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)

A novel insulin sensitizing agent, thiazolidine, has been demonstrated to inhibit the growth of cultured vascular smooth muscle cells (VSMC) in vitro. This study was undertaken to examine the in vivo effects of the thiazolidine compound pioglitazone (PIO) on carotid neointimal thickening, after endothelial injury in Wistar rats and vascular hypertrophy in stroke-prone spontaneously hypertensive rats (SHR-SP/Izm). PIO treatment (3 mg/kg/day for 1 week prior to endothelial injury and 2 weeks postendothelial injury) remarkably decreased neointimal cross-sectional areas in treated animals (63.8 +/- 4.9 x 10(3) microm2) versus controls (196 +/- 7.6 x 10(3) microm2, P < 0.05). Bromodeoxyuridine uptake in the neointima, a marker of DNA synthesis, was also decreased after treatment compared with controls. In SHR-SP/Izm but not in Wistar rats, PIO treatment decreased blood pressure and plasma insulin levels. PIO treatment in SHR-SP/Izm (3 mg/kg/day from 4 weeks of age for 7 weeks) significantly decreased the medial wall thickness of the mesenteric artery (10.4 +/- 1.2 x 10(3) microm2 versus control, 21.2 +/- 2.4 x 10(3) microm2, P < 0.05). In addition, PIO treatment significantly decreased the expression of EIIIA fibronectin both in the carotid neointima of Wistar rats and the media of the mesenteric artery in SHR-SP/Izm compared with their respective controls (P < 0.05). These results suggest that PIO has vasculo-protective effects in both acute and chronic vascular injury in vivo through inhibition of VSMC proliferation.
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PMID:Vasculo-protective effects of insulin sensitizing agent pioglitazone in neointimal thickening and hypertensive vascular hypertrophy. 1048 61

We tested the hypothesis that populations of ependymal, subependymal and choroid plexus cells proliferate and differentiate after stroke in adult rats. Rats were subjected to 2 h of middle cerebral artery occlusion (n=70) and euthanized at 1, 2, 4, 7, 14, 21 and 28 days (10 per time point). Hematoxylin and eosin staining and immunostaining were performed using antibodies against bromodeoxyuridine, neuronal nuclear antigen and glial fibrillary acidic protein after stroke. In normal nonischemic rats (n=10), single layers of ependymal and choroid plexus cells do not react with bromodeoxyuridine, neuronal nuclear antigen or glial fibrillary acidic protein. Individual subependymal cells express glial fibrillary acidic protein and bromodeoxyuridine, but not neuronal nuclear antigen. After stroke, increased bromodeoxyuridine reactivity was present in multiple layers of ependymal cells and nodules of subependymal cells and in scattered choroid plexus cells from 2 to 28 days and peaked at 7 days. Bromodeoxyuridine immunoreactivity colocalized with neural phenotypes of neuronal nuclear antigen (approximately 0.1-3.5%) and glial fibrillary acidic protein (approximately 8.6%) immunoreactivity in cells in the ventricular zone and the subventricular zone, as well as in the choroid plexus of the ischemia affected hemisphere. Our data suggest that ependymal, subependymal and choroid plexus cells are potential neural precursor cells in the adult mammalian brain.
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PMID:Cell proliferation and differentiation from ependymal, subependymal and choroid plexus cells in response to stroke in rats. 1179 Mar 94

The long-term (4-month) responses to treatment of stroke in the older adult rat, using rat bone marrow stromal cells (MSCs), have not been investigated. Retired breeder rats were subjected to middle cerebral artery occlusion (MCAo) alone, or injected intravenously with 3 x 10(6) MSCs, at 7 days after MCAo. Functional recovery was measured using an adhesive-removal patch test and a modified neurological severity score. Bromodeoxyuridine, a cell proliferation marker, was injected daily for 14 before sacrifice. Animals were sacrificed 4 months after stroke. Double immunostaining was used to identify cell proliferation and cell types for axons, astrocytes, microglia, and oligodendrocytes. MSC treatment induced significant improvement in neurological outcome after MCAo compared with control rats. MSC treatment reduced the thickness of the scar wall (P < 0.05) and reduced the numbers of microglia/macrophages within the scar wall (P < 0.01). Double staining showed increased expression of an axonal marker (GAP-43), among reactive astrocytes in the scar boundary zone and in the subventricular zone in the treated rats. Bromodeoxyuridine in cells preferentially colocalized with markers of astrocytes (GFAP) and oligodendrocytes (RIP) in the ipsilateral hemisphere, and gliogenesis was enhanced in the subventricular zone of the rats treated with MSCs. This is the first report to show that MSCs injected at 7 days after stroke improve long-term neurological outcome in older animals. Brain tissue repair is an ongoing process with reactive gliosis, which persists for at least 4 months after stroke. Reactive astrocytes responding to MSC treatment of ischemia may also promote axonal regeneration during long-term recovery.
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PMID:Gliosis and brain remodeling after treatment of stroke in rats with marrow stromal cells. 1554 Feb 31

