UMLS:C0178874 - FACTA Search

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Query: UMLS:C0178874 (tumor progression)
40,807 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A nude mouse model for human neuroblastoma has been developed to examine possible relationships between amplification/over-expression of the N-myc oncogene and altered regulation of expression of specific integrin subunits during tumor progression. Subcutaneous (ectopic) or intra-adrenal (orthotopic) injection of the neuroblastoma cell lines SK-N-SH or IMR-32 has generated a number of derivative tumor cell lines. Tumor cell lines derived from SK-N-SH cells (which do not express N-myc) or IMR-32 cells (which over-express N-myc) produce tumors at higher rates when re-injected into the subcutaneous space of nude mice. Moreover, cell lines derived from tumors initiated by IMR-32 cells exhibit shorter latent periods than do IMR-32 cells direct from tissue culture. With regard to integrin subunit expression, SK-N-SH and related cell lines express high levels of beta 1 integrin, which is associated with the alpha 2 and alpha 3 integrin subunits (predominantly alpha 3). IMR-32 cells display reduced beta 1 expression, and that which is produced is not associated with common alpha subunits. LaN1 cells, which express N-myc at even higher levels than do IMR-32 cells, express even less beta 1. Interestingly, the tumor-derived cell lines (especially those from tumors initiated in adrenal glands) also exhibit reduced integrin expression compared with the parental cell lines; this reduction is associated with the enhanced tumor take rate observed when the cells are re-injected into nude mice. Our results raise the possibility of a relationship between over-expression of N-myc and down-regulation of beta 1 integrin expression (possibly some alpha subunits also). In addition, the data suggest that human neuroblastoma-derived cell lines which exhibit reduced integrin expression display more aggressive tumor growth in nude mice.
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PMID:Inverse expressions of the N-myc oncogene and beta 1 integrin in human neuroblastoma: relationships to disease progression in a nude mouse model system. 753 87

Malignancies of childhood include a well-defined spectrum of hematolymphoid, organ specific (adrenal, kidney, liver), soft tissue, bone, and nervous system (central and peripheral) neoplasms with variable biology. Small round cell neoplasms, a subset of childhood malignancies, are histologically similar but differ markedly in their histogenesis, therapy, and prognosis. Traditionally, clinical information and light microscopy, with the aid of histochemistry and ultrastructural evaluation, establish a diagnosis or at least narrow the differential diagnosis. Additionally, immunohistology, cytogenetics, and molecular studies have become important in diagnosis and in defining phenotype/genotype, patient treatment modalities, and prognosis in specific cases. The 11;22 chromosomal translocation typifies Ewing's sarcoma, primitive neuroectodermal tumor, and Askin's tumor, as does the resultant chimeric transcript, while expression and amplification of N-myc oncogene are predictive of the prognosis in neuroblastoma. Furthermore, studies of genes and gene products are elucidating mechanisms of oncogenesis and tumor progression.
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PMID:Immunohistology, cytogenetics, and molecular studies of small round cell tumors of childhood. A review. 776 71

Molecular and genetic analyses of tumor cell show that cellular oncogenes and suppressor genes are involved in neoplastic transformation. In pediatric tumors oncogenes as N-myc play an important role in the tumor progression. In retinoblastoma, neuroblastoma, Wilms' tumor, and rhabdomyosarcoma loss of heterozygosity for specific chromosome loci has been suggested to be a critical step in cancer development. Oncogene abnormalities can also be useful as a molecular tumor factor to foresee the prognosis of the disease. The present article is a review on the role of the oncogenes and suppressor genes in pediatric solid tumors.
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PMID:[Oncogenes and suppressor genes in the genesis and progression of solid tumors in children]. 797 41

The N-myc proto-oncogene is amplified in 25% of neuroblastomas. Amplification is strongly correlated with advanced disease stage and rapid tumor progression. We have constructed a detailed restriction map of the amplified core region in neuroblastomas which will allow the identification of structural features such as joint fragments, rearrangements and CpG islands. Using probes that had been obtained previously, twenty YACs were isolated from a library constructed from a double-minute-containing neuroblastoma cell line with 150-fold amplification of N-myc. Twenty-one YACs also were isolated from two normal human libraries. Normal and neuroblastoma YAC contiguous arrays (contigs), each spanning over 1 Mb of DNA, have been assembled (Molec Cell Biol 12:5563, 1992). A high-resolution restriction map of over 200 kb of contiguous DNA containing N-myc has been generated by subcloning YACs into cosmids. Using cosmids from this region plus additional amplified probes, we have determined that the amplicons from 33 neuroblastomas range in size from 350 kb to over 1 Mb. Rearrangements and deletions were identified in both tumors and cell lines. However joint fragments were not always amplified to the same level as the major amplicon, and may therefore represent a subset of amplicons. We have defined a 130 kb region which was amplified in 32 of the 33 tumors, and one additional tumor had deleted 65 kb of this region from its amplicon. The only CpG island found in this region was within the N-myc gene. Cosmids were screened with radiolabeled total cDNA probes and no highly expressed genes other than N-myc were found in the amplicon.
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PMID:High-resolution mapping of the N-myc amplicon core domain in neuroblastomas. 797 37

