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

Recent findings in adult rodents have provided evidence for the formation of new striatal neurons from subventricular zone (SVZ) precursors following stroke. Little is known about which factors determine the magnitude of striatal neurogenesis in the damaged brain. Here we studied striatal neurogenesis following an excitotoxic lesion to the adult rat striatum induced by intrastriatal quinolinic acid (QA) infusion. New cells were labeled with the thymidine-analogue 5-bromo-2'-deoxyuridine (BrdU) and their identity was determined immunocytochemically with various phenotypic markers. The unilateral lesion gave rise to increased cell proliferation mainly in the ipsilateral SVZ. At 2 weeks following the insult, there was a pronounced increase of the number of new neurons co-expressing BrdU and a marker of migrating neuroblasts, doublecortin, in the ipsilateral striatum, particularly its non-damaged medial parts. About 80% of the new neurons survived up to 6 weeks, when they expressed the mature neuronal marker NeuN and were preferentially located in the outer parts of the damaged area. Lesion-generated neurons expressed phenotypic markers of striatal medium spiny neurons (DARPP-32) and interneurons (parvalbumin or neuropeptide Y). The magnitude of neurogenesis correlated to the size of the striatal damage. Our data show for the first time that an excitotoxic lesion to the striatum can trigger the formation of new striatal neurons with phenotypes of both projection neurons and interneurons.
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PMID:Quantitative analysis of the generation of different striatal neuronal subtypes in the adult brain following excitotoxic injury. 1593 16

Neurogenesis plays a role in many physiological (memory formation) and pathological (stroke, depression) processes. However the mechanisms of postnatal stem cell proliferation and neurogenesis are still poorly understood. We characterized early neurogenesis in vitro in rat organotypic hippocampal slice cultures. Proliferation was assessed by bromodeoxyuridine incorporation, neurogenesis by bromodeoxyuridine-double labeling with doublecortin or beta-III tubulin. We showed for the first time that in addition to the dentate gyrus organotypic hippocampal slice cultures include a second neurogenic zone: the posterior periventricle, which is a part of the lateral ventricle wall. This structure lining the stratum oriens contained Nestin+ precursors. We could identify morphological and functional differences between dentate gyrus and posterior periventricle precursor populations. Our data demonstrate that basic fibroblast growth factor treatment induced a fast but short-lasting neurogenic response in the dentate gyrus while the posterior periventricle showed a more pronounced and long lasting neurogenic effect of basic fibroblast growth factor. Thus two neurogenic zones with different neurogenic properties were identified in organotypic hippocampal slice cultures.
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PMID:Identification and characterization of two neurogenic zones in interface organotypic hippocampal slice cultures. 1619 93

An important cellular event associated with reduced structural and functional recovery after stroke in aged animals is the early formation of a scar in the infarcted region that impairs neural recovery and repair. Despite the detrimental impact of infarct scar formation, the brain regions and cell types that supply the components of the scar are not well characterized. We hypothesized that premature cerebral scar formation in aged animals is associated with an altered cellular response to cerebral ischemia. Focal cerebral ischemia was produced by reversible occlusion of the right middle cerebral artery in 3 month- and 20 month-old male Sprague Dawley rats. After 3, 7, 14, and 28 days, brain tissue was subjected to real-time reverse-transcriptase-PCR (RT-PCR) and immunostaining for 1) a cellular proliferation marker (BrdU); 2) a neuroepithelial marker (nestin); 3) an astrocytic marker (glial fibrillary acidic protein [GFAP]); 4) a neuronal marker, doublecortin; and 5) a basal lamina marker (laminin), and analyzed using 3D-reconstruction of confocal images. In this model the infarct was localized primarily in the parietal cortex. By RT-PCR there was a robust increase in nestin mRNA transcripts shortly after stroke, and this increase was particularly intense in aged rats. Accordantly, we found in aged rats a rapid delimitation of the infarct area by nestin-positive cells and an early incorporation of these cells into the glial scar. The capillaries of the corpus callosum were the major source of proliferating, nestin-positive cells, many of which were also immunoreactive for doublecortin, although a smaller population of nestin cells were associated with the ventricular walls. Despite the proliferation of nestin cells, they did not make a significant contribution to neurogenesis in the infarcted cortex, possibly because the corpus callosum impedes the migration of subventricular zone-derived nestin-positive cells into the lesioned area. We conclude that: (i) the aged brain has the capability to mount a cytoproliferative response to injury, but the timing of the cellular and genetic reaction to cerebral insult is accelerated in aged animals; (ii) the proliferating cells contribute to the formation of the glial scar, but few of the cells appear to become neurons; and (iii) the vasculature plays a hitherto unrecognized role as a source of proliferating cells after stroke. Because capillary-derived cells help to form the glial scar, elucidating the molecular basis of this phenomenon and its acceleration in the aging brain could yield novel approaches to enhancing neurorestoration in the elderly.
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PMID:Accelerated delimitation of the infarct zone by capillary-derived nestin-positive cells in aged rats. 1647 21

