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)

Activin acts mitogenically on P19 cells as well as being inhibitory of the differentiation of retinoic acid-treated P19 cells and some neuroblastoma cell lines. Here, we show some lines of evidence that follistatin, an activin-binding protein, is also involved in neural differentiation. Counteracting the activity of activin, addition of follistatin suppresses the anchorage-independent growth of P19 cells in soft agar and stimulates neurite outgrowth of a neuroblastoma cell line, IMR-32 cells. While activin does not seem to be expressed significantly, follistatin is demonstrated in the conditioned medium of these cells. Furthermore, the expression of follistatin in P19 cells is subject to dynamic fluctuations in response to retinoic acid treatment. These neural cells may produce follistatin in a cell stage-specific manner in order to interact with exogenously derived activin.
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PMID:Follistatin is a developmentally regulated cytokine in neural differentiation. 131 91

Necdin is a polypeptide sequence encoded by neural differentiation-specific mRNA derived from embryonal carcinoma cells. We have examined the expression of necdin and its mRNA in cultured cells and mouse brain by Northern blot analysis and immunohistochemistry. Among various established cell lines including neuroblastoma and glioma cells, only differentiated embryonal carcinoma cells (P19 and F9) expressed necdin mRNA. Necdin immunoreactivity was localized in the nuclei of differentiated neurons derived from P19 cells. Necdin mRNA was detected throughout brain regions of adult mouse; the relative abundances in the hypothalamus and midbrain were the highest, whereas those in the olfactory bulb and cerebellum were the lowest. In developing mouse brain, necdin mRNA was expressed during early periods of neuronal generation and differentiation, and the peak levels were attained during postnatal days 1-4. Necdin immunoreactivity was not detected in the neural stem cells on embryonic day 10, but was concentrated in the nuclei of brain cells, mostly neurons, at advanced stages of differentiation. The majority of differentiated neurons in the brain had necdin-immunoreactive nuclei on postnatal day 33. Thus, necdin may represent a valuable molecular marker for differentiated neurons both in vitro and in vivo.
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PMID:Expression of necdin, an embryonal carcinoma-derived nuclear protein, in developing mouse brain. 139 72

Activin/EDG, a stimulator of the secretion of follicle stimulating hormone (FSH) from pituitary gland and an inducer of erythroid differentiation for Friend leukemia cells, has since been implicated in a variety of biological roles. Here, we show some novel effects of activin on murine embryonal carcinoma cells (EC cells). First, activin acts as a growth factor on undifferentiated P19 cells, a well characterized EC cell line for the study of mammalian development. Second, activin inhibits the retinoic acid (RA) induced differentiation of P19 cells to neurons and glial cells. The inhibitory effect of activin on neural differentiation, which has yet to be proved in other physiological peptides, is confirmed also on the differentiation of various neuroblastoma cell lines. Our results suggest a possible role of activin as a negative regulator of neural differentiation in mammalian development.
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PMID:Activin/EDF as an inhibitor of neural differentiation. 225 14

Here we report that protein tyrosine phosphatases (PTPases), like their enzymatic counterpart the protein tyrosine kinases, can play an important role in cell differentiation. Expression of the transmembrane PTPase receptor protein tyrosine phosphatase alpha (RPTP alpha) is transiently enhanced during neuronal differentiation of embryonal carcinoma (EC) and neuroblastoma cells. Retinoic acid induces wild type P19 cells to differentiate into endoderm- and mesoderm-like cells. By contrast, retinoic acid treatment leads to neuronal differentiation of P19 cells, ectopically expressing functional RPTP alpha, as illustrated by their ability to generate action potentials. Endogenous pp60c-src kinase activity is enhanced in the RPTP alpha-transfected cells, which may be due to direct dephosphorylation of the regulatory Tyr residue at position 527 in pp60c-src by RPTP alpha. Our results demonstrate that RPTP alpha is involved in neuronal differentiation and imply a role for pp60c-src in the differentiation process.
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PMID:Receptor protein tyrosine phosphatase alpha activates pp60c-src and is involved in neuronal differentiation. 769 97

