UMLS:C0027819 - FACTA Search

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Query: UMLS:C0027819 (neuroblastoma)
27,800 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The phosphorylation of H1 histone subfractions was measured in mouse neuroblastoma cells stopped from dividing by three treatments that block cell division: 5 mM butyrate, 2% dimethyl sulfoxide, and serum withdrawal. H1 histone phosphorylation decreased in response to all three treatments, but the response differed in its timing and its extent for the different H 1 subfractions. The different decreases in phosphorylation correlated well with the differential decreases in biosynthesis of the individual H1 subfractions; however, an exception to this parallel decrease in synthesis and phosphorylation was observed in the case of histone H1(0). Phosphorylation of H1(0) was absent in each of the three treatments after 2 days, despite the continued synthesis and deposit of H1(0) on the chromatin. Thus, despite the fact that H1(0) was being synthesized and that the other newly synthesized H1 subfractions were phosphorylated at this time, the phosphorylation of H1(0) became uncoupled from its synthesis after prolonged treatments blocking cell division.
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PMID:In nondividing cells, histone H1(0) is synthesized and deposited onto chromatin without accompanying phosphorylation. 395 9

Chromosomal high mobility group (HMG) proteins HMG1 and HMG2 from mouse neuroblastoma cells and Friend erythroleukemic cells were analyzed by acetic acid/urea/polyacrylamide gel electrophoresis. Compared to rapidly growing cells, levels of HMG1 and HMG2 were decreased in mouse neuroblastoma cells that had been induced to differentiate by serum deprivation. This comparison revealed a reciprocal relationship between these HMG proteins and H10, a histone known to be in higher concentrations in nondividing cells. When cell growth was inhibited by means of density inhibition, however, HMG1 and -2 levels were not affected in either HeLa or mouse neuroblastoma cells, even though H10 did not accumulate. This observation establishes that HMG1 and -2 contents are not correlated with mitotic rate per se. Treatment of mouse neuroblastoma by sodium butyrate, which stops cell division without commitment to differentiation, had no effect on the level of HMG1 and -2. However, the level was decreased by dibutyryl cyclic AMP and dimethyl sulfoxide treatments, which, like serum deprivation, induced irreversible morphological differentiation in the neuroblastoma cells. Moreover, induction of differentiation (hemoglobin synthesis) in Friend erythroleukemic cells by dimethyl sulfoxide showed a decrease in the contents of HMG1 and -2. These observations suggest that preferential loss of HMG1 and -2 in mouse neuroblastoma and Friend erythroleukemia cells may be related to commitment of these cells to differentiation.
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PMID:Loss of chromosomal high mobility group proteins HMG1 and HMG2 when mouse neuroblastoma and Friend erythroleukemia cells become committed to differentiation. 645 11

In an effort to minimize subjective bias, a classification scheme was devised to assess Giemsa staining patterns obtained with experiments involving acetic acid-alcohol and exogenously applied histone 1 and polypeptides. A single rinse of metaphase preparations with acetic acid-alcohol quantitatively reduced Giemsa dye binding. Acid-alcohol irreversibly changed the conformation of H1 and its ability to interfere with trypsin G-banding. Our results suggest that, in addition to protein extraction, acid-alcohol may alter the conformation of acid-insoluble components of metaphase chromosomes. The carboxy-terminal polypeptide (residues 73--212) from NBS cleavage of H1 was an effective inhibitor of Giemsa staining and trypsin G-banding. However, this polypeptide which is preferential for supercoiled DNA was much less efficient in inhibiting Giemsa staining of trypsinized metaphase chromosomes. The molecular consequences of these experiments are discussed.
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PMID:Effects of acetic acid-alcohol, trypsin, histone 1 and histone fragments on Giemsa staining patterns in chromosomes. 737 4

We examined the effects of endogenous basic proteins rich in the amino acid L-arginine on neuronal NO synthase activity by monitoring cyclic GMP formation in intact neuron-like neuroblastoma N1E-115 cells. Histone, protamine and myelin basic protein significantly stimulated cyclic GMP formation, both in a time- and concentration-dependent manner. These effects were blocked by hemoglobin and NO synthase inhibitors. Removal of the extracellular/intracellular Ca2+ gradient by a Ca2+ chelator completely abolished the cyclic GMP responses elicited by histone and protamine, suggesting that influx of extracellular Ca2+ might be involved in their activation of NO synthase. The effects of myelin basic protein on cyclic GMP formation, however, appeared to be due to Ca2+ release from intracellular stores. In cytosolic preparations of rat cerebellum, these basic proteins inhibited the metabolism of L-arginine into L-citrulline by NO synthase. We conclude from our findings that endogenous basic proteins might be involved in the regulation of neuronal NO synthase activity. Their effects on the enzyme could be either stimulatory or inhibitory, depending on whether the basic proteins exert their effects extracellularly or intracellularly, respectively.
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PMID:Regulation of neuronal nitric oxide synthase by histone, protamine, and myelin basic protein. 754 48

