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: EC:3.4.22.56 (caspase-3)
35,750 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Stem cell therapy is a hope for the treatment of some childhood neurological disorders. We examined whether human neural stem cells (hNSCs) replace lost cells in a newborn mouse model of brain damage. Excitotoxic lesions were made in neonatal mouse forebrain with the N-methyl-D-aspartate (NMDA) receptor agonist quinolinic acid (QA). QA induced apoptosis in neocortex, hippocampus, striatum, white matter, and subventricular zone. This degeneration was associated with production of cleaved caspase-3. Cells immunopositive for inducible nitric oxide synthase were present in damaged white matter and subventricular zone. Three days after injury, mice received brain parenchymal or intraventricular injections of hNSCs derived from embryonic germ (EG) cells. Human cells were prelabeled in vitro with DiD for in vivo tracking. The locations of hNSCs within the mouse brain were determined through DiD fluorescence and immunodetection of human-specific nestin and nuclear antigen 7 days after transplantation. hNSCs survived transplantation into the lesioned mouse brain, as evidenced by human cell markers and DiD fluorescence. The cells migrated away from the injection site and were found at sites of injury within the striatum, hippocampus, thalamus, and white matter tracts and at remote locations in the brain. Subsets of grafted cells expressed neuronal and glial cell markers. hNSCs restored partially the complement of striatal neurons in brain-damaged mice. We conclude that human EG cell-derived NSCs can engraft successfully into injured newborn brain, where they can survive and disseminate into the lesioned areas, differentiate into neuronal and glial cells, and replace lost neurons. (c) 2005 Wiley-Liss, Inc.
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PMID:Transplanted human embryonic germ cell-derived neural stem cells replace neurons and oligodendrocytes in the forebrain of neonatal mice with excitotoxic brain damage. 1624 3

Increased expression of insulin-like growth factor-I (IGF-I) in embryonic neural progenitors in vivo has been shown to accelerate neuron proliferation in the neocortex. In the present study, the in vivo actions of (IGF-I) on naturally occurring neuron death in the cerebral cortex were investigated during embryonic and early postnatal development in a line of transgenic (Tg) mice that overexpress IGF-I in the brain, directed by nestin genomic regulatory elements, beginning at least as early as embryonic day (E) 13. The areal density of apoptotic cells (N(A), cells/mm2) at E16 in the telencephalic wall of Tg and littermate control embryos was determined by immunostaining with an antibody specific for activated caspase-3. Stereological analyses were conducted to measure the numerical density (N(V), cells/mm3) and total number of immunoreactive apoptotic cells in the cerebral cortex of nestin/IGF-I Tg and control mice at postnatal days (P) 0 and 5. The volume of cerebral cortex and both the N(V) and total number of all cortical neurons also were determined in both cerebral hemispheres at P0, P5 and P270. Apoptotic cells were rare in the embryonic telencephalic wall at E16. However, the overall N(A) of apoptotic cells was found to be significantly less by 46% in Tg embryos. The volume of the cerebral cortex was significantly greater in Tg mice at P0 (30%), P5 (13%) and P270 (26%). The total number of cortical neurons in Tg mice was significantly increased at P0 (29%), P5 (29%) and P270 (31%), although the N(V) of cortical neurons did not differ significantly between Tg and control mice at any age. Transgenic mice at P0 and P5 exhibited significant decreases in the N(V) of apoptotic cells in the cerebral cortex (31% and 39%, respectively). The vast majority of these apoptotic cells (> 90%) were judged to be neurons by their morphological appearance. Increased expression of IGF-I inhibits naturally occurring (i.e. apoptotic) neuron death during early postnatal development of the cerebral cortex to a degree that sustains a persistent increase in total neuron number even in the adult animal.
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PMID:Insulin-like growth factor-I (IGF-I) inhibits neuronal apoptosis in the developing cerebral cortex in vivo. 1745 48

Alcohol exposure during pregnancy may cause fetal alcohol syndrome (FAS), characterized by impaired cognitive functions. Neurogenesis occurs in the adult hippocampus and is functionally associated with learning, memory, and mood disorders. However, whether early postnatal exposure to alcohol impairs neurogenesis and through which mechanisms it occurs is poorly understood. Here, we report that a single episode of alcohol exposure in postnatal day 7 (P7) decreases neurogenesis in the adult hippocampus. Furthermore, we demonstrate a co-localization of glial fibrillar acidic protein, nestin, and vimentin with activated caspase-3 12 h after ethanol treatment. Finally, we show that the number of primary neurospheres derived from the hippocampi of alcohol-exposed mice is reduced compared to controls. These findings suggest that alcohol exposure in postnatal mice reduces the pool of neural stem/progenitor cells in the DG, and subsequently results in a decrease of adult neurogenesis. This may explain certain aspects of impaired hippocampal functions in FAS.
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PMID:Single alcohol exposure in early life damages hippocampal stem/progenitor cells and reduces adult neurogenesis. 1749 Aug 87