Cell extracts from HeLa, macrophage, glial, C6, PC12, IMR-32, neuroblastoma, CHP-100 and P19 cells were examined for APP and its different derivatives by immunoblotting. When five antibodies (raised against different parts of APP) were used to stain western blots of nine cell extracts, three groups of immunoreactive proteins were observed: high molecular weight-(HMW, 70-125 kDa), medium molecular weight-(MMW, 30-40 kDa) and low molecular weight (LMW, 4-16 kDa). The intensity of immunoreactivity among these three groups of proteins varied in each cell line. The strongest signal for HMW protein was observed in PC 12 cells, the strongest signal for MMW protein was observed in C6 astrocyte cells, and both HMW and MMW protein bands were detected in macrophages and P19 cell lines. LMW protein bands could be detected only by antibody against the carboxyl-terminal part of the APP molecule. These experiments suggest that APP is processed differently in the various cell types. The conversion of APP to beta-peptide may be related to the stability of APP in cells and the understanding of these intermediate steps of APP processing is crucial to the elucidation of Alzheimer's disease.
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PMID:The stability of beta-amyloid precursor protein in nine different cell types. 850 38

The recently identified Alzheimer's disease-associated presenilin 1 and 2 (PS1 and PS2) genes encode two homologous multi membrane-spanning proteins. Rabbit antibodies to the N-terminal domain of PS1 detected PS1 in human neuroblastoma SH-SY5Y wild type and PS1 transfectants (SY5Y-PS1) as well as in mouse P19, in CHO-K1 and CHO-APP770 transfected cells, in rat cerebellar granule and hippocampal neurons, and astrocytes. Immunoblotting detected full-length protein of 50 kDa, and a major presumptive cleavage product of 30 kDa. The immunofluorescence pattern resembled labeling of the endoplasmic reticulum-Golgi intermediate compartment (ERGIC) marker protein ERGIC-53. PS1 distribution showed slight condensation after brefeldin A and more marked condensation after incubation of cells at 16 degrees C, characteristic of the ERGIC compartment. Double labeling showed colocalization of ERGIC-53 with PS1 in the SY5Y-PS1 cells. PS1 labeling of SY5Y-PS1 and P19 cells showed overlap of the cis-Golgi marker p210 and colocalization with p210 after brefeldin A which causes redistribution of p210 to the ERGIC. Expression of PS1 did not change in level or cellular distribution during development of neurons in culture. Double labeling for the amyloid precursor protein (APP) and PS1 on SY5Y-PS1 cells and CHO-APP770 cells showed some overlap under control conditions. These results indicate that PS1 is a resident protein of the ERGIC and could be involved in trafficking of proteins, including APP, between the ER and Golgi compartments.
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PMID:Alzheimer's disease-associated presenilin 1 in neuronal cells: evidence for localization to the endoplasmic reticulum-Golgi intermediate compartment. 933 59

The mouse gene encoding ST8Sia IV/PST, one of two polysialic acid synthases, was isolated and characterized. The mST8Sia IV/PST gene was found to comprise over 60 kilobases and to be composed of five exons. Primer extension analysis revealed that transcription started from 333 nucleotides upstream of the translational initiation site. Transfection with nested deletion mutants of the 5'-flanking region fused to the luciferase reporter gene revealed that the promoter activity of the -107/+145 region was correlated with the gene expression of mST8Sia IV/PST in embryonal carcinoma P19 and neuroblastoma F11 cells. This proximal promoter region lacks an apparent TATA box but has putative binding sites for transcription factors Sp1 and NF-Y (CCAAT binding protein) at nucleotide positions -66/-57 and -47/-37, respectively. Individual deletions and mutations of the inverted Sp1 binding site or inverted NF-Y binding site caused significant reduction of the promoter activity, indicating that each binding site was involved in essential transcription control. Mobility shift assaying also revealed that Sp1 and NF-Y in a nuclear extract of P19 cells bind to the promoter region of the mST8Sia IV/PST gene. Deletion of the region from -60 to -40, which contains parts of both the Sp1 and NF-Y binding sites, completely abolished the promoter activity, suggesting that both Sp1 and NF-Y are synergetically involved in transcription regulation of the mST8Sia IV/PST gene in P19 and F11 cells. Although the overall structures of the two polysialic acid synthase genes (ST8Sia II/STX and IV/PST) are very similar, there is no extensive sequence homology between the 5'-flanking regions of the ST8Sia II/STX and IV/PST genes, suggesting that these two genes are expressed under different regulatory systems.
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PMID:Genomic structure and promoter activity of the mouse polysialic acid synthase (mST8Sia IV/PST) gene. 951 73