To investigate strain differences and genetic effects on different aspects of neurogenesis, we compared young adult spontaneously hypertensive/hyperactive rats (SHR) and stroke-prone SHR (SHRSP) with the genetic control WKY strain. In both hypertensive/hyperactive strains, the number of newly generated neurons and the number of lineage-determined cells as detected by doublecortin (DCX) immunoreactivity were significantly increased. SHRSP had significantly more DCX-positive cells than the other groups. Whereas cell proliferation as measured by Ki67 expression was increased in SHR, we found no difference between SHRSP and WKY. In summary, we found increased net neurogenesis in both hypertensive/hyperactive strains. However, this phenotype was based on different mechanisms in the course of neuronal development: cell proliferation in SHR and cell survival in SHRSP. In addition, we found that within strains the number of DCX-positive cells was not predictive of the net number of new neurons and that the increase in neurogenesis was not significantly correlated with blood pressure in SHR and WKY. However, in both SHR and SHRSP, cell proliferation showed an association with blood pressure recordings.
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PMID:Two genetic rat models of arterial hypertension show different mechanisms by which adult hippocampal neurogenesis is increased. 1714 55

Neurogenesis persists throughout life under normal and degenerative conditions. The adult subventricular zone (SVZ) generates neural stem cells capable of differentiating to neuroblasts and migrating to the site of injury in response to brain insults. In the present study, we investigated whether estradiol increases neurogenesis in the SVZ in an animal model of stroke to potentially promote the ability of the brain to undergo repair. Ovariectomized C57BL/6J mice were implanted with capsules containing either vehicle or 17beta-estradiol, and 1 week later they underwent experimental ischemia. We utilized double-label immunocytochemistry to identify the phenotype of newborn cells (5-bromo-2'-deoxyuridine-labeled) with various cellular markers; doublecortin and PSA-NCAM as the early neuronal marker, NeuN to identify mature neurons, and glial fibrillary acidic protein to identify astrocytes. We report that low physiological levels of estradiol treatment, which exert no effect in the uninjured state, significantly increase the number of newborn neurons in the SVZ following stroke injury. This effect of estradiol is limited to the dorsal region of the SVZ and is absent from the ventral SVZ. The proliferative actions of estradiol are confined to neuronal precursors and do not influence gliosis. Furthermore, we show that both estrogen receptors alpha and beta play pivotal functional roles, insofar as knocking out either of these receptors blocks the ability of estradiol to increase neurogenesis. These findings clearly demonstrate that estradiol stimulates neurogenesis in the adult SVZ, thus potentially facilitating the brain to remodel and repair after injury.
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PMID:Estradiol enhances neurogenesis following ischemic stroke through estrogen receptors alpha and beta. 1718 42

