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:C0038454 (stroke)
147,016 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Cerebral ischemia of 5 min duration was induced in unanesthetized Mongolian gerbils by bilateral occlusion of the carotid arteries. The extent of ischemic injury was assessed behaviorally by measuring the increases in locomotor activity following ischemia and by a histopathological assessment of the extent of CA1 hippocampal pyramidal cell injury and loss 5 days after ischemia. The A2a adenosine receptor selective antagonists 8-(3-chlorostyryl) caffeine (CSC; 0.1 mg/kg i.p.) and 4-amino-1-phenyl[1,2,4]-triazolo[4,3-a] quinoxaline (CP 66,713; 0.1 mg/kg i.p.) reduced the extent of ischemia-induced injury. An A1 selective receptor antagonist, 8-cyclopentyl-1,3-dipropylxanthine (DPCPX; 1.0 mg/kg i.p.), enhanced ischemia-evoked injury. These results suggest that adenosine A2a receptor antagonists may be useful for the prevention of cerebral injuries resulting from stroke or cardiac arrest.
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PMID:The effects of selective A1 and A2a adenosine receptor antagonists on cerebral ischemic injury in the gerbil. 882 36

The use of glutamate antagonists and GABA agonists may protect neurons from the effects of transient ischemia. Felbamate is a new antiepileptic drug with glutamate antagonist and GABA agonist properties. We tested the efficacy of felbamate in a gerbil model of transient forebrain ischemia. Damage assessment was done with silver staining at 7 and 28 days after 5 min of bilateral carotid occlusion. Cerebral cortex, hippocampus (CA1 and CA4), thalamus and striatum were evaluated on a 4-point scoring system. The animals sacrificed at 28 days were also tested in a water-maze task to assess recovery of function. The initial dose of felbamate (300 mg/kg) was given 30 min before the ischemic insult in one set of animals and 30 min after the insult in another set of animals. There were 8 animals tested per group (total: 48 animals). There was significant neuronal protection with the use of felbamate, both before and after ischemia in all regions of the brain. Protection was seen in animals sacrificed at 7 and 28 days. Protection was moderate when felbamate was used before ischemia. It was highly significant when felbamate was given 30 min after the insult. Behavioral studies however did not show any difference in the felbamate treated animals versus the saline treated controls. The structural protection with felbamate was very significant when used in the post-ischemic period. This window for protection merits further evaluation in relation to the clinical setting of stroke.
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PMID:Neuroprotection with felbamate: a 7- and 28-day study in transient forebrain ischemia in gerbils. 884 83

1. The neuroprotective properties of fasudil (HA1077), a novel protein kinase inhibitor, were evaluated in two animal models of cerebral ischaemia: transient bilateral carotid artery occlusion in Mongolian gerbils and cerebral microembolization in rats. 2. The cytoprotective effect of fasudil on delayed neuronal death in gerbils was compared with the effects of nimodipine, a calcium channel antagonist and ozagrel, a thromboxane A2 synthetase inhibitor. The average of the neuronal cell density in the ischaemic control group was 17.8 +/- 2.1 cells mm-1, whereas fasudil (30 mg kg-1) significantly diminished the loss of CA1 neurones with the average of the neuronal cell density of 101.0 +/- 22.0 cells mm-1; nimodipine (10 mg kg-1) and ozagrel (30 mg kg-1) did not significantly protect against the ischaemia-induced neuronal loss. 3. In the rat model, the effects of fasudil on the histological and neurological consequences of cerebral microembolization produced via the injection of microspheres were examined. Twenty-four hours after the injection of microspheres into the internal carotid artery, all animals in the control group showed typical symptoms of stroke. Neurological function was significantly improved in the fasudil-treated animals. In the controls, the infarcted area in a cortical slice selected to include the hippocampal area was 0.25 +/- 0.01 cm2 (mean +/- s.e.mean) (43.9 +/- 2.4% of cortical section of the half hemisphere); the difference was significant compared to the mean area of 32.7 +/- 2.8 and 21.5 +/- 4.8% observed in rats treated with fasudil (3, 10 mg kg-1), respectively. Fasudil (10 mg kg-1) significantly suppressed the increased water content in ischaemic brain tissues (saline-treated rats, 82.4 +/- 0.2% vs fasudil-treated rats, 81.0 +/- 0.4%). 4. These results suggest that: (i) various protein kinases are involved in the pathogenesis of ischaemic injury; and (ii) the inhibition of protein kinases may be efficacious in preventing neuronal death, thus improving neurological function in the brain damage associated with ischaemic stroke.
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PMID:Neuroprotective properties of a protein kinase inhibitor against ischaemia-induced neuronal damage in rats and gerbils. 884 19