To characterize some of the genetic events underlying the development of glioblastoma multiforme, the authors analyzed 65 astrocytic tumors (seven pilocytic astrocytomas, eight astrocytomas, 16 anaplastic astrocytomas, and 34 glioblastomas multiforme) for loss of heterozygosity for chromosome 17p, loss of heterozygosity for chromosomes 10p and 10q, amplification of the epidermal growth factor receptor (EGFR) gene, and amplification of the oncogenes N-myc, c-myc, and N-ras using Southern blot analysis. Alterations of the p53 gene (positive immunostaining for p53 protein in tumors with or without p53 gene mutations) in these 65 tumors were analyzed previously. None of the 65 tumors showed amplification or rearrangement of N-myc, c-myc, or N-ras oncogenes. The molecular analysis presented here demonstrates distinct variants of astrocytic tumors, with at least three genetic pathways leading to glioblastoma multiforme. One pathway was characterized by 43 astrocytomas with alterations in p53. Glioblastomas with p53 alterations may represent tumors that progress from lower-grade astrocytomas. This variant was more likely to show loss of chromosome 17p than tumors without p53 alterations (p < 0.04). Seventy-five percent of tumors with loss of one 17p allele demonstrated mutations in the p53 gene. Loss of chromosome 10 was associated with progression from anaplastic astrocytoma (13%) to glioblastoma (38%) (p < 0.04). Amplification of the EGFR gene was a rare (7%) but late event in tumor progression (p < 0.03). A second pathway was characterized by six astrocytomas without p53 alterations and may represent clinically de novo high-grade tumors. These tumors were more likely to show amplification of the EGFR gene (83%) than tumors with p53 alterations. Sixty percent of tumors with EGFR amplification also showed loss of chromosome 10; loss of chromosome 17p was infrequent in this variant. One or more alternative pathways were characterized by 16 astrocytomas without p53 alterations and with none of the genetic changes analyzed in this study. Glioblastomas are a heterogeneous group of tumors that may arise via multiple genetic pathways.
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PMID:Pathways leading to glioblastoma multiforme: a molecular analysis of genetic alterations in 65 astrocytic tumors. 805 51

N-myc oncogene amplification in neuroblastoma has been found to be significantly associated with advanced stage disease and tumor progression. However, there is a lack of data on tumors, regarding the relationship between N-myc gene amplification and proliferation activity. Proliferating cell nuclear antigen (PCNA) is a proliferation-induced 36 kD nuclear protein that is the auxiliary component of DNA polymerase delta. PCNA levels in tissues have been found to correlate with proliferative activity. We have examined PCNA levels in neuroblastomas in relation to N-myc gene amplification and tumor stage. Statistically, significantly higher levels of PCNA were observed in tumors with an amplified N-myc gene relative to tumors with a single gene copy. The highest levels of PCNA were observed in advanced stage tumors with an amplified N-myc gene. Treatment of neuroblastoma cells in culture with retinoic acid, which induces differentiation, resulted in a substantial decrease in PCNA. Our results suggest that PCNA levels may reflect differences in proliferative activity between neuroblastomas, related to stage of the disease and to N-myc gene copy number.
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PMID:PCNA levels in neuroblastoma are increased in tumors with an amplified N-myc gene and in metastatic stage tumors. 809 85

Proliferation and proto-oncogene expression in 19 meningiomas of typical and atypical histology were analyzed in an attempt to understand the mechanism of growth that characterizes the neoplastic process in these tumors. Proliferation was estimated as the proliferative index by the enumeration of S-phase cells in imprints of tumor tissue exposed to bromodeoxyuridine in vitro, and the gene expression of c-myc, c-fos, c-src, c-H-ras, N-myc, acidic and basic fibroblast growth factor, insulin-like growth factors I and II, platelet-derived growth factor-alpha, and epidermal growth factor was quantified by messenger ribonucleic acid dot-blot hybridization assay. Atypical and malignant tumors had significantly higher proliferative indexes than did their nonmalignant counterparts. Levels of c-myc and c-fos messenger ribonucleic acid were elevated more than fivefold in 72 and 78% of the tumors, respectively, relative to the lowest levels detected in the series. Levels of growth factor messenger ribonucleic acid were sporadically elevated; 37 to 44% of tumors had more than fivefold enhanced levels of acidic and basic fibroblast growth factor. Positive correlations between proliferation and proto-oncogene/growth factor expression were found for c-myc in atypical/malignant tumors and for epidermal growth factor in fibroblastic meningiomas. Deregulated expression of c-myc and c-fos common to both typical and atypical tumors suggests that these are early events in the meningioma tumor process that may disturb the control of cell differentiation and together with fibroblast growth factors are likely to endow the transformed cell with a selective growth advantage by reducing the requirement for exogenous mitogens and by providing a niche for the growth of the tumor clone. Positive correlation of c-myc levels with proliferation in atypical/malignant meningiomas implies that this is a feature of malignancy and indicates continued disruption of the negative regulation of proto-oncogene expression, perhaps by tumor suppressor gene losses, during the course of tumor progression.
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PMID:Correlation of proto-oncogene expression and proliferation and meningiomas. 813 92

