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)

Delayed cerebral vasospasm has a major impact on the outcome of subarachnoid hemorrhage. Two important candidates to cause the arterial spasm are the red blood cell product oxyhemoglobin and the vasoconstrictor endothelin-1, although oxyhemoglobin alone is not sufficient to induce cerebral ischemia and endothelin-1 leads to ischemia only at relatively high concentrations. In this study, we demonstrated that the combination of oxyhemoglobin and endothelin-1 triggered spreading neuronal activation in rat cortex in vivo. In contrast with the expected transient increase of regional cerebral blood flow during spreading depression, however, cerebral blood flow decreased profoundly and was long-lasting, paralleled by delayed repolarization of the steady (direct current) potential. These changes are characteristic of cortical spreading ischemia. Replacing oxyhemoglobin for the nitric oxide synthase inhibitor Nomega-nitro-L-arginine mimicked these effects, implicating nitric oxide scavenging functions of oxyhemoglobin. Furthermore, the effect of endothelin-1 was related to a reduction of Na(+)-/K(+)-ATPase activity rather than solely to its vasoconstrictive properties. In conclusion, the threshold concentration of endothelin-1 that induces cerebral ischemia is profoundly reduced via a complex interaction between the neuronal/astroglial network and the cortical microcirculation if nitric oxide availability declines. The results may have implications for the understanding of subarachnoid hemorrhage-related cortical lesions.
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PMID:Ischemia triggered by spreading neuronal activation is induced by endothelin-1 and hemoglobin in the subarachnoid space. 1459 48

In our study, we examined middle cerebral artery (MCA) contractile responses in two animal models. After hemorrhagic disturbances in rats of Krushinsky-Molodkina strain (KMRs) a decrease in contractile responses to serotonin (5-HT) was observed. During incomplete global cerebral ischemia, MCAs had increased responsiveness to endothelin-1 (ET-1), but reduced responsiveness to serotonin. These findings suggest that cerebral circulation disorders alter cerebrovascular function possibly leading to secondary disturbances in brain circulation.
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PMID:Ischemic and hemorrhagic disturbances in cerebral circulation alter contractile responses of the rat middle cerebral artery. 1464 80

Axon injury following cerebral ischemia has received little scientific attention compared to the abundance of information dealing with the pathophysiology of grey matter ischemia. There are differences in the initial response of grey and white matter to ischemia in vitro. In this study we investigate whether the vasoactive peptide, endothelin-1, can generate a focal ischemic lesion in the white matter and compare the findings with endothelin-1-induced lesions in the grey matter. Using a minimally invasive technique to microinject endothelin-1 into selected brain regions, we observed an acute reduction in local MRI perfusion in the injected hemisphere after 1 hour. Twenty-four hours after microinjection of 10 pmoles of endothelin-1, we observed a loss of neurons in the grey matter. At 72 hours, neutrophils were absent and a macrophage/microglia response and astrocyte gliosis were detected. No breakdown in the blood-brain barrier was detected. After injection of 10 pmoles endothelin-1 into the cortical white matter, we observed prolific amyloid precursor protein-positive immunostaining (indicative of axonal disruption) and an increase in tau-1 immunostaining in oligodendrocytes at 6 hours. Similar to the grey matter lesions, no neutrophils were present, a macrophage/microglia response did not occur until 72 hours and there was no disruption in the blood-brain barrier. Focal injections of endothelin-1 into specific areas of the rat CNS represent a model to investigate therapeutic approaches to white matter ischemia.
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PMID:Focal lesions in the rat central nervous system induced by endothelin-1. 1469 3

Sodium channel blockers are neuroprotective against cerebral ischemia in animal models. A novel neuroprotective compound AM-36, when screened for activity at the most common receptor and ion channel binding sites, revealed activity at site 2 Na+ channels. Studies then investigated this Na+ channel blocking activity in vitro and in vivo relative to other Na+ channel blockers, including the neuroprotective agent sipatrigine (BW619C89). AM-36 inhibited batrachotoxinin (BTX)-sensitive Na+ channel binding in rat brain homogenates with an IC50 of 0.28 microM. Veratridine (100 microM)-induced neurotoxicity in murine cerebellar granule cells was completely inhibited by AM-36 (1.7 microM) compared to only partial inhibition by sipatrigine (26 microM). Veratridine-stimulated glutamate release, as measured through a microdialysis probe in the cortex of anesthetised rats, was inhibited by 90% by superfusion of AM-36 (1000 microM). In the endothelin-1 (ET-1) model of middle cerebral artery occlusion (MCAo) in conscious rats, both AM-36 (6 mg/kg i.p.) and sipatrigine (10 mg/kg i.p.) 30 min post-MCAo significantly reduced cortical, but not striatal infarct volume. As the refractiveness of the striatum is likely to be dependent on the route and time of drug administration, AM-36 (1 mg/kg i.v.) was administered 3 or 5 h after MCAo and significantly reduced both cortical and striatal infarct volumes. The present studies demonstrate Na+ channel blocking activity of AM-36 both in vitro and in vivo, together with significant neuroprotection when administration is delayed up to 5 h following experimental stroke.
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PMID:Sodium channel blocking activity of AM-36 and sipatrigine (BW619C89): in vitro and in vivo evidence. 1516 42

