UMLS:C0022116 - FACTA Search

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

We have examined the significance of the serotonergic system in the pathophysiology of ischemic brain damage. Permanent occlusion of the middle cerebral artery (MCA) was performed in male NMRI mice. After 48 h, the animals received a transcardiac injection of carbon black. The area of ischemia was restricted to the neocortex and its size was determined planimetrically by means of an image analyzing system. In control experiments, the NMDA antagonist dizocilpine (MK-801), the AMPA/kainate antagonist NBQX (2,3-dihydroxy-6-nitro-7-sulfamoylbenzo(F)-quinoxaline) and the L-type calcium channel blocker nimodipine all produced a significant reduction in ischemic injury of the mouse neocortex. Interestingly, all of the 5-HT1A agonists tested (ipsapirone, CM 57493 [4-(3-trifluoromethylphenyl)-1-(2-cyanoethyl)-1,2,3,6-tetrahydropyridine ] and urapidil) were equally efficacious in reducing ischemic injury. On the other hand, the 5-HT2 antagonist naftidrofuryl failed to protect the brain tissue significantly against ischemic brain damage. Roxindole, a 5-HT1A agonist and 5-HT uptake inhibitor, was the most potent serotonergic compound tested. In order to examine the effects of 5-HT1A receptor activation in a different context, 10 min of forebrain ischemia was induced in male Wistar rats by a bilateral occlusion of the common carotid arteries combined with systemic hypotension. Administration of the 5-HT1A agonist CM 57493 reduced the neuronal damage within the ventral hippocampus and the entorhinal cortex as assessed histologically 7 days after ischemia. Finally, we found that 5-HT1A agonists are capable of reducing neuronal damage of cultured neocortical and hippocampal neurons subjected to a chemical hypoxia or glutamate in a dose dependent manner. These data suggest that 5-HT, released during ischemia, may have protective effects in the pathophysiology of ischemic brain damage through a direct action on neurons mediated via the inhibitory 5-HT1A receptor subtype. The results obtained from different in vivo and in vitro models indicate that 5-HT1A agonists are promising agents for the treatment of ischemic brain disorders.
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PMID:Effects of serotonergic drugs in experimental brain ischemia: evidence for a protective role of serotonin in cerebral ischemia. 811 77

Five minutes of oxygen and glucose deprivation (termed "in vitro ischemia") causes long-term synaptic transmission failure (LTF) in the CA1 region of the rat hippocampal slice. Dependence of LTF on cell calcium was tested by generating graded reductions in cell Ca. There was a strong correlation between the average level of exchangeable cell Ca in CA1 during ischemia, and the extent of LTF. In standard buffer, exchangeable cell Ca in CA1 increased by 35% after 3 min of ischemia and remained elevated for the entire 5 min of ischemia. Unidirectional Ca influx increased by 35% during the first 2.5 min of ischemia and remained at that level for the next 2.5 min. There were no changes in unidirectional Ca efflux during this period. Thus, the accumulation results from increased influx of Ca. Ca influx during the first 2.5 min of ischemia depended entirely on NMDA channels; it was completely blocked by the noncompetitive NMDA receptor antagonist MK-801. However MK-801 had no effect during the second 2.5 min. This inactivation of NMDA-mediated influx during ischemia appears to result from dephosphorylation. Okadaic acid increased Ca influx during the second 2.5 min of ischemia and this increase was blocked by MK-801. The ischemia-induced Ca influx during the second 2.5 min of ischemia was attenuated 25% by nifedipine (50 microM) and an additional 35% by the Na/Ca exchange inhibitor benzamil (100 microM). The AMPA/kainate antagonist DNQX had no effect on the Ca influx. Antagonists were used to relate Ca influx to LTF. Blockade of enhanced Ca entry during ischemia in standard buffer (2.4 mM Ca) had no effect on LTF, consistent with total cell Ca prior to ischemia being adequate to cause complete LTF. However, MK-801 strongly protected against LTF when the buffer contained 1.2 mM Ca, a more physiological level. MK-801 combined with DNQX prevented transmission damage in standard buffer. Thus, AMPA/kainate receptor activation contributes to ischemic damage, although not by enhancing Ca entry.
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PMID:Intracellular calcium levels and calcium fluxes in the CA1 region of the rat hippocampal slice during in vitro ischemia: relationship to electrophysiological cell damage. 822 2

