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:C0917798 (cerebral ischemia)
17,036 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

There is currently a stark therapeutic void in the treatment of evolving stroke. Although P-selectin is rapidly expressed by hypoxic endothelial cells in vitro, the functional significance of P-selectin expression in stroke remains unexplored. In order to identify the pathophysiological consequences of P-selectin expression and to identify P-selectin blockade as a potential new approach for the treatment of stroke, experiments were performed using a murine model of focal cerebral ischemia and reperfusion. Early P-selectin expression in the postischemic cerebral cortex was demonstrated by the specific accumulation of radiolabeled anti-murine P-selectin IgG, with the increased P-selectin expression localized to the ipsilateral cerebral microvascular endothelial cells by immunohistochemistry. In experiments designed to test the functional significance of increased P-selectin expression in stroke, neutrophil accumulation in the ischemic cortex of mice expressing the P-selectin gene (PS +/+) was demonstrated to be significantly greater than that in homozygous P-selectin-null mice (PS -/-). Reduced neutrophil influx was accompanied by greater postischemic cerebral reflow (measured by laser Doppler) in the PS -/- mice. In addition, PS -/- mice demonstrated smaller infarct volumes (5-fold reduction, P<.05) and improved survival compared with PS +/+ mice (88% versus 44%, P<.05). Functional blockade of P-selectin in PS +/+ mice using a monoclonal antibody directed against murine P-selectin also improved early reflow and stroke outcome compared with control mice, with reduced cerebral infarction volumes noted even when the blocking antibody was administered after occlusion of the middle cerebral artery. These data are the first to demonstrate a pathophysiological role for P-selectin in stroke and suggest that P-selectin blockade may represent a new therapeutic target in the treatment of stroke.
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PMID:Exacerbation of cerebral injury in mice that express the P-selectin gene: identification of P-selectin blockade as a new target for the treatment of stroke. 928 31

The expression and localization of P- and E-selectins in rat brain (n=126) were examined using immunohistochemical techniques at various time points after induction of middle cerebral artery (MCA) occlusion in the suture, thrombotic and embolic models of stroke. Expression of P- or E-selectin was not observed in brain tissue of sham operated control rats (n=9). P-selectin immunoreactivity was detected as early as 15 min and decreased to control level at 1 h after the onset of the MCA occlusion in all three models. P-selectin then slightly increased at 2 h and peaked at 6 h after MCA occlusion. E-selectin immunoreactivity was first observed at 2 h and peaked at 6 h and 12 h of after MCA occlusion in all three models. P- and E-selectin immunoreactivity was colocalized with von Willebrand factor immunoreactive microvessels. 90.4+/-2.0% of all vessels expressing P-selectin immunoreactivity were 7.5 to 30.0 micron in diameter; 3.6+/-1.4% were contained in vessels smaller than 7.5 micron, and 6.0+/-1.8% were localized in vessels greater than 30.0 micron in diameter. The percent distribution of E-selectin immunoreactive vessels were 75.9+/-2.1% in vessels 7.5 to 30.0 micron in diameter; 23.6+/-2.2% were in vessels smaller than 7.5 micron, and 0.6+/-0.4% were localized in vessels greater than 30.0 micron in diameter. These findings indicate that the temporal profiles of P- and E-selectin expression are independent of these models of MCA occlusion and are consistent with the time course of selectin mediated leukocyte infiltration after focal cerebral ischemia in the rat.
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PMID:The expression of P- and E-selectins in three models of middle cerebral artery occlusion. 951 15