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

Environmental enrichment (EE) alleviates sensorimotor deficits after brain infarcts but the cellular correlates are not well-known. This study aimed to test the effects of postischemic EE on neocortical cell genesis. A neocortical infarct was caused by distal ligation of the middle cerebral artery in adult spontaneously hypertensive rats, subsequently housed in standard environment or EE. Bromodeoxyuridine (BrdU) was administered during the first postischemic week to label proliferating cells and BrdU incorporation was quantified 4 weeks later in the periinfarct, ipsilateral medial and contralateral cortex. Immunohistochemistry and confocal microscopy were used to analyze co-localization of BrdU with neuronal (calbindin D28k, calretinin, parvalbumin, glutamic acid decarboxylase, tyrosine hydroxylase), astrocytic (glial fibrillary acidic protein, glutamine synthetase, vimentin, nestin), microglia/macrophage (CD11b/Ox-42, CD68/ED-1), oligodendrocyte progenitor/polydendrocyte (NG2, platelet-derived growth factor alpha receptor) or mature oligodendrocyte (myelin basic protein) markers. BrdU positive cells were increased in all analyzed cortical regions in stroke EE rats compared with stroke standard environment rats. Newly born cells in the periinfarct cortex were mostly reactive astroglia. Occasionally, BrdU positive cells in the periinfarct cortex that were negative for glial or microglia/macrophage markers co-expressed markers typical for interneurons but did not express appropriate functional markers. The majority of BrdU positive cells in intact cortical regions, ipsi- and contralaterally, were identified as NG2 positive polydendrocytes. Perineuronally situated newly born cells and polydendrocytes were found to be brain-derived neurotrophic factor immunoreactive. In conclusion, EE enhanced newborn glial scar astroglia and NG2+ polydendrocytes in the postischemic neocortex which might be beneficial for brain repair and poststroke plasticity.
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PMID:Enriched environment after focal cortical ischemia enhances the generation of astroglia and NG2 positive polydendrocytes in adult rat neocortex. 1642 25

Peripheral stimulation and physical therapy can promote neurovascular plasticity and functional recovery after CNS disorders such as ischemic stroke. Using a rodent model of whisker-barrel cortex stroke, we have previously demonstrated that whisker activity promotes angiogenesis in the penumbra of the ischemic barrel cortex. This study explored the potential of increased peripheral activity to promote neurogenesis and neural progenitor migration toward the ischemic barrel cortex. Three days after focal barrel cortex ischemia in adult mice, whiskers were manually stimulated (15 min x 3 times/day) to enhance afferent signals to the ischemic barrel cortex. 5-Bromo-2'-deoxyuridine (BrdU, i.p.) was administered once daily to label newborn cells. At 14 days after stroke, whisker stimulation significantly increased vascular endothelial growth factor and stromal-derived factor-1 expression in the penumbra. The whisker stimulation animals showed increased doublecortin (DCX) positive and DCX/BrdU-positive cells in the ipsilateral corpus of the white matter but no increase in BrdU-positive cells in the subventricular zone, suggesting a selective effect on neuroblast migration. Neurogenesis indicated by neuronal nuclear protein and BrdU double staining was also enhanced by whisker stimulation in the penumbra at 30 days after stroke. Local cerebral blood flow was better recovered in mice that received whisker stimulation. It is suggested that the enriched microenvironment created by specific peripheral stimulation increases regenerative responses in the postischemic brain and may benefit long-term functional recovery from ischemic stroke.
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PMID:Enhanced neurogenesis and cell migration following focal ischemia and peripheral stimulation in mice. 1877 65

Basic fibroblast growth factor (bFGF) is a very important mitogenic factor with proved neurogenesis effects in the central nervous system. Intranasal administration can bypass blood-brain barrier and deliver drugs into the brain directly. We investigated whether intranasal administration of bFGF at later time points after ischemia could promote adult neurogenesis and improve neurologic functions. Rats received bFGF or saline intranasally once daily for 6 consecutive days, starting at 1 day after transient middle cerebral artery occlusion (MCAO). Bromodeoxyuridine (BrdU) was injected at 5 and 6 days after MCAO. Rats were killed at 7 or 28 days after MCAO. Neurogenesis was assessed by immunostaining for BrdU and cell type-specific markers. Neurological functions were evaluated by the modified Neurological Severity Scores. Compared with the control animals, intranasal administration of bFGF improved behavioral recovery without affecting infarct size, and enhanced proliferation of progenitor cells in the subventricular zone and the subgranular zone of the dentate gyrus (DG). Furthermore, the new proliferated cells could differentiate into neurons (BrdU+NeuN+ cells) in the striatum and DG at 28 days after MCAO. Intranasal administration of bFGF offers a non-invasive alternative for the treatment of stroke.
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PMID:Intranasally delivered bFGF enhances neurogenesis in adult rats following cerebral ischemia. 1882 50