1. Oxygen and energy deficits induces a cascade of pathological processes which lead to neuronal dysfunction and cell death. 2. The pathogenesis of ischemia-induced neuronal damage includes a disturbed calcium homeostasis, an excessive release of EAA and an enhanced formation of free oxygen radicals. 3. Calcium antagonists inhibit Ca2+ influx into the neuronal cell via VSCC. 4. Glutamate antagonists reduce intracellular Ca2+ concentration by inactivation of NMDA receptor-associated calcium channels (NMDA antagonists) or AMPA/quisqualate receptor-linked sodium channels (non-NMDA antagonists). 5. Furthermore, oxygen radical scavengers can avoid neuronal damage. 6. Agonists of the adenosinergic and serotonergic transmitter systems contribute to neuroprotection by hyperpolarization of the neuronal membrane due to an increase of K+ permeability.
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PMID:Mechanisms of drug actions against neuronal damage caused by ischemia--an overview. 841 2

AMPA antagonists have been shown to be remarkably neuroprotective in models of global ischemia, but the data in focal ischemia remain controversial. We, therefore, studied the dose-response characteristics and the time window of efficacy of the AMPA antagonist NBQX in a rat model of permanent focal ischemia. NBQX 40, 60 or 100 mg/kg i.v., substantially reduced infarct size. Neuroprotection was maintained when the initiation of drug administration was withheld for 15, 45 or 90 min after permanent middle cerebral artery occlusion. Furthermore, NBQX did not induce heat shock protein in cingulate cortex, as do some N-methyl-D-aspartate antagonists. Thus, the compound is a potent neuroprotectant in focal ischemia and has an unusually long time window of effectiveness.
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PMID:A dose-response study of neuroprotection using the AMPA antagonist NBQX in rat focal cerebral ischemia. 855 16

Included in the sequence of events leading to neuronal death in ischemic tissue following stroke is an excessive and toxic rise in the intracellular Ca(2+)-concentration, predominantly due to an influx of Ca2+ through nonselective cation-channels as well as Ca(2+)-channels. In the present study we have characterized the pharmacological profile and anti-ischemic effects of 2-amino-1-(4-chlorobenzyl)-5-trifluoromethylbenzimidazole (NS-638), a small nonpeptide molecule with Ca(2+)-channel blocking properties. NS-638 dose dependently inhibited K(+)-stimulated [45Ca2+]-uptake in chick cortical synaptosomes and 2-amino-3-(3-hydroxy-5-methylisoxazol-4-yl)propionic acid (AMPA)-stimulated [3H]GABA-release from cultured cortical neurons with IC50 values of 2.3 and 4.3 microM, respectively. K(+)-stimulated intracellular Ca(2+)-elevation in cultured cerebellar granule cells was equipotently blocked with an IC50 value of 3.4 microM. At this concentration no effect on Ca(2+)-induced contractions in K(+)-depolarized guinea pig taenia coli was observed. The effect of NS-638 on neuronal Ca(2+)-channels was evaluated using whole cell patch clamp techniques. The compound reversibly blocked N- and L-type Ca(2+)-channels in cultured chick dorsal root ganglion cells in the concentration range of 1-30 microM. In the mouse middle cerebral artery occlusion (MCAO) model, NS-638 administered i.p. (50 mg kg-1) at 1 h and 6 h post-ischemia, and once a day for the next two days, resulted in a 48% reduction in total infarct volume. The compound did not show protection against ischemic neuronal damage in the gerbil model of bilateral carotid artery occlusion (BCAO). This data suggests, that neuronal Ca(2+)-channel blockers may have potential in ameliorating the pathological damage after focal ischemia.
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PMID:Pharmacological profile and anti-ischemic properties of the Ca(2+)-channel blocker NS-638. 858 26