The biochemical properties and distribution of a Cdc2-related kinase, KKIALRE, were studied in brain tissues and cultured cells with antibodies to a subregion of KKIALRE protein deduced from cDNA. In adult human brain, the KKIALRE-immunoreactive protein consisted of four or five isoforms having a molecular size of 40-52 kDa, whereas in fetal brain, there was one protein of approximately 48 kDa. Cultured astrocytes, neuroblastoma cells, and mouse brains contained the fetal form of KKIALRE protein. KKIALRE-immunoreactive proteins were capable of phosphorylating histone and synthetic peptides with the X-Ser-Pro-X motif, indicating that these proteins belong to the proline-directed Ser/Thr protein kinase family. The KKIALRE immunoreactivity was detected primarily in fibrous astrocytes in white matter and perivascular and subpial spaces, as well as in Bergmann glia in the cerebellum. In fetal brains radial glia were weakly immunoreactive. Reactive astrocytes were more intensely labeled than other glia. Neurons in normal brains and brains with Alzheimer's disease (AD) displayed no KKIALRE immunoreactivity. KKIALRE immunoreactivity was similar in neurons with and without neurofibrillary tangles. The results indicate that in CNS, the KKIALRE protein is mainly a glial protein that is up-regulated in gliosis and that it probably plays no role in the hyperphosphorylation of tau in AD brains.
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PMID:The distribution and biochemical properties of a Cdc2-related kinase, KKIALRE, in normal and Alzheimer brains. 759 54

Histone acetylation has a key role in transcriptional activation, whereas deacetylation of histones correlates with the transcriptional repression and silencing of genes. Genetic repression may have an important role in neuronal aging, atrophy and degenerative diseases. Our aim was to study how histone deacetylase inhibitors, trichostatin A (TSA) and sodium butyrate, affect the metabolism of cultured rat cerebellar granule neurons and mouse Neuro-2a neuroblastoma cells. Cultured cells were exposed to 1-3 microM TSA and 1-10 mM butyrate for 1-2 days. Both of these inhibitors induced a prominent neuronal apoptosis characterized by morphological changes as well as by the activation of caspase-3 protease and subsequent cleavage of poly(ADP-ribose) polymerase, one of the caspase-3 targets. Caspase-3 activities reached the highest level on the second day after treatment, higher in the proliferating neuroblastoma cells than in the cerebellar granule neurons. Caspase-3 activation and morphological changes were prevented by cycloheximide treatment. Histone deacetylase inhibitors increased the DNA-binding activities of AP1, CREB and NF-kappaB transcription factors. These observations show that an excessive level of histone acetylation induces a stress response and an apoptotic cell death in neuronal cells.
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PMID:Neuronal apoptosis induced by histone deacetylase inhibitors. 979 19

mSin3 proteins have an important role in transcriptional repression mediated by histone deacetylation. Our purpose was to find out whether apoptosis affects the expression of mSin3 proteins in neuroblastoma 2a cells. We observed that neuronal apoptosis, induced by serum withdrawal or by treatment with etoposide, okadaic acid or trichostatin A, induced a prominent increase in mSin3A protein expression but did not affect the level of mSin3B protein. Trichostatin A, an inhibitor of histone deacetylases, induced the most prominent upregulation of mSin3A protein. Metabolic labeling and immunoprecipitation of mSin3A showed a marked increase in the synthesis of mSin3A protein in agreement with the immunoblotting results. Interestingly, the expression of mSin3A preceded the activation of caspase-3 and the execution phase of neuronal apoptosis. These results suggest that the expression of mSin3A proteins may provide a regulation mechanism to enhance transcriptional repression or silencing of genes during neuronal apoptosis, as well as during degenerative diseases.
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PMID:Expression of transcriptional repressor protein mSin3A but not mSin3B is induced during neuronal apoptosis. 981 82

