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)

p21ras is a membrane-associated guanine nucleotide-binding protein with intrinsic GTPase activity. This protein is important in the regulation of cell growth and differentiation in a number of different cell types. Therefore, the aim of the present study was to examine the role of p21ras and regulators of its activity in the differentiation of neuroblastoma cells induced by retinoic acid (RA). Phosphorylation of p21ras is regulated by the GTPase activity of type I GAP120 and neurofibromin. RA-induced differentiation of the two neuroblastoma cell lines SK-N-SH and IMR-32 was closely related to growth inhibition. Differentiation induced by RA resulted in an increase in both type I GAP120 and neurofibromin mRNAs. This increase was accompanied by a decrease in the activation of p21ras. These results suggest that, in neuroblastoma, activation of p21ras is not associated with RA-induced differentiation. However, the GTPase activating proteins type I GAP120 and neurofibromin may have effector functions in RA-induced differentiation of neuroblastoma.
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PMID:Effect of retinoic acid on p21ras and regulators of its activity in neuroblastoma. 757 49

We are studying the biological activity and regulation of mammalian Ras protein in tumours and in physiological signalling. We have shown that GAP (the GTPase-activating protein) is a potent negative regulator of normal Ras in cells. Reduction or loss of the NF1 gene product neurofibromin, in association with genetic abnormalities of the NF1 locus, has been identified in schwannoma cell lines from patients with neurofibromatosis and in melanoma and neuroblastoma lines from patients without neurofibromatosis. Although loss of neurofibromin in the schwannoma lines was associated with a high proportion of normal Ras protein in the active GTP-bound state, Ras-GTP appeared to be appropriately regulated in the melanoma and neuroblastoma lines, which contain normal levels of GAP. Therefore the GTPase-activating activity of neurofibromin is not essential for negative regulation of Ras in some cell types and the putative tumour suppressor function of neurofibromin in such cell types is independent of its GTPase-activating activity. Mitogen activation of Ras in fibroblasts is mediated primarily by exchange factors, which probably interact with a region on the Ras protein distinct from the region required for interaction with GAP. Multiple full-length cDNAs have identified a mouse gene whose products are related to yeast CDC25 guanine nucleotide exchange factor.
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PMID:Cell transformation by ras and regulation of its protein product. 829 27

The introduction of human chromosome 17 suppresses the tumourigenicity of a neuroblastoma cell line in the absence of any effects on in vitro growth and the neurofibromatosis type 1 (NF1) gene may be responsible. Here we report that 4 out of 10 human neuroblastoma lines express little or no neurofibromin and that two of these lines show evidence of NF1 mutations, providing further proof that NF1 mutations occur in tumours that are not commonly found in NF1 patients. We also show that NF1 deficient neuroblastomas show only moderately elevated ras-GTP levels, in contrast to NF1 tumour cells, indicating that neurofibromin contributes differently to the negative regulation of ras in different cell types.
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PMID:Neurofibromatosis type 1 gene mutations in neuroblastoma. 849 Jun 57

The NF1 gene, which is altered in patients with type 1 neurofibromatosis, encodes neurofibromin, a protein whose GTPase-activating function can negatively regulate GTP-Ras by accelerating its conversion to inactive GDP-Ras. In schwannoma cell lines from patients with neurofibromatosis, loss of neurofibromin was previously shown to be associated with impaired regulation of GTP-Ras. Our analysis of other neural crest-derived tumor cell lines has shown that some melanoma and neuroblastoma cell lines established from tumors occurring in patients without neurofibromatosis contain reduced or undetectable levels of neurofibromin, with concomitant genetic abnormalities of the NF1 locus. In contrast to the schwannoma cell lines, GTP-Ras was appropriately regulated in the melanoma and neuroblastoma lines that were deficient in neurofibromin, even when c-H-ras was overexpressed in the lines. These results demonstrate that some neural crest tumors not associated with neurofibromatosis have acquired somatically inactivated NF1 genes and suggest a tumor-suppressor function for neurofibromin that is independent of Ras GTPase activation.
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PMID:Inactivation of the NF1 gene in human melanoma and neuroblastoma cell lines without impaired regulation of GTP.Ras. 851 98