Models of cerebral ischaemia were used for analysis of mechanism of neuronal cell death and/or damage. Ischaemia is caused dominantly by severe hypoxia and hypoglycaemia: in the present study, we examined the influence of severe in vivo hypoxia (5% O2/95% N2 for 30 min at 22 degrees C). After hypoxia, neuronal damage was observed in the CA3 and dentate gyrus (DG) after 3 and 21 days of survival, but not in the CA1.2,3-Dihydroxy-6-nitro-7-sulphamoyl-benzo(F)quinoxaline (NBQX), an antagonist for AMPA/kainate receptors, showed neuroprotective effects in the CA3 and DG. These results suggest that hypoxia may induce neuronal damage in the CA3 and DG through activation of AMPA/kainate receptors.
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PMID:Neuroprotective effects of NBQX on hypoxia-induced neuronal damage in rat hippocampus. 859 3

Excitatory amino acids (EAA) became known as neurotransmitters of the central nervous system (CNS) in the last decade. The most studied EAA are glutamate and aspartate. Both are synthetized by the same mechanism as gamaaminobutyric acid. (Fig. 1). Glutamate is widely distributed in the CNS and the spinal cord, being the areas of higher concentration the cerebral cortex, the hypocampus and the cerebellum. There have been identified two type of receptors for glutamate: ionotropic and metabotropic. The former includes three different types: NMDA, AMPA and KA. NMDA receptor is coupled to a Na+ and Ca2+ channel being the second ion the most important one. This receptor has several sites of binding for various substances. Along with the site for N-methyl-D-aspartate, which binds glutamate and/or aspartate, there have been identified a site for the binding of glycine (which is different from the strychnine sensitive one), a site for poliamines such as spermine and spermidine, and a site for the binding of Zn2+ (Table 1). AMPA receptor is associated to a Ca(2+)-Na+ channel, being in this case the Na+ the most important ion. There are two metabotropic type receptors: L-AP4 and trans-ACPD. Both are coupled to a G protein and agonists exert their action increasing phospholipase C activity which in turn induces an increment of IP3 and diacyl-glicerol, and a consecutive releasing of Ca2+ from intracellular stores. EAA play a role in some physiological processes. One of them is long-term potentiation (LTP), an electrochemical phenomenon involved in memory consolidation. Antagonists of NMDA and AMPA receptor prevent the development of LTP, and conversely, the agonist of glycine site of NMDA receptor--D-cycloserine--facilitates memory consolidation. Since 1957, EAA are considered neurotoxic substances and there are many indirect evidences to support this statement. Pathogenesis of neuronal damage elicited by EAA involves the events shown in Fig. 3. Prevention of the cascade of events that provokes neurotoxicity may be achieved by NMDA antagonists, but once it has begun it may be only aborted subtracting the Ca2+ from the medium, using nifedipine or blocking AMPA receptor with an antagonist (CNQX). EAA have been shown to play a toxic role in neuronal damage induced by ischemia. Research using various experimental models demonstrated that NMDA receptor antagonists (i.e. MK 801) blocks postischemic damage. Interventions at various levels of the pathogenic cascade shown in Fig. 4 provoke the same results. There is enough evidence to suspect that NMDA and AMPA receptors are altered in epilepsy. NMDA antagonists (i.e. MK801 or AP5) prevent the development of epileptic seizures induced by kindling; CNQX, an AMPA antagonist, blocks the increase in electrical activity induced by K+ in slices of hypocampus; felbamate, an antiepileptic drug, blocks the glycine site (not strychnine sensitive) decreasing NMDA receptor activity. Several neurodegenerative disorders have been associated with exogenous administration or accidental intake of EAA. (i.e. neurolatirism, Guam disease). Similarities between these diseases and lateral aminotrophic sclerosis indicate that in the latter EAA may play a pathogenic role. Finally, the psychotomimetic effect of phencyclidine (an antagonist of NMDA receptor) suggests that in schizophrenia, together with dopaminergic neurotransmission impairment, some dysfunction of glutamate pathways may be present.
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PMID:[Role of excitatory amino acids in neuropathology]. 872 78