The brain inflammatory response induced by stroke contributes to cell death and impairs neurogenesis. Poly(ADP-ribose) polymerase-1 (PARP-1) is a coactivator of the transcription factor NF-kappaB and required for NF-kappaB-mediated inflammatory responses. Here we evaluated PARP inhibition as a means of suppressing post-stroke inflammation and improving outcome after stroke. Rats were subjected to bilateral carotid occlusion-reperfusion, and treatment with the PARP inhibitor N-(6-oxo-5,6-dihydrophenanthridin-2-yl)-N,N-dimethylacetamide (PJ34) was begun 48 h later. PJ34 was found to rapidly suppress the ischemia-induced microglial activation and astrogliosis. Behavioral tests performed 6 to 8 weeks after ischemia showed deficits in spatial memory and learning that were lessened by the PJ34 treatment. Immunohistochemical evaluation of hippocampus at 8 weeks after ischemia showed increased neuronal density in CA1 layer of PJ34-treated animals relative to vehicle-treated animals. Bromodeoxyuridine labeling showed formation of new neurons in hippocampal CA1 area in PJ34-treated animals, but not in vehicle-treated animals. Together, these results suggest that treatment with a PARP inhibitor for several days after ischemia enhances long-term neuronal survival and neurogenesis by reducing inflammation.
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PMID:Inhibition of poly(ADP-ribose) polymerase suppresses inflammation and promotes recovery after ischemic injury. 1919 Jun 53

A disintegrin and metalloproteinase-17 (ADAM17) is involved in proteolytic ectodomain shedding of several membrane-bound growth factors and cytokines. The expression and activity of ADAM17 increase under some pathological conditions such as stroke and glioma. ADAM17 promotes neural progenitor cell migration and contributes to stroke-induced neurogenesis after stroke and brain tumor growth and invasion. In the present study, we sought to elucidate whether ADAM17 contributes to breast cancer progression and its mechanisms. To this end, we examined the role of ADAM17 in the proliferation, invasion and tube formation of MDA-MB-231 breast cancer cells in vitro. Stable transfection of the MDA-MB-231 cell line with either a plasmid for overexpression of human ADAM17, or a siRNA to ADAM17 was employed in this study to establish high or low ADAM17 expression in breast cancer cells, respectively. For study of mechanism, the ADAM17 inhibitor TAPI-2 and the PI3K-AKT inhibitor LY294002 were used to counteract high ADAM17 expression or the activated PI3K-AKT pathway. Proliferation of MDA-MB-231 breast cancer cells were tested by MTT, Bromodeoxyuridine incorporation assay, growth curve and sulforhodamine B assay. Matrigel invasion assays were used to assess the ability of MDA-MB-231 cells to penetrate the Extra Cellular Matrix. A Matrigel tube formation assay was performed to test capillary tube formation ability. EGFR-PI3K-Akt pathway activation in MDA-MB-231 cells under different ADAM17 expression levels were tested by western blot and ELISA. Our data show that ADAM17 promotes the MDA-MB-231 malignant phenotype by increased proliferation, invasion and angiogenesis. TGFalpha, VEGF secretion and VEGF expression was increasing by ADAM17 and counteracted by ADAM17 siRNA, TAPI-2 and LY294002 in MDA-MB-231 cells. ADAM17 activated, whereas ADAM17 siRNA, TAPI-2 and LY294002 deactivated the EGFR-PI3K-AKT signal pathway, which correlated with MDA-MB-231 cell malignant phenotype changes. This study suggests ADAM17 contributes to breast cancer progression through activation of the EGFR-PI3K-AKT signal pathway.
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PMID:ADAM17 promotes breast cancer cell malignant phenotype through EGFR-PI3K-AKT activation. 1943 Feb 1

It is now well accepted that the brain is able to generate newborn neurons from a population of resident multipotential neural stem cells (NSCs) located in two discrete regions of the brain. The capacity for neurogenesis appears to diminish over the lifespan of an organism. Methods to potentiate the proliferation of new neuronal or glial cells within the central nervous system from resident NSCs could have therapeutic potential following an insult, such as stroke, or to replace lost cells as a result of a neurodegenerative disease. We implanted cells from a human NSC cell line, CTX0E03, originally derived from fetal cortical tissue directly into the ventricles of aged rats. CTX0E03 cells have angiogenic properties via secretion of growth factors, so we investigated if the implanted cells would stimulate proliferation of NSCs within the subgranular zone (SGZ) of the dentate gyrus. Bromodeoxyuridine staining demonstrated significantly increased proliferation in the SGZ. Absence of double labeling for human nuclear antigen suggested that the increased proliferation was from endogenous neural progenitor cells. The acute treatment also led to an increased number of immature neurons as demonstrated by immunohistochemical staining for the immature neuronal marker doublecortin. The data suggest that implants of exogenous NSCs may promote regeneration in aging organisms through stimulation of endogenous neurogenesis.
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PMID:Increased neuronal proliferation in the dentate gyrus of aged rats following neural stem cell implantation. 1956 72


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