Nerve growth factor (NGF) is essential for the differentiation and survival of sympathetic and sensory neurones and is thought to play a role in the differentiation of neuroblastoma. In this study we have shown NGF decreased the mRNA level of the two GTPase activating proteins neurofibromin (containing the NF1-GRD) and type 1 GAP120 in two neuroblastoma cell lines, IMR-32 and SK-N-SH. This effect was seen within 15 min exposure to NGF and was maintained up to 2 h after the addition of NGF. Treatment with NGF increased the amount of GTP bound p21ras 3-fold, within 20 min exposure. Western blot analysis showed SK-N-SH and IMR-32 cells to contain equal amounts of p21ras protein and these levels were unchanged by NGF treatment. However, NGF induced an increase in the level of neurofilament L protein, which was accompanied by an increase in neurite extension. These effects of NGF occurred in the absence of growth inhibition. In conclusion, our results demonstrate a decrease in GTPase activating proteins and activation of p21ras by NGF in IMR-32 and SK-N-SH cells, thus implicating p21ras in NGF signal transduction in neuroblastoma.
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PMID:Activation of p21ras by nerve growth factor in neuroblastoma cells. 858 29

Neurofibromin, the gene product of the NF-1 gene is expressed in two isoforms. The m-RNA of NF-1 type II contains an insertion of 63 bases in the so called GAP-related domain, that distinguishes it from the type I transcript. By sequence homology neurofibromin is supposed to have a similar function in regulating activity of ras in intracellular signal transduction as the GTPase activating protein (GAP). Both transcripts of NF-1 are simultaneously expressed in different molar ratio in neuroblastoma tumors. 1) We examined 9 different neuroblastoma cell lines for the ratio of expression of NF-1 type I and type II. For quantification of the two transcripts we performed RT-PCR of the m-RNA of the neuroblastoma cells using primers designed to cover the GAP-related domain. We found values ranging from a more than 3-fold excess of type I transcript in the cell line Kelly to a slight excess of the type II transcript (I/II = 0.6) in the cell line IMR 5. 2) As there are indications that expression of NF-1 type II is related to the state of differentiation, we tried to shift expression of NF-1 from type I to type II by treatment of the neuroblastoma cells with retinoic acid. Treatment of Kelly cells with 5 microM retinoic acid for 24 h already lowered the excess of the type I transcript from 3-fold to an only 1.6-fold excess. An inversion of the molar ratio from an excess of the type I transcript to an excess of type II transcript would enable to investigate the different role of the two transcripts in the regulation of ras-activity and differentiation.
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PMID:Regulation of expression of two different transcripts of the NF-1 gene in neuroblastoma. 904 34

Ras protooncogenes encode small guanine nucleotide binding proteins (p21ras) activated by phosphorylation. Phosphorylation of p21ras is predominantly regulated by the GTPase activating proteins type 1 GAP120 and neurofibromin. Increased levels of p21ras-GTP (active) have been associated with increased cell growth and malignant transformation. In this study the relationship between p21ras, type 1 GAP120 and neurofibromin with growth and differentiation has been examined in neuroblastoma and peripheral primitive neuroectodermal tumour (pPNET) cell lines. The level of p21ras protein in neuroblastoma and pPNET cells was the same. However, the amount of p21ras-GTP bound was higher in pPNET than in neuroblastoma cells. This most likely reflects the absence of neurofibromin. Retinoic acid (RA)-induced differentiation and growth inhibition of neuroblastoma cells was associated with an increase in type 1 GAP120 and neurofibromin mRNA, and a decrease in p21ras-GTP. In pPNET cells levels of type 1 GAP120 but not neurofibromin mRNA were increased to similar levels to those in neuroblastoma cells. This was not associated with decreased p21ras-GTP, modulation of growth or change in morphology. In summary, constitutive activation of p21ras may have a role in the biology of pPNET cells. This may reflect abnormalities in neurofibromin expression, and could inpart explain why RA did not induce morphological differentiation and growth inhibition in pPNETs.
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PMID:Contrasting levels of p21ras activation and expression of neurofibromin in peripheral primitive neuroectodermal tumour and neuroblastoma cells, and their response to retinoic acid. 961 34