We investigated whether the known neuroprotective effects of two selective glutamate receptor antagonists, the NMDA antagonist MK-801 and the AMPA antagonist NBQX, are reflected in the regional cerebral protein synthesis rates (CPSR) in rats with middle cerebral artery occlusion (MCAO). Rats treated with either saline, MK-801 (5 mg/kg i.p.) or NBQX (30 mg/kg i.p. x 3) were subjected to permanent MCAO. Regional CPSR and volumes of gray matter structures displaying normal CPSR were measured in coronal cryosections of the brain by quantitative autoradiography following an i.v. bolus injection of 35S-labelled L-methionine 2 h after occlusion. MCAO completely inhibited protein synthesis in the lateral part of striatum and part of the adjacent frontoparietal cortex corresponding to the ischemic focus. Surrounding this, a metabolic penumbra with approximately 50% reductions in CPSR was present. Treatment with MK-801 significantly increased the volume of tissue with normal CPSR in the ischemic hemisphere compared to controls, whereas this was not seen with NBQX treatment. The results suggest that MK-801 and NBQX have different effects on peri-infarct protein synthesis after MCAO. Since both compounds reduce infarct size, it is questionable that acute inhibition of protein synthesis in focal ischemia is of significant importance to the final outcome of a stroke lesion.
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PMID:Differential effect of NMDA and AMPA receptor blockade on protein synthesis in the rat infarct borderzone. 874 Nov 37

Glutamate receptors are numerous on the ischemia vulnerable CA-1 pyramidal cells. Postischemic use of the AMPA antagonist NBQX has shown up to 80% protection against cell death. Three aspects of this were studied: In the first study, male Wistar rats were given NBQX (30 mg/kg x 3) either 20 hours or immediately (0 h) before 12 min of 4-vessel occlusion with hypotension. After six days of reperfusion comparison with an untreated group showed almost full protection in the 0 h group (4% cell loss, p < 0.001) but only slight protection in the 20 h group (62% cell loss, p < 0.05). After 12 min of ischemia in the present model, eosinophilic CA-1 cells are seen from day 2 on. Since there could be a late, deleterious calcium influx via NMDA receptors, one group of ischemic rats was given MK-801 (5 mg/kg i.p.) 24 hours after ischemia. However, quantitation 6 days later of remaining CA-1 cells showed no protection. In the third study referred here, two groups of ischemic rats were given NBQX (30 mg/kg x 3) immediately after ischemia. The groups survive for six and 21 days, respectively. Counting of CA-1 pyramidal cells showed an equal, significant protection in both groups (approx 20% cell loss).
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PMID:Extended studies on the effect of glutamate antagonists on ischemic CA-1 damage. 878 Aug 1

Glutamate (Glu) neurotoxicity is an important element of a number of neurological disorders including central nervous system (CNS) ischemia. We evaluated the effects of the novel AMPA Glu antagonist LY293558 on functional neurological outcome in two rabbit stroke models. In the reversible spinal cord ischemia model, ischemia of the caudal lumbar spinal cord was produced by temporary occlusion of the abdominal aorta. LY293558 was administered 5 min after recirculation as a 16 mg/kg i.v. bolus followed by 2.2 mg/kg infused over 1 h. Control animals received saline. LY293558 significantly increased the duration of ischemia required to produce paraplegia, from 30.5 +/- 15.8 min (mean +/- SD) controls to 50.1 +/- 11.5 in treated animals (p < 0.01). In an irreversible model of cerebral ischemia, 50 microns plastic microspheres were injected into the carotid artery and lodged in the cerebral microvasculature. LY293558 did not significantly reduce neurological damage in this model. These data suggest that LY293558 may have therapeutic benefit following some types of ischemic injury.
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PMID:The AMPA antagonist LY293558 improves functional neurological outcome following reversible spinal cord ischemia in rabbits. 878 41

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