Here, we show that alpha(1)-adrenoceptor agonists suppress stress-induced death of mouse embryonic brain-derived neural progenitor cells (NPCs). NPCs highly expressed both alpha(1A)- and alpha(1B)-adrenoceptor genes, whereas the gene encoding alpha(1D)-adrenoceptor was expressed at low levels. Application of the alpha(1)-adrenoceptor agonists phenylephrine and cirazoline significantly promoted cell survival of embryonic NPCs that had been exposed to stress, as measured by a lactate dehydrogenase release assay, but had no remarkable effect on differentiation of the NPCs. Both phenylephrine and cirazoline protected NPCs from death induced by growth factor deprivation, N2 nutrient deprivation, tunicamycin treatment or staurosporine treatment. Phenylephrine and cirazoline treatments both maximally reduced stress-induced cell death by approximately 60% but did not change the percentage of undifferentiated cells as measured by nestin staining. Moreover, phenylephrine and cirazoline treatments did not affect the cellular activities of caspase-3 and caspase-7 but markedly reduced propidium iodide penetration into the cytoplasm, suggesting that alpha(1)-adrenoceptor agonists inhibit caspase-3/7-independent death of the embryonic NPCs.
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PMID:Alpha 1-adrenoceptor agonists protect against stress-induced death of neural progenitor cells. 1764 16

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

The anti-neoplastic effects of histone deacetylase inhibitors (HDACi), Trichostatin A (TSA) and 4-phenylbutyrate (4-PB) on the human glioblastoma cell lines GBM-29, U-343 MG and U-343 MGa Cl. 2:6 were investigated. TSA and 4-PB induced apoptosis in the three cell lines in a dose- and time-dependent manner. Whereas caspase-3 activation was detected in all three cell lines, U-343 MG cells were more sensitive to the apoptotic effect of HDACi compared with U-343 MGa Cl. 2:6. TSA and 4-PB induced differentiation in the three cell lines, each cell line developing unique phenotypic characteristics. During long-term treatment with a low dose of HDACi U-343 MGa Cl. 2:6 cells developed an astrocytic morphology with expression of glial fibrillary acidic protein (GFAP). GFAP-negative U-343 MG cells changed their morphology in response to HDACi and down-regulated their expression of vimentin. The nestin and vimentin positive GBM-29 cells also showed a morphological differentiation, while the expression of the two malignancy markers decreased. In summary, our results showed that these three glioblastoma cell lines display unique phenotypes and differentiation patterns in response to HDACi.
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PMID:HDAC inhibitors effectively induce cell type-specific differentiation in human glioblastoma cell lines of different origin. 1836 Jul 9

Nitric oxide (NO) has been implicated in the promotion of neurodegeneration. However, little is known about the relationship between NO and the self-renewal or differentiation capacity of neural stem cells (NSCs) in neurodegenerative disease. In this study, we investigated the effect of NO on self-renewal of NSCs in an animal model for Niemann-Pick type C (NPC) disease. We found that NO production was significantly increased in NSCs from NPC1-deficient mice (NPC1-/-), which showed reduced NSC self-renewal. The number of nestin-positive cells and the size of neurospheres were both significantly decreased. The expression of NO synthase (NOS) was increased in neurospheres derived from the brain of NPC1-/- mice in comparison to wild-type neurospheres. NO-mediated activation of glycogen synthase kinase-3beta (GSK3beta) and caspase-3 was also observed in NSCs from NPC1-/- mice. The self-renewal ability of NSCs from NPC1-/- mice was restored by an NOS inhibitor, L-NAME, which resulted in the inhibition of GSK3beta and caspase-3. In addition, the differentiation ability of NSCs was partially restored and the number of Fluoro-Jade C-positive degenerating neurons was reduced. These data suggest that overproduction of NO in NPC disease impaired the self-renewal of NSCs. Control of NO production may be key for the treatment of NPC disease.
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PMID:Impaired functions of neural stem cells by abnormal nitric oxide-mediated signaling in an in vitro model of Niemann-Pick type C disease. 1839 47