Neuroblastoma is the second-most common solid tumor in childhood. The majority of patients have a very poor outcome due to aggressive growth and metastatic spread. In contrast, in rare cases, spontaneous regression or differentiation towards a benign ganglioneuroma are observed. The mechanism leading to differentiation of neuroblastoma is of particular therapeutic interest. In this paper we report the results of our attempts to induce the expression of genes necessary for differentiation of neuroblastoma cells. TrkA codes for the high affinity receptor of NGF, a neurotrophin known to promote differentiation. Treatment with retinoic acid caused a 3-fold increase of the trkA expression in neuroblastoma cell lines. Neurofibromin, the gene product of the NF-1 gene, is involved in downregulation of the activity of ras-proteins. In contrast to immature neuronal tissues in mature brain, the type II isoform of neurofibromin is predominantly expressed. Retinoic acid was able to raise the proportion of type II NF-1 expressed in neuroblastoma cells.
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PMID:Neuroblastoma: induction of differentiation (Part I). Basical science in pediatric surgery. 1087 72

Composite tumor of pheochromocytoma and neuroblastoma, or ganglioneuroma, or ganglioneuroblastoma (composite pheochromocytoma), also known as mixed neuroendocrine and neural tumor, are sometimes combined with neurofibromatosis type 1 (NF1). To better understand the relationship between NF1 and composite pheochromocytoma, an immunohistochemical study using anti-neuro-fibromin that is an NF1 gene product and DNA sequence of NF1 Exon 31 were carried out in five cases of composite pheochromocytoma and in various tumors from five patients with NF1. Neurofibromin was not expressed in Schwann cells and sustentacular cells of composite pheochromocytomas and was very weakly or negatively expressed in neurofibroma of NF1 patients. However, it was strongly expressed in ganglionic cells and pheochromocytoma cells of the composite pheochromocytomas and also in mucosal ganglioneuromas, a gangliocytic paraganglioma, and in pheochromocytomas from the patients with NF1. Although there was no mutation in NF1 Exon 31, it could not be ruled out that there were mutations in other sites of the NF1 gene. Neurofibromin insufficiency may induce abnormal proliferation of Schwann cells in composite pheochromocytomas as well as in neurofibromatosis.
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PMID:Neurofibromin and NF1 gene analysis in composite pheochromocytoma and tumors associated with von Recklinghausen's disease. 1190 34

PKC, Ras, and ERK1/2 signaling is pivotal to differentiation along the neuronal cell lineage. One crucial protein that may play a central role in this signaling pathway is the Ras GTPase-activating protein, neurofibromin, a PKC substrate that may exert a positive role in neuronal differentiation. In this report, we studied the dynamics of PKC/Ras/ERK pathway signaling, during differentiation of SH-SY5Y neuroblastoma cells upon treatment with the PKC agonist, phorbol ester 12-O-tetradecanoyl-phorbol-13-acetate (TPA). Surprisingly, we observed that, among other PKC-dependent signaling events, TPA induced a rapid and sustained decrease of neurofibromin immunoreactivity which was not due to proteolysis. Instead, we identified a specific phosphorylation event at the C-tail of neurofibromin. This phosphorylation was acute and correlated perfectly with the signaling dynamics of the Ras/ERK pathway. Moreover, it persisted throughout prolonged treatment and TPA-induced differentiation of SH-SY5Y cells, concurrently with sustained activation of ERK1/2. Most importantly, C-tail phosphorylation of neurofibromin correlated with a shift of neurofibromin localization from the nucleus to the cytosol. We propose that PKC-dependent, sustained C-tail phosphorylation is a requirement for prolonged recruitment of neurofibromin from the nucleus to the cytosol in order for a fine regulation of Ras/ERK pathway activity to be achieved during differentiation.
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PMID:Regulation of the Ras-GTPase activating protein neurofibromin by C-tail phosphorylation: implications for protein kinase C/Ras/extracellular signal-regulated kinase 1/2 pathway signaling and neuronal differentiation. 1922 Jul 8

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