Previous studies have established the usefulness of endothelin-1 (ET-1) for the production of focal cerebral ischemia. The present study assessed the behavioral effects of focal ET-1-induced lesions of the sensorimotor cortex (SMC) in adult rats as well as cellular and structural changes in the contralateral homotopic motor cortex at early (2 days) and later (14 days) post-lesion time points. ET-1 lesions resulted in somatosensory and postural-motor impairments in the contralateral (to the lesion) forelimb as assessed on a battery of sensitive measures of sensorimotor function. The lesions also resulted in the development of a hyper-reliance on the ipsilateral forelimb for postural-support behaviors. In comparison to sham-operated rats, in layer V of the motor cortex opposite the lesions, there were time- and laminar-dependent increases in the surface density of dendritic processes immunoreactive for microtubule-associated protein 2, in the optical density of N-methyl-D-asparate receptor (NMDA) subunit 1 immunoreactivity, and in the numerical density of cells immunolabeled for Fos, the protein product of the immediate early gene c-fos. These findings corroborate and extend previous findings of the effects of electrolytic lesions of the SMC. It is likely that compensatory forelimb behavioral changes and transcallosal degeneration play important roles in these changes in the cortex opposite the lesion, similar to previously reported effects of electrolytic SMC lesions.
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PMID:Behavioral and neuroplastic effects of focal endothelin-1 induced sensorimotor cortex lesions. 1538 Dec 77

In this study, we investigated the acute hemodynamic effects of an infusion of the endothelin-1 (ET-1)-A-selective receptor antagonists BQ-610 and BQ-123 in heatstroke rats with circulatory shock and cerebral ischemia. Heatstroke was induced by putting the anesthetized adult Sprague-Dawley rats into an ambient temperature of 42 degrees C. The moment in which the mean arterial pressure dropped irreversibly from the peak for an extent of 25 mmHg was taken as the onset of heatstroke. The interval between initiation of heat exposure and heatstroke onset was found to be about 80 min for rats treated with vehicle solution. When the animals were exposed to 42 degrees C for 80 min, hyperthermia, arterial hypotension, decrement of cardiac output (due to decreased stroke volume and decreased total peripheral resistance), increment of plasma ET-1 and tumor necrosis factor-alpha, and increment of cerebral ischemia and injury markers were manifested. Prior antagonism of ET-1 A receptors with BQ-610 (0.5 mg/kg, i.v.) or BQ-123 (1 mg/kg, i.v.), but not ET-1B receptors with BQ-788 (0.5 mg/kg, i.v.), 60 min before the initiation of heat exposure, appreciably alleviated hyperthermia, arterial hypotension, decreased cardiac output, increment of tumor necrosis factor-alpha, and increment of cerebral ischemia (e.g., glutamate and lactate/pyruvate ratio) and injury (e.g., glycerol) markers exhibited during heatstroke. The data indicates that ET-1A receptor antagonism may maintain appropriate levels of mean arterial pressure and cerebral circulation during heatstroke by reducing production of tumor necrosis factor-alpha.
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PMID:Prior antagonism of endothelin-1A receptors alleviates circulatory shock and cerebral ischemia during rat heatstroke. 1546 61

In vivo studies on cerebral glucose and lactate metabolism following a brain insult require fast and sensitive monitoring techniques. Here we report on-line monitoring of ischemic events and metabolic changes following reperfusion in striatum of freely moving rats subjected to endothelin-1 (60-240 pmol) induced, transient focal cerebral ischemia using slow microdialysis (0.5 microl/min), fast sampling (every minute) and flow-injection analysis with biosensors for glucose and lactate. The high-time resolution provides detailed information on lactate rise times and duration of low glucose. In rats, developing large striatal lesions, lactate increased from 1.0 +/- 0.1 to 4.2 +/- 0.7 mM within 37 +/- 1 min, whereas glucose dropped from 0.3 +/- 0.1 mM to below detection levels (<0.05 mM) for a period of 80 +/- 18 min. The lactate increase measured over a 2-h period after endothelin-1 infusion was highly correlated with striatal infarct size. In some rats oscillatory changes are observed which cannot be detected in traditional assays. The here-described monitoring technique applied in a clinically relevant rat model is a sensitive tool to study post-ischemic energy metabolism, effects of therapeutic interventions and its relationship with histological outcome.
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PMID:On-line monitoring of striatum glucose and lactate in the endothelin-1 rat model of transient focal cerebral ischemia using microdialysis and flow-injection analysis with biosensors. 1558 39

