UMLS:C0022116 - FACTA Search

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Query: UMLS:C0022116 (ischemia)
91,303 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Neurogenesis is a process that involves cell proliferation, migration and differentiation. Adult neurogenesis has been discovered by Altman in the mid 1960s. It is known now that neurogenesis occurs in two main neurogenic areas of the adult mammalian brain: the olfactory bulb and the hippocampal dentate gyrus, although other brain regions, such as cortex or substantia nigra cannot be excluded. The rate of neurogenesis can be regulated in a positive and negative manner by several factors like, age, growth factors, hormones, environmental or pharmacological stimuli. Functional significance of adult neurogenesis is still under investigation, however, several evidences suggest involvement of newly generated neurons in cognitive processes. There are also several findings indicating that the impairment of adult neurogenesis may be involved in the pathophysiology of some brain diseases, like depression, epilepsy, ischemia or neurodegenerative disorders. It appears that alterations in the rate of neurogenesis may have important functional and therapeutic implications.
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PMID:Neurogenesis in the adult brain. 1566 80

Caspase activation occurs within 1h of reperfusion in discrete cell populations of the adult rat brain following transient forebrain ischemia. Based on the proximity of these cells to regions of adult neurogenesis and the known susceptibility of developing neurons to apoptosis, we tested the hypothesis that rapidly triggered post-ischemic caspase activation occurs in immature neurons or neuroprogenitor cells. Adult male Long Evans rats were injected with BrdU to label mitotic cells 1, 7, or 28 days prior to being studied. Rats were then subjected to either sham surgery or 10-min transient forebrain ischemia. At 1h after reperfusion, rats underwent perfusion fixation and brains prepared for immunohistochemical analysis. Immunolabeling for caspase-substrate cleavage, using an antibody directed at the caspase derived fragment of alpha-spectrin, was observed in discrete cell populations of the rostral dentate gyrus, dorsal striatum, extreme paramedian CA1 hippocampus, indusium gresium, olfactory tubercle, and thalamus. No cells double-labeled for caspase-substrate cleavage and BrdU at any time point after BrdU injection. Furthermore, cells immunolabeled for caspase-substrate cleavage did not double-label for markers of immature neurons (doublecortin) or progenitor cells (nestin), but did double-label for the mature neuronal marker NeuN. These results indicate that the phenomenon of rapidly triggered caspase activation in the adult rat brain after transient forebrain ischemia is specific to mature neurons and does not occur in neuroprogenitor cells or immature neurons.
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PMID:Developmental status of neurons selectively vulnerable to rapidly triggered post-ischemic caspase activation. 1572 Dec 15

This study was carried out to investigate the transient ischemia-induced changes of neurofilament 200 kDa (NF-200) immunoreactivity and protein content in the gerbil lateral olfactory tract (LOT) after 5 min of transient forebrain ischemia. Weak NF-200 immunoreactivity was detectable in the LOT in the sham-operated group. In this group, a few somata of mitral cells showed weak NF-200 immunoreactivity. One day after transient ischemia, NF-200 immunoreactivity in the LOT was increased significantly. NF-200 immunoreactivity in the LOT by 15 days after ischemia was similar to that in the 1 day post-ischemic group. In this time period, strong NF-200 immunoreactivity was expressed in the mitral cell processes, but the immunoreactivity in the mitral cell somata was significantly decreased. Thereafter, NF-200 immunoreactivity in the LOT was decreased significantly by 30 days after ischemic insult. At this time after ischemia, NF-200 immunoreactivity in the mitral cell dendrites was significantly decreased. The result of Western blot study showed that the pattern of NF-200 expression was similar to that of immunohistochemistry after ischemia-reperfusion. Our result suggests that changes of NF-200 protein in the gerbil LOT may be related to response to ischemic damage and that the axonal transport followed transient ischemia may be disturbed.
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PMID:Chronological changes of neurofilament 200 kDa immunoreactivity in the lateral olfactory tract after transient forebrain ischemia in gerbils. 1572 19

Neural cell migration and differentiation may participate in neural repair after adult brain injury; however, the survival and differentiation of newly born cells after different brain lesions are poorly understood. We have examined the migration and fate of bromodeoxyuridine (BrdU)-labeled cells after a highly reproducible focal ischemic lesion restricted to the frontoparietal cortex in adult rats. Thermocoagulation of pial blood vessels induces a circumscribed degeneration of all cortical layers while sparing the corpus callosum and striatum and increases cell proliferation in the subventricular zone (SVZ) and rostral migratory stream (RMS) within 7 days. We now show that, although the rostral migration of the newly born SVZ cells and their differentiation into neurons in the olfactory bulb were not affected by the lesion, numerous cells expressing the neuroblast marker doublecortin migrated laterally in the striatum and corpus callosum 5 days postinjury. In addition to the SVZ, BrdU-labeled cells were seen in the striatum, in the corpus callosum, and around the lesion. One month later, BrdU-labeled cells in the corpus callosum expressed transferrin and the pi isoform of glutathione-S-transferase (GST-pi), markers of oligodendrocytes. Other BrdU+ cells expressed a marker of astrocytes, but none expressed neuronal markers, suggesting that new neurons do not form or survive under these conditions. Numerous BrdU-labeled cells were still observed in the SVZ and RMS. The data show that focal cortical ischemia does not lead to the long-term survival of new neurons in the striatum or cortex but induces long-term alterations in the SVZ and the production of new oligodendrocytes that may contribute to neural repair.
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PMID:Migration and fate of newly born cells after focal cortical ischemia in adult rats. 1575 Oct 27

