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)

From an extended series neuroblastoma cases evaluated for MYCN amplification (MNA) at the "G. Gaslini" Hospital 15 (4 with and 11 without NMA) underwent myeloablative therapy and bone marrow transplantation (MAT-ABMT). Such cases ranged in age at diagnosis from 13 months to 7 years and were followed up at least 8 months after MAT-ABMT. MNA was present in 2/10 cases dead for disease, in 0/1 cases alive with disease, and in 2/4 cases presently in complete clinical remission. This preliminary evidence would discourage to consider MNA as a marker capable of predicting the final outcome of patients with metastatic Nb.
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PMID:MYCN amplification does not affect survival of neuroblastoma patients treated with autologous bone marrow transplantation. 185 77

A central issue in cancer research is how tumors evolve and acquire a more aggressive phenotype. It is a widely discussed hypothesis that tumor cell populations progress by evolutionary change as a result of the generation of a variant cell through genomic instability followed by selection of particular variant clones having a growth advantage within the particular tissue environment. Genetic instability appears to be characteristic of neoplastic cells, but no consistent increase in instability seems to accompany progression of the malignant phenotype of the tumor. It is reasonable to assume that quantitative or qualitative changes of cellular oncogenes contribute to the emergence of more malignant phenotypes. Although any one of the molecular changes of cellular oncogenes identified over the past years is a good candidate as an element in progression, amplification appears particularly frequently as a correlate to advanced tumor stage. The fact that amplification does not show up in all progressing tumors of a particular type, for instance in only 50% of advanced-stage neuroblastomas, is often construed as speaking against a role in progression. One should be aware, however, that it is the enhanced expression of a gene consequent to amplification and not amplification per se that affects the cellular phenotype. There are alternative molecular pathways by which expression of a particular gene may become deregulated. During the past decade much information has accrued about genetic alterations in tumor cells. The activation of the oncogenic potential of cellular genes can take different routes among which mutational alteration, translocation and amplification predominate. In particular, amplification has found its way to practical use due to its association with more aggressively growing types of human cancer. MYCN amplification in neuroblastoma is a paradigm for the prognostic significance of oncogene alteration, and at the same time has represented the clinical debut of oncogene research. The full significance of oncogene amplification as a predictor for poor prognosis became clear with the more recent identification of amplified ERBB2 in aggressively growing breast cancers. The state of the art is that amplified cellular oncogenes define cancer patients who have a poor prognosis and require a specific therapeutic regimen.
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PMID:Enhanced expression of the cellular oncogene MYCN and progression of human neuroblastoma. 187 94

The MYCN gene has been implicated in certain neuronal tumours, such as neuroblastomas and retinoblastomas. These tumours express high levels of mRNA and protein of MYCN as a result of amplification. MYCN encodes a short-lived nuclear phosphoprotein whose function has not yet been elucidated. This study was undertaken to determine the pattern of MYCN protein (pMYCN) phosphorylation in human neuroblastoma cells. We report that pMYCN is phosphorylated in vitro by purified casein kinase II (CK-II). Two-dimensional phosphopeptide maps showed that most of the phosphopeptides of pMYCN phosphorylated in vitro by CK-II correspond to those phosphorylated in vivo. Fine mapping of the phosphorylation sites was performed using two synthetic MYCN peptides corresponding to pMYCN CK-II consensus sequences. Both peptides were found to be phosphorylated by CK-II and competitively inhibited CK-II phosphorylation of pMYCN in vitro. Thus, we have localized two major CK-II phosphorylation sites in pMYCN, one to the highly acidic central region and the second to serine 367 proximal to the C-terminus. Our data demonstrate that pMYCN is a physiological substrate for CK-II and, since CK-II activity is stimulated in response to mitogens, CK-II phosphorylation of pMYCN may, therefore, represent one signal transduction pathway used by neuroblastoma cells.
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PMID:The MYCN protein of human neuroblastoma cells is phosphorylated by casein kinase II in the central region and at serine 367. 192

Human neuroblastomas of advanced stages often display amplification with a consecutive enhanced expression of the MYCN oncogene. Enhanced MYCN expression is thought to contribute in a causative manner to the progression of neuroblastomas, but the mechanisms by which this may occur have remained unclear. By transfecting human neuroblastoma cells that display a normal MYCN expression with the human MYCN oncogene, we have generated a cell line with enhanced MYCN expression and thereby were able to compare the biological and biochemical properties of the transfected and non-transfected cells. We have demonstrated autocrine growth factors in the MYCN-transfected, but not the non-transfected, neuroblastoma cells. Identification of the primary structures of these factors may help to develop specific antagonists in order to improve the therapy of advanced neuroblastomas. Currently, this could be done by application of genistein or tumor necrosis factor. As we could demonstrate for the first time, the dietary constituent genistein is able to inhibit the proliferation of neuroblastoma cells with enhanced and normal MYCN expression, but also that of cells derived from other solid pediatric tumors. In contrast, tumor necrosis factor is able to inhibit selectively the proliferation of neuroblastoma cells with enhanced MYCN expression. We suggest that tumor necrosis factor might improve the therapy of advanced human neuroblastomas.
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PMID:[Increased expression of the MYCN oncogene in human neuroblastoma cells and possible, new therapeutic approaches]. 194 38