Sequential cleavage of the amyloid precursor protein (APP) by beta- and then gamma- secretase gives rise to Abeta(1-40) (Abeta40), a major species of Abeta (beta-amyloid) produced by neurons under physiological conditions. Abeta(1-42) (Abeta42), a minor species of Abeta, is also produced by a similar but less understood mechanism of the gamma-secretase. The physiological functions of these Abeta species remain to be defined. In this report, we demonstrate that freshly prepared soluble Abeta40 significantly promotes neurogenesis in primary neural progenitor cells (NPCs). First, Abeta40 increases neuronal markers as determined by NeuN expression and Tuj1 promoter activity, differing from Abeta42, which induces astrocyte markers in NPCs. Second, Abeta40 induces neuronal differentiation at the end of S-phase in the cell cycle. Third, Abeta40 promotes NPC entry into S-phase, playing a role in NPC self-renewal. Interestingly, Abeta40 does not significantly increase apoptotic indexes such as DNA condensation and DNA fragmentation. In addition, Abeta40 does not augment caspase-3 activation in NeuN(+) or nestin(+) cells. Collectively, this report provides strong evidence that Abeta40 is a neurogenic factor and suggests that the debilitated function of Abeta40 in neurogenesis may account for the shortage of neurons in Alzheimer's disease.
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PMID:Abeta40 promotes neuronal cell fate in neural progenitor cells. 1856

Opiates, such as morphine, decrease neurogenesis in the adult hippocampal subgranular zone (SGZ), raising the possibility that decreased neurogenesis contributes to opiate-induced cognitive deficits. However, there is an incomplete understanding of how alterations in cell cycle progression and progenitor maturation contribute to this decrease. The present study examined how morphine regulates progenitor cell cycle, cell death and immature SGZ neurons (experiment 1) as well as the progression of SGZ progenitors through key stages of maturation (experiment 2). In experiment 1, mice received sham or morphine pellets (s.c., 0 and 48 h) and bromodeoxyuridine (BrdU) 2 h prior to sacrifice (24, 72 or 96 h). Morphine decreased both the number of S phase and total cycling cells, as there were fewer cells immunoreactive (IR) for the S phase marker BrdU and the cell cycle marker Ki67. The percentage of Ki67-IR cells that were BrdU-IR was decreased after 24 but not 96 h of morphine, suggesting a disproportionate effect on S phase cells relative to all cycling cells at this time point. Cell death (activated caspase-3 counts) was increased after 24 but not 96 h. In experiment 2, nestin-green fluorescent protein (GFP) mice given BrdU 1 day prior to morphine or sham surgery (0 and 48 h, sacrifice 96 h) had fewer Ki67-IR cells, but no change in BrdU-IR cell number, suggesting that this population of BrdU-IR cells was less sensitive to morphine. Interestingly, examination of key stages of progenitor cell maturation revealed that morphine increased the percent of BrdU-IR cells that were type 2b and decreased the percent that were immature neurons. These data suggest that chronic morphine decreases SGZ neurogenesis by inhibiting dividing cells, particularly those in S phase, and progenitor cell progression to a more mature neuronal stage.
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PMID:Time course of morphine's effects on adult hippocampal subgranular zone reveals preferential inhibition of cells in S phase of the cell cycle and a subpopulation of immature neurons. 1883 14

We evaluated the effect of islet neogenesis-associated protein pentadecapeptide (INGAP-PP) upon islet beta- and non-beta cell differentiation from mouse embryonic stem (mES) cells. ES-D3 cell lines were cultured following Lumelsky's protocol with or without INGAP-PP (5 microg/ml) at different stages. Gene expression was quantified using qPCR. mES cells were fixed and immunostained using anti insulin-, somatostatin-, glucagon-, Pdx-1-, Ngn-3-, Nkx-6.1 and PGP9.5 specific antibodies. PCNA was used to measure replication rate. Bcl(2) (immunostaining) and caspase-3 (enzyme activity and gene expression) were determined as apoptosis markers. INGAP-PP increased IAPP, Glut-2, Kir-6.2, SUR-1 and insulin gene expression, and the percentage of insulin-immunostained cells. Conversely, INGAP-PP reduced significantly glucagon and somatostatin gene expression and immunopositivity. While nestin gene expression was not affected, there was a significant reduction in the percentage of PGP9.5-immunostained cells. Pdx-1 gene expression increased by 115% in INGAP-PP treated cells, as well as the percentage of Pdx-1, Ngn-3 and Nkx-6.1 immunopositive cells. Neither caspase-3 (expression and activity) nor Bcl(2) positively immunostained cells were affected by INGAP-PP. Accordingly, INGAP-PP would promote stem cell differentiation into a beta-like cell phenotype, simultaneously decreasing its differentiation toward non-beta-cell precursors. Therefore, INGAP-PP would be potentially useful to obtain beta-cells from stem cells for replacement therapy.
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PMID:Selective effect of INGAP-PP upon mouse embryonic stem cell differentiation toward islet cells. 1915 49


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