UMLS:C0038454 - FACTA Search

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

Modern populations are constantly exposed to a variety of compounds in the workplace and the environment that promote formation of reactive oxygen species (ROS) within susceptible tissues. Due to its high oxygen consumption, the brain may be particularly vulnerable to oxidative damage and degeneration. Agents that impact cellular oxidative homeostasis would therefore be expected to alter the toxicity of ROS generating compounds. We are testing this hypothesis using endogenous stress hormones, glucocorticoids, to perturb neuronal homeostasis, and adriamycin to generate ROS. Glucocorticoids (GCs) are hormones secreted by the adrenals in response to stress, and are also prescribed clinically to control inflammatory and autoimmune disorders in millions of people annually. Therefore, high GC levels may not be uncommon in individuals exposed to low levels of toxic compounds. Also, GCs appear to act on cellular pathways relevant to ROS as seen by their potentiation of neurodegeneration following insults such as stroke, hypoglycemia and seizure. Using rat primary neuronal culture, we determined neuronal susceptibility to adriamycin toxicity by cell counting (using MAP-2 staining). Dichlorofluorescein fluorescence confirmed ROS generation after adriamycin administration. Physiological levels of GCS (up to mM concentrations) in the culture media exacerbated both adriamycin toxicity and ROS generation. We hypothesize that GCs may exacerbate the toxicity of three neurotoxins whose mechanisms of action overlap GC pathways.
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PMID:Glucocorticoids may enhance oxygen radical-mediated neurotoxicity. 908 11

Apolipoprotein E (APOE, gene; ApoE, protein) is the major genetic susceptibility locus for the common forms of Alzheimer's disease (AD). There are three common polymorphisms in the population: epsilon 2, epsilon 3, and epsilon 4. The inheritance of each dose of epsilon 4 increases the risk and lowers the age of onset distribution for AD; epsilon 2 lowers the risk and increases the age of onset distribution. APOE-epsilon 4 has a high positive predictive value for AD, and is clinically useful as an adjunct in the early diagnosis of cognitively impaired patients. The APOE alleles have also been associated with risk of AD with head injury, intraneuronal localization of ApoE in animal stroke models, recovery of function after intracerebral hemorrhage, and recovery of psychological parameters after general cardiac anesthesia. A multifunctional role of ApoE in the brain implicates isoform-specific differences in interactions with several brain proteins including A beta, tau, and MAP-2. Intraneuronal ApoE is increased temporally and in relevant neurons in AD as a function of APOE genotype. Decreased glucose metabolism can be demonstrated by PET imaging in subjects two decades before the median age of onset as a function of APOE genotype. ApoE isoforms may also have different effects as antioxidants. The risk of stroke and vascular dementia has not been confirmed in neuropathological series to be related to specific APOE genotypes.
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PMID:ApoE, Alzheimer's disease, and recovery from brain stress. 932 91

Stroke is the third leading cause of death in the US, with a prevalence of 750,000 patients per year, and a social cost estimated at $50 billion. Current therapeutics are targeted at restoring blood flow rather than on preventing the actual mechanisms associated with neuronal cell death. Here, we show that, following transient (2 h) middle cerebral artery occlusion (tMCAO) in male, Wistar rats, neuronal damage determined using MAP-2 staining increased progressively after the tMCAO. Notably, such neuronal degeneration was first associated with a decrease in p-Akt in both the focus and penumbra of the infarct region and, later with an increase in cytosolic cytochrome C levels in cortical neurons in the infarct area. These findings implicate that Akt alterations and consequent release of cytochrome C are involved in neuronal death. To further address this issue, NXY-059 (disodium 4-[(tert.-butylimino)methyl]benzene-1,3-disulfonate N-oxide) administered i.v. (30 mg/kg bolus, followed by 30 mg/kg/h infusion for up to 24 h), commencing 1 h after reperfusion, not only prevented the increase in infarct area but also attenuated the postreperfusion increase in neuronal cytosolic cytochrome C and the postperfusion decrease in neuronal p-Akt. Thus, NXY-059, by preventing mitochondrial cytochrome C release by maintaining activation of the Akt pathway, appears to protect neurons from damage after ischemia.
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PMID:NXY-059 maintains Akt activation and inhibits release of cytochrome C after focal cerebral ischemia. 1217 60