Estrogen receptors (ER alpha/ER beta) are expressed in neuronal cells and exhibit a variety of activities in the central nervous system. ER activity is regulated in a ligand-dependent manner and by co-regulatory factors. Caveolin-1 is a recently identified co-activator of ER alpha mediating the ligand-independent activation of this steroid receptor. Here the influence of ERs on caveolin expression in human neuroblastoma SK-N-MC cells as well as in rodent brain was investigated. We found that ectopic expression of ER alpha in SK-N-MC cells (SK-ER alpha) leads to a ligand-independent transcriptional suppression of caveolin-1/-2 genes. This suppression is specifically mediated by ER alpha and not ER beta because ER beta counteracts the observed caveolin-silencing process. Interestingly, decreased caveolin expression in SK-ER alpha is accompanied by changes in the methylation pattern of caveolin promoters. The analysis of selected promoter regions of the human caveolin-1 gene showed that certain CpG dinucleotides were hypermethylated in SK-ER alpha cells, whereas the same sites were unmethylated in control, ER beta-, and ER alpha/beta co-expressing SK-N-MC cells. Inhibition of DNA methylation or histone deacetylation led to partial re-expression of caveolin-1/-2 genes in SK-ER alpha. In vivo analysis revealed a down-regulation of caveolin-1 expression after long term estrogen exposure in certain regions of the mouse brain. In conclusion, we have shown for the first time that ER alpha and not ER beta silences caveolin-1/-2 expression in an epigenetic fashion in neuronal cells. The observed mechanism of gene silencing by ER alpha may have implications for the transcriptional regulation of further ER alpha target genes.
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PMID:Estrogen receptor alpha-mediated silencing of caveolin gene expression in neuronal cells. 1213 16

The antitumor efficacy of the synthetic benzamide derivative MS-27-275 (MS-275), an inhibitor of histone deacetylation [T. Suzuki et al., J. Med. Chem., 42: 3001-3003, 1999], was evaluated in a series of pediatric solid tumor cell lines, including neuroblastoma, rhabdomyosarcoma, Ewing's sarcoma (EWS), retinoblastoma, medulloblastoma, undifferentiated sarcoma (US), osteosarcoma, and malignant rhabdoid tumors. Treatment with MS-275 results in an increase in acetylation of histones within 4 h of drug exposure. The cell lines were treated with various concentrations of MS-275 for 3 days and incubated with [(3)H]thymidine for 20 h before cell harvest. MS-275 inhibited [(3)H]thymidine uptake in a dose-dependent manner in all tumor cell lines examined. The IC(50) ranged from 50 nm in the D283 medulloblastoma cell line to 1.3 micro M in the US. A common feature of MS-275 treatment of pediatric tumor cell lines was induction of p21mRNA. However, the effects on cell cycle were diverse because in some cases MS-275 induced an increase in G(1) or G(2), whereas in others, there was an induction of apoptosis. In EWS, the EWS/fli chimeric transcription factor created by the t(11;22) suppresses transforming growth factor (TGF) betaRII transcription, however, MS-275 was able to induce an increase in TGF-betaRII mRNA and restore TGF-beta signaling. Using xenograft orthotopic models of US, EWS, and neuroblastoma, we find that the growth of established tumors is inhibited in mice treated with MS-275.
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PMID:MS-27-275, an inhibitor of histone deacetylase, has marked in vitro and in vivo antitumor activity against pediatric solid tumors. 1241 35

Chromatin remodeling is one of the mechanisms by which gene expression is regulated developmentally. Chromatin structure is controlled at least in part by post-translational modification of histones, as well as by chromodomain proteins. We have identified a novel gene encoding a protein with chromatin remodeling, helicase and DNA-binding motifs. This gene, called CHD5, is the fifth member of the CHD gene family identified in humans. This gene is most homologous to CHD3 and CHD4, which encode proteins that are part of the nucleosome remodeling and histone deacetylation (NuRD) complex. CHD5 is preferentially expressed in total brain, fetal brain, and cerebellum. It is also moderately expressed in the adrenal gland, but expression is undetectable in almost all other tissues examined. CHD5 maps within a small region of deletion on 1p36.3 in human neuroblastomas, a common pediatric tumor. We examined a panel of neuroblastoma cell lines for CHD5 expression, which was consistently low or undetectable in all these lines. Expression was also examined in a panel of 137 primary neuroblastomas, and low expression was highly correlated with 1p deletion, MYCN amplification, advanced stage, and unfavorable histology. These findings suggest that this gene may play a role in the development of the nervous system, and it may also play a role in the pathogenesis of neural tumors.
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PMID:CHD5, a new member of the chromodomain gene family, is preferentially expressed in the nervous system. 1259 87

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