Focal cerebral ischemia elicits a strong inflammatory response involving early recruitment of granulocytes and delayed infiltration of ischemic areas and the boundary zones by T cells and macrophages. Infiltration of hematogenous leukocytes is facilitated by an upregulation of the cellular adhesion molecules P-selectin, intercellular adhesion molecule-1 and vascular adhesion molecule-1 on endothelial cells. Blocking of the leukocyte/endothelial cell adhesion process significantly reduces stroke volume after transient, but not permanent middle cerebral artery occlusion. In the infarct region microglia are activated within hours and within days transform into phagocytes. Astrocytes upregulate intermediate filaments, synthesize neurotrophins and form glial scars. Local microglia and infiltrating macrophages demarcate infarcts and rapidly remove debris. Remote from the lesion no cellular infiltration occurs, but astroglia and microglia are transiently activated. Astrocytic activation is induced by spreading depression. In focal ischemia neurons die acutely by necrosis and in a delayed fashion by programmed cell death, apoptosis. Proinflammatory cytokines such as tumor necrosis factor-alpha and interleukin-1 beta are upregulated within hours in ischemic brain lesions. Either directly or via induction of neurotoxic mediators such as nitric oxide, cytokines may contribute to infarct progression in the post-ischemic period. On the other hand, inflammation is tightly linked with rapid removal of debris and repair processes. At present it is unclear whether detrimental effects of inflammation outweigh neuroprotective mechanisms or vice versa. In global ischemia inflammatory responses are limited, but micro- and astroglia are also strongly activated. Glial responses significantly differ between brain regions with selective neuronal death and neighbouring areas that are more resistent to ischemic damage.
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PMID:Inflammation and glial responses in ischemic brain lesions. 976 Jun 99

We investigated the effect of an anti-P-selectin antibody (RMP-1) on ischemic cell damage and hemorrhage after transient middle cerebral artery occlusion (MCAo) in the rat. Animals were divided into four groups: (1) antibody (Ab) 1 group (n = 14) RMP-1 (2 mg/kg) was administered to rats 1 h prior to induction of 2 h of MCA occlusion; (2) control-vehicle group Ab2 (n = 12) rats were subjected to the same experimental protocol, except that an isotype-matched control antibody was administered; (3) Abl group (n = 10) rats were subjected to 2 h of MCA occlusion and RMP-1 (2 mg/kg) was administered upon reperfusion; (4) control-vehicle group Ab2 (n = 10) rats were subjected to the same experimental protocol, except that an isotype-matched control antibody was administered. Animals were sacrificed 48 h after onset of the MCAo for histological evaluation of infarction and hemorrhage, and to quantify number of neutrophils. The lesion volume was significantly smaller only in pretreated rats (RMP-1 group, 18.7+/-3.1%) compared to the vehicle-treated (31.6+/-2.6%) group (P<0.01). Total area of hemorrhage (5.94 x 10(3)+/-2.86 x 10(3) microm2) in the pre MCAo RMP-1 treated group animals was significantly reduced (P<0.02) compared to the vehicle group (6.1 x 10(4)+/-3.42 x 10(4) microm2), respectively. Our data demonstrate that administration of the anti-P-selectin antibody before transient focal cerebral ischemia in rat brain reduces ischemic cell damage and petechial hemorrhage.
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PMID:P-selectin antibody reduces hemorrhage and infarct volume resulting from MCA occlusion in the rat. 987 76

Cerebral ischaemia and reperfusion injury may be exacerbated by leukocyte recruitment and activation. Adhesion molecules play a pivotal role in leukocyte recruitment. We report a prospective study of the potential role of the selectin family of adhesion molecules (E-, P- and L-selectin) in delayed cerebral ischaemia (DID) following aneurysmal subarachnoid haemorrhage. In patients with good grade SAH, we have compared serum concentrations of E-, P- and L-selectin, between patients who do, and do not develop delayed cerebral ischaemia. There was no difference in E-selectin concentration between the two groups (44.0 ng/ml vs. 37.4 ng/ml). Serum P-selectin concentration was significantly higher in patients with DID compared to those patients without DID (149.5 ng/ml vs. 112.9 ng/ml, p = 0.039). Serum L-selectin concentrations were significantly lower in patients with DID (633.8 ng/ml vs 897.9 ng/ml, p = 0.013). We conclude that P- and L-selectin are involved in the pathogenesis of DID following aneurysmal subarachnoid haemorrhage. The results of this study do not elucidate the exact role of each selectin in DID.
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PMID:The selectin superfamily: the role of selectin adhesion molecules in delayed cerebral ischaemia after aneurysmal subarachnoid haemorrhage. 1145 88