Transplantation of human neural stem cells (NSCs) is a promising potential therapy for neurologic dysfunctions after the hyperacute stage of stroke in humans, but large amounts of human NSCs must be expanded in long-term culture for such therapy. To determine their possible therapeutic potential for human stroke, human fetal neural stem/progenitor cells (NSPCs) (i.e., neurosphere-forming cells) were isolated originally from forebrain tissues of one human fetus, and expanded in long-term neurosphere culture (exceeding 24 weeks), then xenografted into the lesioned areas in the brains of Mongolian gerbils 4 days after focal ischemia. Sensorimotor and cognitive functions were evaluated during the 4 weeks after transplantation. The total infarction volume in the NSPC-grafted animals was significantly lower than that in controls. Approximately 8% of the grafted NSPCs survived, mainly in areas of selective neuronal death, and were costained with antibodies against neuronal nuclei antibody (NeuN), microtubule associated protein (MAP-2), glial fibrillary acidic protein (GFAP), and anti-2'3' cyclic nucleotide 3'-phosphodiesterase (CNPase). Synaptic structures between NSPCs-derived neurons and host neurons were observed. Furthermore, gradual improvement of neurologic functions was observed clearly in the NSPC-grafted animals, compared to that in controls. Human NSPCs, even from long-term culture, remarkably improved neurologic functions after focal ischemia in the Mongolian gerbil, and maintained their abilities to migrate around the infarction, differentiate into mature neurons, and form synapses with host neuronal circuits. These results indicate that in vitro-expanded human neurosphere cells are a potential source for transplantable material for treatment of stroke.
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PMID:Human neural stem/progenitor cells, expanded in long-term neurosphere culture, promote functional recovery after focal ischemia in Mongolian gerbils. 1537 9

Erythropoietin (EPO) is neuroprotective in models of stroke and traumatic brain injury (TBI) when administered prior to or within the first few hours after injury. We seek to demonstrate that EPO also has neurorestorative effects when administered late (i.e., 1 day) after TBI in the rat. Twelve rats were subjected to TBI. Six rats were treated with EPO daily for 14 days starting 1 day after injury, and an additional six rats were treated with saline. Bromodeoxyuridine (BrdU) was administered daily for 14 days. Memory tests using a Morris Water Maze were performed prior to and after injury and treatment. Animals were sacrificed at 15 days after TBI, and their brains were prepared for histological analysis of damage to the dentate gyrus (DG) and for evaluation of newly formed neurons using double labeling of BrdU and MAP-2. The data revealed a significant improvement in spatial memory and significant increase in the number of newly formed neurons with EPO treatment compared with control animals. These data suggest that EPO treatment initiated 1 day after TBI is neurorestorative by enhancing neurogenesis, as well as neuroprotective.
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PMID:Erythropoietin enhances neurogenesis and restores spatial memory in rats after traumatic brain injury. 1615 16