Stem cells are totipotent cells of the blastocyst (embryonal stem cells) and multipotent germinative cells of ento-, ecto-, and mesoderm that give rise to all tissues during embryogenesis. The stem cells have high proliferation activity and an unlimited capacity for self-production by symmetrical mitosis. Asymmetrical mitosis of the stem cells generates daughter cells ("progenitor cells") with unlimited proliferation potential. During differentiation, the progenitor cells give rise to definitive somatic cells. The stem and progenitor cells are preserved in most tissues of adult organism and provide for the constant replacement of the cells after their physiological death and damage. At the end of last century, stem cells were found in the brain of the adult mouse and rat and later in the brain of other mammals including humans. The subependymal zone of the lateral ventricles is considered the site of stem cells localization; however, there are indications of stem cells origination from ependyma while the subependymal zone serves as a collector of the progenitor cells where these cells divide. The problem of the localization of stem cells in a mature brain has not yet been resolved and is actively discussed. The stem and progenitor cells, as well as neuro- and gliogenesis, are most explored in the hippocampus and olfactory bulb. The progenitor cells migrate to the olfactory bulb from the subependymal zone of the lateral ventricles via a rostral migratory stream formed by the astrocytes, and then they differentiate to neural and glial cells. In the hippocampus, the neurons are formed in the subgranular zone of dentate gyrus. The discovery of stem and progenitor cells in the mature brain and their subsequent investigation point to an ongoing neuro- and gliogenesis in all periventricular sections of the brain and spinal cord during the whole animal or human lifespan. These processes proved to be related to the functional condition of CNS, and the de novo formed neural and glial cells proved to be involved in certain brain functions. Stress inhibits the proliferation of the stem cells, while certain brain pathologies (ischemia, injury, or epilepsy) can promote their division. Isolating and cultivating in vitro the stem progenitor cells yeilded their long-living clones, revealed the factors of their directed differentiation, and demonstrated the application of the native and genetically modified stem cells for the intrabrain transplantation of the cell and gene therapy of certain experimental brain pathologies, which offers a promising application of the stem cells for CNS maladies treatment. The aim of this review is to introduce the readers to the state of foreign studies on the brain stem cells by the beginning of 2001.
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PMID:[Stem cells of mammalian brain: biology of the stem cells in vivo and in vitro]. 1592 30

Cerebral ischemia in adult rodent models increases the proliferation of endogenous neural progenitor cells residing in the subventricular zone along the anterior horn of the lateral ventricle (SVZ a) and induces neurogenesis in the postischemic striatum and cortex. Whether the adult primate brain preserves a similar ability in response to an ischemic insult is uncertain. We used the DNA synthesis indicator bromodeoxyuridine (BrdU) to label newly generated cells in adult macaque monkeys and show here that the proliferation of cells with a progenitor phenotype (double positive for BrdU and the markers Musashi 1, Nestin, and beta III-tubulin) in SVZ a increased during the second week after a 20-min transient global brain ischemia. Subsequent progenitor migration seemed restricted to the rostral migratory stream toward the olfactory bulb and ischemia increased the proportion of adult-generated cells retaining their location in SVZ a with a progenitor phenotype. Despite the lack of evidence for progenitor cell migration toward the postischemic striatum or prefrontal neocortex, a small but sustained proportion of BrdU-labeled cells expressed features of postmitotic neurons (positive for the protein Neu N and the transcription factors Tbr 1 and Islet 1) in these two regions for at least 79 days after ischemia. Taken together, our data suggest an enhanced neurogenic response in the adult primate telencephalon after a cerebral ischemic insult.
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PMID:Enhanced proliferation of progenitor cells in the subventricular zone and limited neuronal production in the striatum and neocortex of adult macaque monkeys after global cerebral ischemia. 1604 71

This study was carried out to investigate alterations of neurofilament 200 kDa (NF-200) and its polyphosphorylation form (RT97) immunoreactivity and protein content in the main olfactory bulb (MOB) after 5 min of transient forebrain ischemia in gerbils. In the sham-operated group, weak NF-200 immunoreactivity was detectable in a few somata of mitral cells, which projected weak NF-200-immunoreactive processes to the external plexiform layer (EPL). At 1-5 days after ischemia, strong NF-200 and RT97 immunoreactivity was shown by the mitral cell processes; however, somata of mitral cells did not show NF-200 immunoreactivity. At this time point, strong NF-200-immunoreactive mitral cell processes ran to the EPL and glomerular layer (GL). Thereafter, NF-200 and RT97 immunoreactivity was decreased up to 30 days after ischemia. In the 15 days post-ischemic group, the distribution pattern of NF-200 and RT97 immunoreactivity was slightly lower than that in the 1-5 days post-ischemic groups. In the 30 days post-ischemic group, moderate NF-200 and RT97 immunoreactivity was found in the mitral cells processes, but the immunoreactivity in the EPL and GL nearly disappeared. A Western blot study showed a pattern of NF-200 and RT97 expression at all post-ischemic time points similar to that of immunohistochemistry after ischemia. This result indicates that NF-200 and RT97 accumulates in injured mitral cell processes a few days after transient ischemia, which suggests that the axonal transport in the MOB may be disturbed during this period after transient ischemia.
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PMID:Transient ischemia-induced changes of neurofilament 200 kDa immunoreactivity and protein content in the main olfactory bulb in gerbils. 1614 Mar 42