TTC-909 is a newly developed isocarbacyclin methyl ester (TEI-9090) incorporated in lipid microspheres. The neuroprotective effect of TTC-909 was histologically examined in the pyramidal cell layer of the hippocampus CA1 subfield 7 days after transient forebrain ischemia using stroke-prone spontaneously hypertensive rats. TTC-909, given intravenously 10 min after the transient forebrain ischemia, dose-dependently protected against ischemia-related delayed neuronal death. The blood pressure remained unchanged following TTC-909 administration. This finding suggests that TTC-909 has a neuroprotective action on ischemic delayed neuronal death in the hippocampus.
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PMID:Neuroprotective effect of TTC-909, an isocarbacyclin methyl ester incorporated in lipid microspheres, on hippocampal delayed neuronal death of stroke-prone spontaneously hypertensive rats. 888 35

Increasing evidence indicates that glucocorticoids (GCs), produced in response to physical/emotional stressors, can exacerbate brain damage resulting from cerebral ischemia and severe seizure activity. However, much of the supporting evidence has come from studies employing nonphysiological paradigms in which adrenalectomized rats were compared with those exposed to constant GC concentrations in the upper physiological range. Cerebral ischemia and seizures can induce considerable GC secretion. We now present data from experiments using metyrapone (an 11-beta-hydroxylase inhibitor of GC production), which demonstrate that the GC stress-response worsens subsequent brain damage induced by ischemia and seizures in rats. Three different paradigms of brain injury were employed: middle cerebral artery occlusion (MCAO) model of focal cerebral ischemia; four-vessel occlusion (4VO) model of transient global forebrain ischemia; and kainic acid (KA)-induced (seizure-mediated) excitotoxic damage to hippocampal CA3 and CA1 neurons. Metyrapone (200 mg/kg body wt) was administered systemically in a single i.p. bolus 30 min prior to each insult. In the MCAO model, metyrapone treatment significantly reduced infarct volume and also preserved cells within the infarct. In the 4VO model, neuronal loss in region CA1 of the hippocampus was significantly reduced in rats administered metyrapone. Seizure-induced damage to hippocampal pyramidal neurons (assessed by cell counts and immunochemical analyses of cytoskeletal alterations) was significantly reduced in rats administered metyrapone. Measurement of plasma levels of corticosterone (the species-typical GC of rats) after each insult showed that metyrapone significantly suppressed the injury-induced rise in levels of circulating corticosterone. These findings indicate that endogenous corticosterone contributes to the basal level of brain injury resulting from cerebral ischemia and excitotoxic seizure activity and suggest that drugs that suppress glucocorticoid production may be effective in reducing brain damage in stroke and epilepsy patients.
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PMID:Metyrapone, an inhibitor of glucocorticoid production, reduces brain injury induced by focal and global ischemia and seizures. 896 97

PACAP is a member of the secretin/glucagon/VIP family of peptides and demonstrates neurotrophic and neuroprotective effects at very low concentrations. We have previously shown that PACAP crosses the BBB to a modest degree by way of a saturable transport system. PACAP is transported across the BBB as an intact peptide to enter the parenchymal space of the brain. We tested the possibility that this modest rate of transport would be sufficient to produce the low levels of PACAP needed in the brain to exert a neuroprotective effect against ischemia. We found that PACAP given intravenously could indeed prevent the death of CA1 hippocampal neurons, even if the administration of PACAP was delayed for 24 h after the ischemic event. We suggest that iv PACAP could be neuroprotective after stroke, cardiac arrest, and hypotensive episodes.
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PMID:Transport of pituitary adenylate cyclase-activating polypeptide across the blood-brain barrier and the prevention of ischemia-induced death of hippocampal neurons. 899 9

1. When delayed neuronal death occurred in the hippocampus CA1 pyramidal cell layer of stroke-prone spontaneously hypertensive rats (SHRSP) at 4 and 7 days after a 10 min bilateral carotid occlusion and reperfusion, intense endothelin-1 (ET-1)- and ET-3-like immunoreactivities became evident in astrocytes in the damaged hippocampus CA1 subfields. 2. We also observed that microglia equipped with an ETB receptor aggregated within the CA1 pyramidal cell layer with neuronal death. 3. There was a dramatic increase in nitric oxide synthase (NOS) activity in astrocytes and microglia in the damaged hippocampus CA1 subfields. 4. Thus, the possibility that microglia with the ETB receptor are activated to produce NO, a neurotoxic factor, by astrocytic ET-1 and ET-3 produced in response to transient forebrain ischaemia would have to be considered.
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PMID:Glial endothelin/nitric oxide system participates in hippocampus CA1 neuronal death of SHRSP following transient forebrain ischaemia. 907 89

