and to hyperpolarize postsynaptic neurons in the hippocampus, which would imply that it is an endogenous protective agent against cerebral ischemia and excitotoxic neuronal damage. Interactions of the GABAergic and adenosinergic systems in regulating neuronal excitability in the hippocampus is of crucial importance, particularly under cell-damaging conditions. We now characterized the effects of adenosine receptor agonists and antagonists on the release of preloaded [3H]GABA from hippocampal slices prepared from adult (3-month-old) mice, using a superfusion system. The effects were tested both under normal conditions and in ischemia induced by omitting glucose and oxygen from the superfusion medium. Basal and K+ -evoked GABA release in the hippocampus were depressed by adenosinergic compounds. Under normal conditions activation of both adenosine A1 and A2A receptors by the agonists R(-)N6-(2-phenylisopropyl)adenosine and CGS 21680 inhibited the K+ -evoked release, which effects were blocked by their specific antagonists, 8-cyclopentyl-1,3-dipropyl-xanthine and 3,7-dimethyl-1-propargylxanthine, respectively. Under ischemic conditions the release of both GABA and adenosine is markedly enhanced. The above receptor agonists then depressed both the basal and K+ -evoked GABA release, only the action of A2A receptors being however receptor-mediated. The demonstrated depression of GABA release by adenosine in the hippocampus could be deleterious to neurons and contribute to excitotoxicity.
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PMID:GABA release modified by adenosine receptors in mouse hippocampal slices under normal and ischemic conditions. 1607 17

Using in situ hybridization, the expression of the GABA receptor subtype B subunit 1 (GABA(B) R1) and subunit 2 (GABA(B) R2) following transient global ischemia in the gerbil hippocampus was investigated. In sham-operated animals, mRNAs of both subunits were mainly detected in hippocampal pyramidal cells and interneurons with lower expression levels of the GABA(B) R2 in the CA1 field. Four days after transient cerebral ischemia, neuronal message decreased in conjunction with neuronal death and both receptor subunits disappeared from the pyramidal cell layer. However, GABA(B) R1 and GABA(B) R2 were still expressed in a few cells. In situ hybridization of the GABA synthesizing enzyme glutamic acid decarboxylase 67 (GAD67) remained unchanged after the ischemic insult. Double-labeling experiments revealed that in the postischemic hippocampus GABA(B) R1 and GABA(B) R2 were not present in GFAP-reactive astrocytes, but that the surviving parvalbumin-containing interneurons possessed GABA(B) R1 and GABA(B) R2 mRNA.
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PMID:GABA(B) receptor expression and cellular localization in gerbil hippocampus after transient global ischemia. 1629 86

The aim of the present study was to identify the distinguishing metabolic characteristics of brain tissue salvaged by reperfusion following focal cerebral ischemia. Rats were subjected to 120 min of middle cerebral artery occlusion followed by 120 min of reperfusion. The rats received an intravenous bolus injection of [1-(13)C]glucose plus [1,2-(13)C]acetate. Subsequently two brain regions considered to represent penumbra and ischemic core, i.e. the frontoparietal cortex and the lateral caudoputamen plus lower parietal cortex, respectively, were analyzed with (13)C NMRS and HPLC. The results demonstrated four metabolic events that distinguished the reperfused penumbra from the ischemic core. (1) Improved astrocytic metabolism demonstrated by increased amounts of [4,5-(13)C]glutamine and improved acetate oxidation. (2) Neuronal mitochondrial activity was better preserved although the flux of glucose via pyruvate dehydrogenase into the tricarboxylic acid (TCA) cycle in glutamatergic and GABAergic neurons was halved. However, NAA content was at control level. (3) Glutamatergic and GABAergic neurons used relatively more astrocytic metabolites derived from the pyruvate carboxylase pathway. (4) Lactate synthesis was not increased despite decreased glucose metabolism in the TCA cycle via pyruvate dehydrogenase. In the ischemic core both neuronal and astrocytic TCA cycle activity declined significantly despite reperfusion. The utilization of astrocytic precursors originating from the pyruvate carboxylase pathway was markedly reduced compared the pyruvate dehydrogenase pathway in glutamate, and completely stopped in GABA. The NAA level fell significantly and lactate accumulated. The results demonstrate that preservation of astrocytic metabolism is essential for neuronal survival and a predictor for recovery.
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PMID:Glutamate and GABA metabolism in transient and permanent middle cerebral artery occlusion in rat: importance of astrocytes for neuronal survival. 1650 42

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