Stroke patients have increased levels of endothelin-1 (ET-1), a strong vasoconstrictor, in their plasma or cerebrospinal fluid. Previously, we showed high level of ET-1 mRNA expression in astrocytes after hypoxia/ischemia. It is unclear whether the contribution of ET-1 induction in astrocytes is protective or destructive in cerebral ischemia. Here, we generated a transgenic mouse model that overexpress ET-1 in astrocytes (GET-1) using the glial fibrillary acidic protein promoter to examine the role of astrocytic ET-1 in ischemic stroke by challenging these mice with transient middle cerebral artery occlusion (MCAO). Under normal condition, GET-1 mice showed no abnormality in brain morphology, cerebrovasculature, absolute cerebral blood flow, blood-brain barrier (BBB) integrity, and mean arterial blood pressure. Yet, GET-1 mice subjected to transient MCAO showed more severe neurologic deficits and increased infarct, which were partially normalized by administration of ABT-627 (ET(A) antagonist) 5 mins after MCAO. In addition, GET-1 brains exhibited more Evans blue extravasation and showed decreased endothelial occludin expression after MCAO, correlating with higher brain water content and increased cerebral edema. Aquaporin 4 expression was also more pronounced in astrocytic end-feet on blood vessels in GET-1 ipsilateral brains. Our current data suggest that astrocytic ET-1 has deleterious effects on water homeostasis, cerebral edema and BBB integrity, which contribute to more severe ischemic brain injury.
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PMID:Endothelin-1 overexpression leads to further water accumulation and brain edema after middle cerebral artery occlusion via aquaporin 4 expression in astrocytic end-feet. 1581 85

Increased levels of endothelin-1 have been demonstrated in the ischemic brain, and endothelin receptor antagonism has been shown to improve the outcome of cerebral ischemia. However, it remains unknown what the relative receptor distribution in the brain of the spontaneously hypertensive stroke-prone rat (SHR-SP) is and whether it is changed by endothelin antagonism. The present study aimed to investigate the expression of the two endothelin receptors in the frontal cortex of SHR-SP after 12 weeks of treatment with an endothelin-A/endothelin-B dual receptor antagonist, SB209670, or saline (vehicle) starting from the prehypertensive stage (6 weeks old). A 50% increase in the endothelin-A receptor was found in the vehicle-treated brain of SHR-SP compared with that of the age-matched Wistar-Kyoto control, but endothelin antagonism reversed this upregulation completely. A 20% decrease in endothelin-B receptor was found in the vehicle-treated brain of SHR-SP compared with Wistar-Kyoto and was recovered by endothelin antagonism. This is the first study to explore the relative endothelin receptor distribution in the frontal cortex of SHR-SP at the typical hypertensive stage and changes resulting from long-term endothelin antagonism starting from the prehypertensive stage.
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PMID:Expression of endothelin receptors in the brain of SHR-SP and effects of an endothelin blocker. 1583 68

Insulin resistance (IR) impairs endothelium-mediated vasodilation in cerebral arteries as well as K+ channel function in vascular smooth muscle. Peripheral arteries also show an impaired endothelium-dependent vasodilation in IR and concomitantly show an enhanced contractile response to endothelin-1 (ET-1). However, the contractile responses of the cerebral arteries in IR have not been examined systematically. This study examined the contractile responses of pressurized isolated middle cerebral arteries (MCAs) in fructose-fed IR and control rats. IR MCAs showed no difference in pressure-mediated (80 mmHg) vasoconstriction compared to controls, either in time to develop spontaneous tone (control: 61+/-3 min, n=30; IR: 63+/-2 min, n=26) or in the degree of that tone (control: 60 min: 33+/-2%, n=22 vs. IR 60 min: 34+/-3%, n=17). MCAs treated with ET-1 (10(-8.5) M) constrict similarly in control (53+/-3%, n=14) and IR (53+/-3%, n=14) arteries. Constrictor responses to U46619 (10(-6) M) are also similar in control (48+/-9%, n=8) and IR (42+/-5%, n=6) MCAs as are responses to extraluminal uridine 5'-triphosphate (UTP; 10(-4.5) M) (control: 35+/-7%, n=11 vs. IR: 38+/-3%, n=10). These findings demonstrate that constrictor responses remain intact in IR despite a selective impairment of dilator responses and endothelial and vascular smooth muscle K+ channel function in cerebral arteries. Thus, it appears that the increased susceptibility to cerebrovascular abnormalities associated with IR and diabetes (including cerebral ischemia, stroke, vertebrobasilar transient ischemic attacks) is not due to an enhanced vasoreactivity to constrictor agents.
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PMID:Insulin resistance does not impair contractile responses of cerebral arteries. 1595 70

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