Antioxidant enzymes such as superoxide dismutase (SOD) have shown neuroprotective effects in animal models of cerebral ischemia, but only at very high doses. Modifications to increase the plasma half-life or blood-brain barrier (BBB) permeability of SOD have resulted in limited neuroprotective effects. No one has demonstrated neuroprotection with postischemic administration. The specific aim of the present study was to administer systemically a polyamine-modified SOD, having increased BBB permeability and preserved enzymatic activity, following global cerebral ischemia in rats and analyze the effects on the selective vulnerability of CA1 hippocampal neurons. Following 12 min of four-vessel occlusion, global cerebral ischemia, male Wistar rats were dosed (i.v.) with either saline, native SOD (5000 U/kg), polyamine-modified SOD (5000 U/kg), or enzymatically inactive, polyamine-modified SOD (2.1 mg/kg) twice daily for 3 days. Neuroprotective effects on hippocampal CA1 neurons were assessed using standard histological methods. Saline-treated animals had very few remaining CA1 neurons (1.44 +/- 0.60 neurons/reticle; x +/- S.E.M.) compared to sham rats (58.57 +/- 0.69). Native (10.38 +/- 2.96) or inactive, polyamine-modified SOD (7.32 +/- 2.68) did not show significant neuroprotective effects. Polyamine-modified SOD, however, resulted in the survival of significantly more CA1 neurons (24.61 +/- 5.90; P < 0.01). Postischemic, systemic administration of polyamine-modified SOD, having increased BBB permeability and preserved enzymatic activity, significantly reduced hippocampal CA1 neuron loss following global cerebral ischemia. Similar modification of other antioxidant enzymes and neurotrophic factors with polyamines may provide a useful technique for the systemic delivery of therapeutic proteins across the BBB for the treatment of stroke and other neurodegenerative disorders.
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PMID:Postischemic, systemic administration of polyamine-modified superoxide dismutase reduces hippocampal CA1 neurodegeneration in rat global cerebral ischemia. 913 58

Cerebral ischemia followed by reperfusion induced apoptosis in stroke-prone spontaneously hypertensive rats (SHRSP) but not in Wistar Kyoto rats (WKY). Our in vitro studies revealed that IGF-1 prevented apoptosis caused by nitric oxide- and N-methyl-D-aspartate-mediated toxic agents in cortical neurons isolated from SHRSP. In addition, it was reported that IGF-1 given 1 hour before ischemia significantly attenuated the incidence of myocyte apoptosis after myocardial ischemia and reperfusion. IGF-1 (20 micrograms/rat) was administered ip 1 hour before the clipping of both common carotid arteries in WKY and SHRSP. Rats underwent cerebral ischemia for 20 minutes and reperfusion for 6 days before they were killed. We cut the brain coronally, removed sections from the hippocampal CA1 region, and examined the neurons in these samples using an electron microscope. We tried to clarify whether pretreatment using IGF-1 decreases the number of apoptotic neurons in SHRSP with cerebral ischemia followed by reperfusion. SHRSP with normal cerebral circulation had 30.4 +/- 8.0 apoptotic neurons per 1000 neurons. Cerebral ischemia followed by reperfusion significantly (p < 0.01) increased the number of apoptotic neurons (235.2 +/- 25.2/1000 neurons) in SHRSP. In contrast, pretreatment with IGF-1 reduced the number of apoptotic neurons in SHRSP (82.8 +/- 11.2/1000 neurons; p < 0.01) under otherwise identical conditions. We concluded that the genetic vulnerability to apoptosis in SHRSP neurons was involved in the pathogenesis of stroke lesions and that this vulnerability was attenuated by the IGF-1 pretreatment.
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PMID:Insulin-like growth factor-1 attenuates apoptosis in hippocampal neurons caused by cerebral ischemia and reperfusion in stroke-prone spontaneously hypertensive rats. 916 80

Both endothelin and nitric oxide (NO) have been proposed to act as pathophysiological factors in ischemia-related neural damage. This review is concerned with the participation of the glial endothelin-NO system in ischemia-related neuronal cell death. In the rat brain with cerebral apoplexy, endothelin, endothelin receptors and NO synthase (NOS) were rich in the glial cells of damaged brain areas. The brain subjected to transient forebrain ischemia contained astrocytic endothelins and microglial expressions of the ETB-receptor and NOS aggregating in the damaged CA1 subfield of the hippocampus at 7 days after the ischemia. Astrocytic endothelin, ETB-receptor and NOS became more apparent at 28 days after the ischemia, corresponding to a time when neural tissue-repair/remodeling after damage occurs, whereas no activities of the endothelin-NO system are observed in microglia. In the in vitro experiment, endothelin was found to modulate the release of NO from the hippocampal slices subjected to transient forebrain ischemia. There may be a cross-talk between the endothelin system and NO in the astrocytes and microglia during the process of ischemia-related neuronal cell death and neural tissue-remodeling.
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PMID:[The glial endothelin-nitric oxide system in ischemia-related neuronal cell death]. 955 70


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