The class III beta-tubulin isotype is widely used as a neuronal marker in normal and neoplastic tissues. This isotype was, however, also immunodetected in certain tumours of non-neuronal origin such as squamous cell carcinoma. Using a newly described monoclonal antibody we compared the distribution of class III beta-tubulin in normal and neoplastic tissues. The TU-20 mouse monoclonal antibody was prepared against a conserved synthetic peptide from the C-terminus of the human class III beta-tubulin isotype, and its specificity was confirmed by immunoblotting, by competitive enzyme-linked immunosorbent assay and by immunofluorescence microscopy on cultured cells. In different cell lines of various origins the antibody reacted only with neuroblastoma Neuro-2a cells and with embryonal carcinoma P19 cells stimulated to neuronal differentiation by retinoic acid. Immunohistochemistry on formaldehyde-fixed paraffin-embedded normal human tissues revealed the presence of the class III beta-tubulin isotype in cell bodies and processes of neuronal cells in the peripheral and central nervous systems. In other tissues, this beta-tubulin isotype was not immunodetected. Class III beta-tubulin was found in all cases of ganglioneuroblastoma, ganglioneuroma, medulloblastoma, neuroblastoma, sympathoblastoma and in one case of teratoma. In contrast, no reactivity was detected in tumours of non-neuronal origin, including 32 cases of squamous cell carcinoma. The results indicate a specific TU-20 epitope expression exclusively in neuronal tissues. The antibody could thus be a useful tool for the probing of class III beta-tubulin functions in neurons as well as for immunohistochemical characterisation of tumours of neuronal origin.
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PMID:Expression of class III beta-tubulin in normal and neoplastic human tissues. 954 71

We have identified a novel type II activin receptor, called type IIA-N, the expression of which was induced during the neural differentiation of murine P19 embryonal carcinoma cells (P19 cells). P19 cells differentiate into several cell types dependent on the culture conditions. The induction of type IIA-N mRNA occurred predominantly in conjunction with neural differentiation. Sequence analysis of a cDNA clone for type IIA-N indicated that type IIA-N had a 24 bp insertion in the juxtamembrane region of the type IIA activin receptor suggesting that it is an alternative splicing product of the type IIA gene. Type IIA-N was also identified in human and Xenopus, and the amino acid sequences of three species were completely conserved. The expression of type IIA-N mRNA was specifically detected in neuroblastoma cells among several activin responsive cell lines. In vivo expression of type IIA-N mRNA was detected only in the neural tissues such as brain and spinal cord in adult mouse, by RT-PCR. Furthermore, its expression in developing Xenopus embryos was restricted to the neurula and later stages. These results suggest that the expression of type IIA-N is specific to neural cells and mediates neural differentiation-specific activin signaling.
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PMID:Identification of a novel type II activin receptor, type IIA-N, induced during the neural differentiation of murine P19 embryonal carcinoma cells. 961 Mar 56

Recently, we showed that transfection of GD3 synthase cDNA into Neuro2a cells, a mouse neuroblastoma cell line, causes cell differentiation with neurite sprouting. In a search for the genes involved in this ganglioside-induced Neuro2a differentiation, we used a tetracycline-regulated GD3 synthase cDNA expression system combined with differential display PCRs to identify mRNAs that were differentially expressed at four representative time points during the process. We report here the identification of 10 mRNAs that are expressed highly at the Neuro2a differentiated stage. These cDNAs were named GDAP1-GDAP10 for (ganglioside-induced differentiation-associated protein) cDNAs. It is interesting that in retinoic acid-induced neural differentiated mouse embryonic carcinoma P19 cells, GDAP mRNA expression levels were also up-regulated (except that of GDAP3), ranging from three to >10 times compared with nondifferentiated P19 cells. All the GDAP genes (except that of GDAP3) were developmentally regulated. The GDAP1, 2, 6, 8, and 10 mRNAs were expressed highly in the adult mouse brain, whereas all the other GDAP mRNAs were expressed in most tissues. Our results suggested that these GDAP genes might be involved in the signal transduction pathway that is triggered through the expression of a single sialyltransferase gene to induce neurite-like differentiation of Neuro2a cells.
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PMID:Isolation of 10 differentially expressed cDNAs in differentiated Neuro2a cells induced through controlled expression of the GD3 synthase gene. 1021 54

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