Heme oxygenase (HO) enzymes catalyze the breakdown of heme to iron, carbon monoxide (CO), and biliverdin, which is rapidly converted to bilirubin. HO-2 has been implicated in protection against oxidative stress, ischemia, and traumatic brain injury. The neuroprotective effects of HO-2 have been attributed to the generation of bilirubin, which is an important radical scavenger. However, the mechanism by which HO-2 provides protection is unclear. We utilized the olfactory system as a model to define the roles of HO-2 in glutathione depletion-induced oxidative injury, since olfactory receptor neurons (ORNs) express high levels of HO isoforms. We demonstrated that L-buthionine-[S, R]-sulfoximine (BSO), an inhibitor of glutathione biosynthesis, lowered glutathione levels and induced apoptosis of ORNs. Despite the presence of HO-1 in ORNs, HO-2 null animals displayed increased levels of neuronal death after BSO treatment compared to wild type mice. Levels of bilirubin and cGMP were also reduced in HO-2 null mice. Primary cultures of ORNs confirmed that the neuroprotective role of HO-2 was mediated by bilirubin and cGMP. Taken together, these results suggest that HO-2 plays a major role in neuroprotection from oxidative stress, an effect that is mediated by cGMP and bilirubin.
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PMID:Heme oxygenase-2 protects against glutathione depletion-induced neuronal apoptosis mediated by bilirubin and cyclic GMP. 1618 Nov 4

Perinatal brain injury results in one of the highest burdens of disease in view of the lifelong consequences and is of enormous cost to society. This makes it imperative to develop better animal models that mimic the human condition. Many neurodevelopmental deficits, such as cerebral palsy, are believed to be a result of prenatal hypoxia-ischemia in humans. Fetal global hypoxia-ischemia is most commonly a consequence of acute placental insufficiency. Our laboratory has modeled in utero sustained and repetitive hypoxia-ischemia in the pregnant rabbit to mimic the insults of abruptio placenta and labor, respectively. Sustained hypoxia-ischemia at 70% (22 days' gestation) and 79% (25 days' gestation) and repetitive hypoxia-ischemia at 90% gestation (28 days' gestation) caused stillbirths and multiple deficits in the postnatal survivors. The deficits included impairment in multiple tests of spontaneous locomotion, reflex motor activity, motor responses to olfactory stimuli, and the coordination of suck and swallow. Hypertonia was observed in the 22 and 25 days' gestation survivors but not in the 28 days' gestation group. Hypertonic survivors were artificially fed and found to have the motor deficits persist for at least 11 postnatal days. A spectrum of brain abnormalities is found on magnetic resonance imaging. This is the first animal model to mimic cerebral palsy. The findings also suggest a window of vulnerability during brain development when the injury results in hypertonia in newborn pups.
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PMID:Model of cerebral palsy in the perinatal rabbit. 1641 45

The anterior subventricular zone of the adult mammalian brain contains progenitor cells which are upregulated after cerebral ischemia. We have previously reported that while a part of the progenitors residing in adult monkey anterior subventricular zone travels to the olfactory bulb, many of these cells sustain location in the anterior subventricular zone for months after injury, exhibiting a phenotype of either neural or neuronal precursors. Here we show that ischemia increased the numbers of anterior subventricular zone progenitor cells expressing developmentally regulated transcription factors including Pax6 (paired-box 6), Emx2 (empty spiracles-homeobox 2), Sox 1-3 (sex determining region Y-box 1-3), Ngn1 (neurogenin 1), Dlx1,5 (distalless-homeobox 1,5), Olig1,3 (oligodendrocyte lineage gene 1,3) and Nkx2.2 (Nk-box 2.2), as compared with control brains. Analysis of transcription factor protein expression by sustained neural or neuronal precursors in anterior subventricular zone revealed that these two cell types were positive for characteristic sets of transcription factors. The proteins Pax6, Emx2, Sox2,3 and Olig1 were predominantly localized to dividing neural precursors while the factors Sox1, Ngn1, Dlx1,5, Olig2 and Nkx2.2 were mainly expressed by neuronal precursors. Further, differences between monkeys and non-primate mammals emerged, related to expression patterns of Pax6, Olig2 and Dlx2. Our results suggest that a complex network of developmental signals might be involved in the specification of primate progenitor cells.
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PMID:Transcription factor protein expression patterns by neural or neuronal progenitor cells of adult monkey subventricular zone. 1658 Jan 39

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