Ischemic stroke induces neurogenesis in the subventricular zone (SVZ), and newly generated neurons in the SVZ migrate toward the ischemic boundary. However, the characteristics of migrating SVZ cells have not been investigated after stroke. Using time-lapse imaging in both SVZ cells and organotypic brain slice cultures, we measured the dynamics of SVZ cell division and migration of adult rats subjected to stroke. In normal brain slices, SVZ cells primarily migrated dorsally and ventrally along the lateral ventricular surface. However, in stroke brain slices, SVZ cells migrated laterally toward the striatal ischemic boundary. Cultured stroke-derived SVZ cells exhibited a significant (p < 0.01) increase in the migration distance (212 +/- 21 microm) compared with the nonstroke-derived SVZ cells (97 +/- 12 microm). Migrating stroke-derived SVZ cells spent significantly (p = 0.01) less time in cytokinesis (0.63 +/- 0.04 h) compared with the time (1.09 +/- 0.09 h) for nonstroke-derived SVZ cells. Newborn cells with a single leading process exhibited fast migration (7.2 +/- 0.8 microm/h), and cells with multiple processes showed stationary migration (3.6 +/- 0.8 microm/h). Stroke SVZ daughter cells further divided during their migration. The morphology of doublecortin (DCX)-positive cells in fixed brain sections resembled those observed in cultured newborn cells, and the DCX-positive cells proliferated in the ischemic striatum. Collectively, the present study suggests that stroke promotes cytokinesis of migrating neuroblasts, and these cells migrate toward the ischemic striatum with distinct migratory behaviors and retain the capacity for cell division during migration.
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PMID:Neuroblast division during migration toward the ischemic striatum: a study of dynamic migratory and proliferative characteristics of neuroblasts from the subventricular zone. 1737 77

In this research, we investigated striatal neurogenesis in 3-, 6-, 12-, and 18-month-old rats after cerebral ischemic injury. All rats were subjected to a 20-min middle cerebral artery occlusion (MCAO), given 5'-bromodeoxyuridine (BrdU, 30 mg/kg, i.p.) once daily during days 4-7 and sacrificed 2 weeks after MCAO. Neurogenesis was assessed with double immunohistochemical/immunofluorescence labeling of BrdU and doublecortin (DCX), microtubule-associated protein 2 (MAP-2), or 67-kDa glutamic acid decarboxylase (GAD(67)). In 6-, 12-, and 18-month-old rats, the numbers of nestin(+), BrdU(+)-DCX(+) (a marker of newborn neuronal progenitors/immature neuron), BrdU(+)-MAP-2(+) (a marker of newborn mature neuron), and BrdU(+)-GAD(67)(+) (a marker of newborn GABAergic neuron) cells decreased dramatically in the ipsilateral striatum to MCAO compared with that in 3-month-old rats. The results indicated that stroke-induced striatal neurogenesis still existed in aging rats. However, the capacity of neurogenesis in older rats was considerably lower than that in young adults. Meanwhile, the apoptosis of neural precursors and immature neurons, indicated by double labeling of active caspase-3 and nestin/DCX/Tuj-1(beta-tubulin III)/CRMP-4 (collapsin response-mediated protein-4), increased noticeably in the ipsilateral striatum of older rats. Taken together, the results suggested that aging-related attenuation of ischemia-induced striatal neurogenesis might be related to decrease of neural precursors and increase of apoptosis of newborn neurons.
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PMID:Age-related decrease of striatal neurogenesis is associated with apoptosis of neural precursors and newborn neurons in rat brain after ischemia. 1766