In this study, we investigated the effects of electroacupuncture (EA) on ischemia-induced neurogenesis in the striatum of adult rat brains with a 30-minute middle cerebral artery occlusion. Injection of bromodeoxyuridine (BrdU, 30 mg/kg, i.p., cell proliferation marker) and 1,1'-dioctadecyl-6,6'-di(4-sulfophenyl)-3,3',3',3' -tetramethylindocarbo-cyanine (DiI, 1 microg/ microl, i.c.v, lipophilic neuronal tracer) combined with multiple fluorescence immunostaining were used to determine whether the proliferated cells were newly generated neurons and where they originated from in the brain. We demonstrated that EA treatment (60 Hz 1 s and 2 Hz 3 s alternately at an intensity of 10 mA for 20 min on "Fengfu", GV.16 and "Jinsuo", GV.8) enhanced stroke-induced striatal neurogenesis in rat brains as follows: 1) EA increased the number of BrdU+ cells, indicating that it activates cell proliferation; 2) EA increased BrdU+/CRMP-4(+) (collapsing response mediated protein-4, immature neuron marker) and BrdU+/MAP-2(+) (microtubule-associated protein 2, mature neuron marker) cells, suggesting that it facilitates neurogenesis and maturation of newly generated neurons; 3) EA expanded the distribution of DiI-stained cells in the striatum. Moreover, most BrdU+/CRMP-4(+) or BrdU+/MAP-2(+) cells in the striatum were observed DiI+ staining. Thus, the results suggest that striatal newborn neurons mainly migrate from the cells lining ventricle. Therefore, we conclude that EA can improve neuronal regeneration, newborn neuron migration and their maturation in the striatum of adult rat brains after stroke.
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PMID:Electroacupuncture enhances striatal neurogenesis in adult rat brains after a transient cerebral middle artery occlusion. 1661 87

To elucidate whether vascular endothelial growth factor (VEGF) improves stroke-induced striatal neurogenesis, we intraventricularly injected human VEGF(165)-expressive plasmid (phVEGF) mixed with liposome into adult rats after a transient middle cerebral artery occlusion (MCAO). The results showed that EGFP, a reporter protein, positive cells appeared at 2 hr, further enhanced at 4 hr, reached the maximum at 3 days and still remained at 14 days after a single injection. Treatment with phVEGF increased angiogenesis, as indicated by double staining of vWF, a marker of endothelial cells, and 5'-bromodeoxyuridine (BrdU), a marker of cell proliferation. The phVEGF treatment dose-dependently reduced infarct volume of brain at 2 weeks after MCAO. The neuroprotection by VEGF could be obtained when the plasmid was injected within 2 hr after stroke. Moreover, VEGF overexpression significantly increased cell proliferation in the ipsilateral SVZ and the numbers of BrdU(+)-CRMP-4(+) and BrdU(+)-Tuj1(+), two markers of immature newborn neurons, and BrdU(+)-MAP-2(+), a marker of mature newborn neurons, cells in the ipsilateral striatum to MCAO. Present results show that VEGF plasmid treatment after stroke can significantly reduce infarct volume and enhance striatal neurogenesis in adult rat brain. This suggests that VEGF overexpression acquires significant functions of neuronal protection and repair in the injured brain, which provides a possibility to develop a novel therapeutic strategy for the patients with stroke.
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PMID:VEGF overexpression enhances striatal neurogenesis in brain of adult rat after a transient middle cerebral artery occlusion. 1706 Dec 57

In vitro nitric oxide (NO) regulates calpain and caspase-3 activation, and in vivo neuronal nitric oxide synthase (nNOS), calpain and caspase-3 participate in the ischemic brain injury. Our objective was to investigate whether nNOS was involved in the ischemic brain injury through activating calpain and caspase-3 during experimental stroke. Rats received 1-h ischemia by intraluminant filament, and then reperfused for 23h (R 23h). nNOS inhibitor 7-nitroindozale (7-NI, 50mg/kg) was administrated intraperitoneally 5min before ischemia. Our data showed that treatment with 7-NI markedly reduced neurological deficits, the brain swelling, and the infarct volume at R 23h. Enzyme studies revealed significant suppression of the activities of m-calpain and caspase-3 in penumbra and core, and the activities of mu-calpain in penumbra, but not in core, in 7-NI-treated rats versus vehicle-treated rats. Western blot analysis demonstrated that 7-NI markedly increased the levels of MAP-2 and spectrin in penumbra and core compared with vehicle-treated rats. Histopathological studies displayed that 7-NI significantly reduced the necrotic cell death in penumbra and core, and apoptotic cell death in penumbra, but not in core. These data demonstrate the involvement of NO produced by nNOS in the ischemic neuronal injury through affecting the activation of calpain and caspase-3 in penumbra and core after experimental stroke, which provides a new perspective on possible mechanisms of action of nNOS inhibition in cerebral ischemia.
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PMID:Inhibition of nNOS reduces ischemic cell death through down-regulating calpain and caspase-3 after experimental stroke. 1916 6