Several human neuroblastoma cell lines express transcripts of the proopiomelanocortin (POMC) gene of 0.8 kb and 9.5 kb, thus different from the characteristic pituitary 1.2 kb POMC mRNA. The expression of POMC mRNA decreases when the cell lines are differentiated with retinoic acid or alpha-difluoromethylornithine. Since both POMC and MYCN genes are present on the same chromosome segment (2p23), it is possible that the 2 genes are coamplified and coexpressed. Alternatively the expression of opiate peptides by neuroblastoma cells might act as an autocrine factor or it may modulate the action of tumour infiltrating lymphocytes.
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PMID:Expression of pre-opiomelanocortin (POMC) mRNA in undifferentiated and in vitro differentiated human neuroblastoma cell lines. 206 37

Two genetic events have been identified so far which are characteristic of neuroblastomas. These include loss of a critical region on the distal short arm of chromosome 1 and amplification of the MYCN proto-oncogene. Our studies suggest that the two genetic events may be related and that loss of heterozygosity (LOH) for chromosome 1p may precede the development of amplification. When these features are combined with flow cytometric analysis of DNA content, three distinct genetic subsets of neuroblastomas can be identified. The first is characterized by a hyperdiploid or near-triploid modal karyotype, with few if any cytogenetic rearrangements. These patients are generally less than one year of age with localized disease and a good prognosis. The second group is characterized by a near-diploid or near-tetraploid karyotype, with no consistent rearrangement identified so far. They are generally older patients with more advance stages of disease that progress slowly and are frequently fatal. The third group is characterized by a near-diploid or tetraploid karyotype, with deletions or LOH for chromosome 1p, amplification of MYCN or both. These patients are generally older with advanced stages of disease which is rapidly progressive. Thus, genetic analysis of neuroblastoma cells provides information that has prognostic significance and can direct the choice of treatment more appropriately.
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PMID:Neuroblastoma: clinical significance of genetic abnormalities. 210 28

Human neuroblastoma cells with normal expression of the endogenous MYCN oncogene were transfected with a vector containing an exogenous MYCN gene. The transfected cells expressed the exogenous MYCN at high levels and had acquired a phenotype resembling that of cells from advanced human neuroblastomas. Proliferation of the MYCN-transfected, but not of the untransfected, neuroblastoma cells was inhibited by low concentrations of recombinant human tumor necrosis factor alpha (TNF alpha). Our results suggest that TNF alpha could be useful for the treatment of advanced human neuroblastomas, in which high MYCN expression seems to be a causative factor.
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PMID:Enhanced MYCN oncogene expression in human neuroblastoma cells results in increased susceptibility to growth inhibition by TNF alpha. 220 99

Increase of the dosage of cellular oncogens by DNA amplifications is a frequent genetic alteration of cancer cells. The presence of amplified cellular oncogenes is usually signalled by conspicuous chromosomal abnormalities, "double minutes" (DMs) or "homogeneously staining regions (HSRs). Some human cancers carry a specific amplified oncogene at high incidence. Particularly in neuroblastomas and in breast cancers the amplification of cellular oncogenes has been found associated with aggressively growing cancers and is an indicator for poor prognosis. Neuroblastoma, a malignant tumor of the sympathetic nervous system of children, frequently carries amplification of the oncogene MYCN. The amplification of MYCN is of predictive value for identifying high risk neuroblastoma patients that require specific therapeutic regimen and is generally viewed as the first oncogene alteration that turned out to be of practical clinical significance.
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PMID:[Amplification of N-myc in neuroblastoma: paradigm for clinical use of an oncogene alteration]. 220 36

Amplification and enhanced expression of the MYCN oncogene are thought to contribute to the development and progression of human neuroblastomas. Here, we have transfected human neuroblastoma cells that harbor a single MYCN gene copy with the human MYCN gene driven by a viral enhancer/promoter, and we have compared the properties of the parental and the transfected cells. The transfected cells show an enhanced expression of the exogenous MYCN gene. Unlike the parental cells, they have acquired an increased proliferative potential, induce tumors in nude mice, grow in soft agar, and require low amounts of exogenous growth factors in order to proliferate. The MYCN-transfected, but not the parental, cells can synthesize and utilize autocrine growth factor activity. These results demonstrate that enhanced MYCN expression contributes to malignant progression of human neuroblastoma cells, conceivably by stimulating the expression of autocrine growth factor activity.
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PMID:Augmented MYCN expression advances the malignant phenotype of human neuroblastoma cells: evidence for induction of autocrine growth factor activity. 236 93

At least 70% of human neuroblastomas display cytogenetically visible aberrations in the short arm of chromosome 1. We have used a panel of probes detecting polymorphic DNA loci, most of which were derived from a library of microdissected distal 1p chromosome fragments, to compare the hybridization pattern of DNA on nine different tumors and the corresponding normal tissue. In eight of the neuroblastomas allelic loss was observed with at least two probes. The deletions were of different size. Since a consensus deletion in all eight tumors included the segment 1p36.1-2, we conclude that genetic information related to neuroblastoma tumorigenesis is located within this approximately 10 megabase segment. Previous studies have revealed the amplification of MYCN in neuroblastomas. Our study did not provide evidence for a correlation between MYCN amplification and the 1p deletion, suggesting that the two genetic alterations result from molecular mechanisms that are not directly related to each other.
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PMID:Neuroblastoma consensus deletion maps to 1p36.1-2. 248 56

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