Early intervention after acute ischemic stroke is essential to minimize brain cell injury. Although reperfusion of the ischemic brain is the treatment of choice for acute stroke, reperfusion itself may cause additional injury. The inflammatory cascade, characterized in part by early leukocyte interaction with endothelium, may contribute to this additional injury to blood vessels and surrounding brain tissue, extending the area of infarction. The selectin family of adhesion molecules mediates the initial, rolling and tethering of leukocytes to endothelium. P-selectin is rapidly expressed on ischemic endothelium in the brain vasculature, and L-selectin is expressed on leukocytes. Blocking the selectin-mediated tethering step may limit the inflammatory component of reperfusion injury in the brain. Fucoidin (FCN), a competitive inhibitor of P- and L-selectin, has been reported to decrease leukocyte accumulation during reperfusion of other organs. The effect of both leukocyte and endothelial selectin inhibition after cerebral ischemia and reperfusion has not been previously examined. The purpose of this study was to determine the effects of selectin adhesion molecule blockade on cerebral infarction size and neurological function after middle cerebral artery occlusion and reperfusion (MCAO-R) in the rat. MCAO was induced using the filament method. All animals were subjected to 4 h of MCAO and 24 h of reperfusion. After 24 h, brains were analyzed for size of infarction. Neurological function was assessed during stroke and 24 h after reperfusion. Two groups were studied, an untreated control group (n = 9) and a group treated with the selectin inhibitor, fucoidin (25 mg kg(-1)) (n = 9). We found that selectin blockade significantly reduced cerebral infarction size by 50% (p < 0.05) and improved neurological function (p < 0.05). In addition, a trend toward decreased cerebral edema was demonstrated with selectin inhibition. These results indicate that treatment of the blood and the endothelium with a selectin anti-inflammatory agent is protective after focal stroke and reperfusion in the rat.
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PMID:Protective effects of inhibiting both blood and vascular selectins after stroke and reperfusion. 1195 13

Stroke is the second most common cause of death in developed countries. Carotid plaque disruption and distal embolization of atheromatous debris are the most common pathogenic mechanisms for cerebral ischemia from carotid atherosclerotic disease. Morphologic composition of the atherosclerotic plaque, rather than the stenotic severity, appears to be central in determining the risk of both plaque rupture and subsequent thrombosis. Histologic features of vulnerable plaques include a large lipid core, a thin fibrous cap, intraplaque hemorrhage, and an increased number of inflammatory cells, mostly monocyte-macrophages. Due to the catastrophic implications of thrombus formation and embolization on the arterial plaque, detection before major neurologic events occur is now a major goal of cardiovascular clinicians and researchers. New detection imaging techniques such as intravascular thermography, optical coherence tomography, photonic spectroscopy, and elastography have been developed in order to document atherosclerotic lesion composition. This review will focus on the new possibilities under investigation for vulnerable atherosclerotic carotid plaque detection by means of the serologic markers of plaque instability. New markers, such as pregnancy-associated protein A, P-selectin, interleukin-6 and interleukin-12, metalloproteinases, lipoprotein(a), and oxidation products have been reviewed. Most of the promising serologic markers in this article are still in a nascent phase of development and remain to be validated in clinical settings. However, these biohumoral markers, and their potential combination of techniques, may hold promise for the future characterization of the vulnerable plaque and moreover of the vulnerable patient.
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PMID:[Unstable carotid plaque: biochemical and cellular marker of vulnerability]. 1284 77