To study the effect of VEGF overexpression on development of cortical newborn neurons in the brains after stroke, we injected human VEGF(165)-expressive plasmids (phVEGF) into the lateral ventricle of rat brains with a transient middle cerebral artery occlusion (MCAO). An injection of phVEGF significantly promoted angiogenesis (BrdU(+)-von Willebrand's factor(+)) and reduced infarct volume in the rat brain after MCAO. Single labeling of 5'-bromodeoxyuridine (BrdU) and double staining of BrdU with lineage-specific neuronal markers were used to indicate the proliferated cells and maturation of newborn neurons in the brain section of rats at 2, 4, and 8 weeks after MCAO. The results showed that BrdU positive (BrdU(+)) cells existed in ipsilateral frontal cortex within 8 weeks after MCAO and reached the maximum at 2 weeks of reperfusion. The phVEGF treatment significantly increased BrdU(+) cells compared with the control plasmid (pEGFP) injection. Cortical neurogenesis was indicated by the presence of newborn immature (BrdU(+)-Tuj1(+)), newborn mature (BrdU(+)-MAP-2(+)), and newborn GABAergic (BrdU(+)-GAD67(+)) neurons. All these neurons declined within 8 weeks after MCAO in the controls. Injection of phVEGF significantly increased BrdU(+)-Tuj1(+) neurons at 2 weeks, and BrdU(+)-MAP-2(+) neurons and BrdU(+)-GAD67(+) neurons at 4 and 8 weeks, respectively after MCAO. Moreover, phVEGF treatment significantly increased neurite length and branch numbers of BrdU(+)-MAP-2(+) newborn neurons compared with pEGFP treatment. These results demonstrate that VEGF enhances maturation of stroke-induced cortical neurogenesis and dendritic formation of newborn neurons in adult mammalian brains.
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PMID:VEGF enhance cortical newborn neurons and their neurite development in adult rat brain after cerebral ischemia. 1954 Feb 94

Two intracellular cysteine proteases (calpains and caspases) and inducible nitric oxide synthase (iNOS) participate in the ischemic brain injury. In vitro nitric oxide (NO) regulates calpain and caspase-3 activation. The present study investigated whether aminoguanidine (AG), an iNOS inhibitor, protected brain against experimental stroke through inhibiting calpain and caspase-3 activation. Rats received 1h ischemia by intraluminal filament, then, reperfused for 23 h (R 23 h). AG (100 mg/kg) was administered intraperitoneally 5 min before ischemia. Our data showed that treatment with AG markedly improved neurological deficit, reduced brain swelling, decreased infarct volume, and attenuated the necrotic cell death in ischemic penumbra and core, and apoptotic cell death in penumbra at R 23 h. Enzymatic studies demonstrated the significant inhibition of the activities of mu- and m-calpain and caspase-3, and Western blot analysis revealed marked increases in the levels of MAP-2 and spectrin in penumbra and core in AG-treated rats versus vehicle-treated rats. AG also significantly enhanced the calpastatin levels in core, although it had no significant effects on that in penumbra. These data demonstrate that inhibiting calpain and caspase-3 activation is one mechanism of AG against experimental stroke, suggesting that NO produced by iNOS may be involved in calpain- and caspase-3-mediated ischemic cell death, at least in part.
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PMID:Neuroprotective actions of aminoguanidine involve reduced the activation of calpain and caspase-3 in a rat model of stroke. 2011 8

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