We have investigated the frequency of p53 gene mutations in Ewing's sarcoma (ES) and neuroblastoma (NB) by using polymerase chain reaction-single strand conformation polymorphism analysis for genomic DNA or complementary DNA generated from total RNA. Mutations of the p53 gene were found in six of seven ES cell lines: a missense mutation of TGC (Cys)-->TAC (Try) at codon 141 in one, a missense mutation of CGT (Arg)-->TGT (Cys) at codon 273 in one, a missense mutation of TGC (Cys)-->TTC (Phe) at codon 176 in three, and one base deletion of CGC-->CG at codon 283 in one. Further analysis of 14 ES and related primary tumors showed mutations of the p53 gene in only two: one base insertion of CCG-->CCCG at codon 152 in one and a missense mutation of GGC (Gly)-->GTC (Val) at codon 154 in the other. Both of the two tumors were obtained from patients with an advanced stage disease. Three of the eight ESs with mutations of the p53 gene showed the same missense mutation at codon 176, suggesting the mutational hot spot of the p53 gene in ESs. In contrast to ES, none of 6 NB cell lines or 48 NB tumors including advanced-stage ones with or without N-myc amplification showed any aberration of the p53 gene. Our findings suggest that mutations of the p53 gene in ES might represent late genetic events related to tumor progression, and that aberrations of the p53 gene might not be involved in the development or the progression of NB.
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PMID:Mutations of the p53 gene are involved in Ewing's sarcomas but not in neuroblastomas. 822 63

Survival rate in neuroblastoma, a tumor of post-ganglionic sympathetic neuroblasts, correlates with disease stage, tumor histology, and N-myc gene amplification. N-myc amplification is associated with rapid tumor progression and poor survival, but is not present in all cases of poor prognosis neuroblastoma. Moreover, overexpression of N-myc is not sufficient to cause cellular transformation. These data suggest that other genetic factors are important for neuroblastoma development. We investigated the expression of the, bcl-2 proto-oncogene in untreated cases of neuroblastoma. bcl-2 is a novel proto-oncogene that promotes cell growth by inhibiting programmed cell death (apoptosis), a form of cellular demise common during normal neurogenesis. Immunocytochemical localization using a monoclonal anti-bcl-2 antibody revealed that 16 of 40 patient specimens stained positive for bcl-2. bcl-2 was strongly associated with unfavorable histology (P = 0.002) and N-myc gene amplification (P = 0.002) and marginally associated with poor stage disease (P = 0.06). A logistic regression model evaluating the simultaneous association of stage, histology, and N-myc revealed that bcl-2 was most associated with unfavorable histology and N-myc gene amplification. These results support the notion that bcl-2 may play an important role in the genesis or progression of malignant neuroblastoma.
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PMID:Expression of the apoptosis-suppressing protein bcl-2, in neuroblastoma is associated with unfavorable histology and N-myc amplification. 825 47

Proto-oncogenes are the genes which are most frequently found amplified in human tumor cells. Acquisition of a drug-resistant phenotype by gene amplification is frequent for in-vitro cultured cells but is very rare in human tumors. Proto-oncogenes amplified in human tumors belong essentially to one of three families (erbB, ras, myc) or to the 11q13 locus. Amplification is always specific for the tumor cells and is not found in constitutional DNA of the patient, indicating that amplification of the gene is selected for during tumor growth. For genes of the first three families, amplification results in overexpression in most of the cases. These are strong arguments in favor of a role of this amplification in tumor progression. The gene whose overexpression is the driving force for the selection of the amplification of the 11q13 locus is not known. The prad1 gene is presently a good candidate. Amplification of one type of proto-oncogene is generally not restricted to one tumor type. However, the N-myc gene is amplified mainly in tumors of neuronal or neuroendocrine origin and L-myc amplification is restricted to lung carcinomas. To understand the role of proto-oncogene amplification and overexpression in tumor progression it is necessary to know the function of the corresponding protein in the cell. erbB proteins are transmembrane receptors for growth factors. ras genes encode small GTP-binding proteins which are possibly involved in signal transduction. The myc proteins are transcription factors. The expression of the c-myc gene is induced a few hours after cells of various types have been induced to proliferate. The genes of these three families therefore encode proteins which appear to be involved in signal transduction. It is possible that overexpression of one of them, as a result of gene amplification, makes the cell a better responder to low levels of growth stimuli. For several genes which are found amplified in human tumors, it was shown that overexpression of the normal protein could confer a transformed or tumorigenic phenotype to in-vitro cultured cells. In addition, several studies on animal and human tumor-derived cell lines with an amplified proto-oncogene have established a relationship between proto-oncogene amplification and the tumorigenic phenotype. In neuroblastomas, it was proposed that down-modulation of MHC Class I antigens is a consequence of N-myc amplification and that this could be important in the progression toward a metastatic phenotype.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Gene amplification and tumor progression. 850 29

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