Previous studies demonstrated that C1-inhibitor (C1-INH), a complement and contact-kinin systems inhibitor, is neuroprotective in cerebral ischemia. To investigate the mechanism of this action, we evaluated the expression of neurodegeneration and inflammation-related factors in mice subjected to 2-h ischemia and 2 or 46 h reperfusion. C1-INH significantly dampened the mRNA expression of the adhesion molecules P-selectin and ICAM-1 induced by the ischemic insult. It significantly decreased the pro-inflammatory cytokine (TNF alpha, IL-18) and increased the protective cytokine (IL-6, IL-10) gene expression. C1-INH treatment prevented the decrease of NFH gene, a marker of cellular integrity and counteracted the increase of pro-caspase 3, an apoptosis index. Furthermore, C1-INH markedly inhibited the activation and/or recruitment of microglia/macrophage, as shown by immunohistochemistry. In conclusion, C1-INH exerts an anti-inflammatory and anti-apoptotic action on ischemia-reperfusion injury. Our present and past data support a major effect of C1-INH on cell recruitment from the vasculature to the ischemic site.
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PMID:C1-inhibitor protects against brain ischemia-reperfusion injury via inhibition of cell recruitment and inflammation. 1583 56

Cerebral ischemia induces activation of leukocyte-endothelium interactions requiring upregulation of specific adhesion molecules including the selectins. The aim of the current study was to elucidate the therapeutic potency of P-selectin blockade on microcirculatory disturbances and secondary brain damage after global cerebral ischemia. Global cerebral ischemia for 15 minutes was induced in Mongolian gerbils. Functional blockade of P-selectin was achieved by pretreatment with the antibody RB 40.34 (2 mg/kg, n = 7). In vivo observation of brain microcirculation was performed by epifluorescence microscopy of a cranial window. Survival was assessed daily up to 4 days after ischemia. In the control group leukocyte rolling increased during reperfusion with a maximum at 3 h (28 +/- 14 x 100 microm(-1) x min(-1)) and was significantly reduced by the P-selectin antibody (13 +/- 9 x 100 microm(-1) x min(-1), p < 0.05). No effect on firm leukocyte adhesion was observed (4 +/- 3 vs. 2 +/- 1 x 100 microm(-1) x min(-1)). The survival of animals that received the Pselectin antibody (28 %) was significantly reduced compared with controls (71 %). Anti-P-selectin antibody reduces leukocyte rolling but has no positive effect on survival. Our data question the role of the inflammatory response in the development of secondary brain damage and do not support this kind of therapeutical approach in global cerebral ischemia.
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PMID:Effect of P-selectin inhibition on leukocyte-endothelium interaction and survival after global cerebral ischemia. 1621 46

The mechanisms that contribute to inflammatory damage following ischemic stroke are poorly characterized, but studies indicate a role for both complement and P-selectin. In this study, we show that compared with wild-type mice, C3-deficient mice showed significant improvement in survival, neurological deficit, and infarct size at 24 h after middle cerebral artery occlusion and reperfusion. Furthermore, P-selectin protein expression was undetectable in the cerebral microvasculature of C3-deficient mice following reperfusion, and there was reduced neutrophil influx, reduced microthrombus formation, and increased blood flow postreperfusion in C3-deficient mice. We further investigated the use of a novel complement inhibitory protein in a therapeutic paradigm. Complement receptor 2 (CR2)-Crry inhibits complement activation at the C3 stage and targets to sites of complement activation. Treatment of normal mice with CR2-Crry at 30 min postreperfusion resulted in a similar level of protection to that seen in C3-deficient mice in all of the above-measured parameters. The data demonstrate an important role for complement in cerebrovascular thrombosis, inflammation, and injury following ischemic stroke. P-selectin expression in the cerebrovasculature, which is also implicated in cerebral ischemia and reperfusion injury, was shown to be distal to and dependent on complement activation. Data also show that a CR2-targeted approach of complement inhibition provides appropriate bioavailability in cerebral injury to enable complement inhibition at a dose that does not significantly affect systemic levels of serum complement activity, a potential benefit for stroke patients where immunosuppression would be undesirable due to significantly increased susceptibility to lung infection.
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PMID:Complement-dependent P-selectin expression and injury following ischemic stroke. 1708 45


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