Stroke is a neurodegenerative disorder and the leading cause of disability in adult humans. Treatments to support efficient recovery in stroke patients are lacking. Several studies have demonstrated the ability of grafted neural stem cells (NSCs) to partly improve impaired neurological functions in stroke-subjected animals. Recently, we reported that NSCs from human fetal striatum and cortex exhibit region-specific differentiation in vitro, but survive, migrate and form neurons to a similar extent after intrastriatal transplantation in newborn rats. Here, we have transplanted the same cells into the stroke-damaged striatum of adult rats. The two types of NSCs exhibited a similar robust survival (30%) at 1 month after transplantation, and migrated throughout the damaged striatum. Striatal NSCs migrated farther and occupied a larger volume of striatum. In the transplantation core, cells were undifferentiated and expressed nestin and, to a lesser extent, also GFAP, betaIII-tubulin, DCX and calretinin, markers of immature neural lineage. Immunocytochemistry using markers of proliferation (p-H3 and Ki67) revealed a very low content of proliferating cells (<1%) in the grafts. Human cells outside the transplantation core differentiated, exhibited mature neuronal morphology and expressed mature neuronal markers such as HuD, calbindin and parvalbumin. Interestingly, striatal NSCs generated a greater number of parvalbumin+ and calbindin+ neurons. Virtually none of the grafted cells differentiated into astrocytes or oligodendrocytes. Based on these data, human fetal striatum- and cortex-derived NSCs could be considered potentially safe and viable for transplantation, with strong neurogenic potential, for further exploration in animal models of stroke.
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PMID:Survival, migration and neuronal differentiation of human fetal striatal and cortical neural stem cells grafted in stroke-damaged rat striatum. 1768 40

Neural stem/progenitor cells (NPCs) reside in the subventricular zone (SVZ) and dentate gyrus in the adult mammalian brain. It has been reported that endogenous NPCs are activated after brain insults such as ischemic stroke. We investigated whether proliferation and migration of endogenous NPCs are increased after a collagenase-induced small intracerebral hemorrhage (ICH) near the internal capsule in rats. Bromodeoxyuridin (BrdU) administration for 14 days after ICH (post-labeling) resulted in an increase in the number of BrdU-positive cells as shown in both ipsilateral and contralateral SVZs. BrdU treatment given for 2 days before ICH to label endogenous NPCs (pre-labeling), caused more BrdU-positive cells to be detected in the ipsilateral dorsal striatum (dSTR) compared to those in the contralateral dSTR 14 days after ICH. BrdU- and doublecortin (Dcx)-positive cells were found in the ipsilateral STR. An increase in the number of Dcx-positive migrating immature neurons was found in the dSTR and peri-hemorrhage area 14 days after ICH, and a cluster of Dcx-positive cells was found in the STR around the lesion 28 days after ICH. Matrix metalloproteinase-2 (MMP-2) was strongly expressed in wide area of the injured brain, particularly around the lesion 14 and 28 days after ICH. Dcx- and MMP-2-positive cells were detected in the ipsilateral STR near the lesion. These data suggest that collagenase-induced ICH enhances the proliferation of endogenous NPCs and the migration of newly born neuroblasts toward the hemorrhage area.
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PMID:Increase in neurogenesis and neuroblast migration after a small intracerebral hemorrhage in rats. 1782 9

A cortical lesion was induced by disrupting the medium-size pial vessels, which led to a cone-shaped cortical lesion and turned into a fluid-filled cavity surrounded by a glial acidic fibrillary protein-positive (GFAP(+)) glia limitans 21 days after injury. Therefore, it mimics conditions of lacunar infarctions, one of the most frequent human stroke pathologies. Doublecortin (DCX)-positive cells were present in the neocortex and corpus callosum at the base of the lesion. The number of DCX-positive cells in the corpus callosum was significantly increased from day 5 to day 14 compared with the control group. In contrast, there were no DCX-positive cells in neocortex of control animals; the DCX-positive cells appeared in the neocortex after lesioning and were maintained until 14 days postlesioning. Some of the DCX-positive cells were also immunoreactive for beta III-tubulin, another marker of immature neurons. They did not stain positively for markers of glia cells. The presence of these DCX-positive cells near the lesion might indicate a migratory pathway for developing neuroblasts from the subventricular zone (SVZ) through the corpus callosum to the lesion. SVZ cells were labeled with a lipophilic molecule, 5- (and 6-) carboxyfluorescein diacetate succinimidyl ester (CFSE) stereotaxical injections. Although rostral migratory stream and olfactory bulb were intensely labeled, no CFSE-containing cells were found in the cortex beneath the lesion. These results do not support the idea that the DCX-positive cells were originating from neural precursors of the SVZ, but they might be generated from local progenitor cells.
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PMID:Doublecortin-expressing cells in the ischemic penumbra of a small-vessel stroke. 1796 Aug 29


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