Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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

The L-myc, N-myc and c-myc genes are members of the myc oncogene family. In particular, L-myc is novel, and amplification of L-myc is still unknown except in small cell lung carcinoma. We examined L-myc amplification in 30 human neuroblastomas using Southern blot hybridization, and found that the L-myc gene was amplified approximately 5-fold in GOTO, a human neuroblastoma cell line. The N-myc gene was also amplified approximately 60-fold and furthermore, over-expression of L-myc and N-myc genes was observed in this cell line. In this report, we describe the coamplification of the myc gene family in the GOTO neuroblastoma cell line.
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PMID:Coamplification of the L-myc and N-myc oncogenes in a neuroblastoma cell line. 250 Dec 44

DNA from human breast carcinoma (SK-BR-3) and neuroblastoma (LA-N-1) cell lines are capable of inducing foci of transformed NIH 3T3 cells after DNA-mediated gene transfer. The blot hybridization analysis of DNA from primary and secondary NIH 3T3 transformants identified additional sequences homologous to the c-Ha-ras 1 oncogene, and revealed amplification of nucleotide sequences homologous to the v-myc oncogene. Restriction fragments of the amplified myc-related sequences correspond to c-myc (SK-BR-3) and N-myc (LA-N-1) loci of the human genome. The results show that active Ha-ras oncogenes can coexist with altered myc oncogenes in breast carcinomas and neuroblastomas. This suggests that a multi-step mechanism involves both ras and myc genes and their cooperation in the development of these tumors.
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PMID:[Activation of ras and myc proto-oncogenes in human breast carcinoma and neuroblastoma]. 302 23

We have cloned a 2.0-kb EcoRI fragment of human genomic DNA (NB-19-21) which has homology to the v-myc oncogene but is distinct from the classical c-myc gene. This sequence is amplified from 25- to 700-fold in eight of nine tested human neuroblastoma cell lines which contain either homogeneously staining regions or double minutes (HSRs or DMs), the caryological manifestations of amplified genes. In the remaining line, the c-myc proto-oncogene is amplified approximately 30-fold. NB-19-21 hybridizes to a 3.2-kb cytoplasmic, poly(A)+ RNA species that is abundant only in lines in which the sequence is amplified. We propose that the gene encoding the NB-19-21-related RNA species may represent a new oncogene, which we call N-myc. NB-19-21 derives from chromosome 2; but in the five HSR-containing lines that have amplified this sequence, none has HSRs on chromosome 2. NB-19-21 is associated with DMs in a DM-containing line. A second, randomly cloned, amplified DNA segment from the HSR of one of the neuroblastoma lines is amplified in a subset of the lines in which NB-19-21 is amplified. In addition, this probe identifies a novel joint in the amplification unit of one line relative to that of the others. We suggest that, in the eight lines which have amplified NB-19-21, the amplification units are overlapping, but not identical, and that transposition of the common sequences may occur prior to amplification.
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PMID:Transposition and amplification of oncogene-related sequences in human neuroblastomas. 619 79

Previous studies had revealed that DNA with partial similarity to the myc oncogene (N-myc) is frequently amplified in human neuroblastoma cell lines and neuroblastoma tumors. We show here for one patient that N-myc amplification is confined to the neuroblastoma tumor and is not present in normal tissue. N-myc mRNA approximately equal to 4.0 kilobases in size is detectable in neuroblastoma cell lines and tumors and in a retinoblastoma cell line. By contrast, appreciable amounts of this RNA were not present in a number of cell lines derived from other human tumors and in fibroblasts from a normal individual and from a neuroblastoma patient. Low levels of N-myc RNA were found in human and murine neuroblastoma cell lines lacking amplification of this gene, up to 80-fold greater levels in all cell lines carrying amplified N-myc. In situ hybridization to sections of neuroblastoma tumors revealed high expression of N-myc predominantly in undifferentiated neuroblasts. We hypothesize that amplification and consequent elevated expression of N-myc may be related to malignant progression.
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PMID:Enhanced expression of the human gene N-myc consequent to amplification of DNA may contribute to malignant progression of neuroblastoma. 658 38

The oncogene of the HL-60 human promyelocytic leukemia cell line has been passed serially through NIH/3T3 mouse fibroblasts. Oncogene-specific probes prepared from the resulting tertiary transfectants by molecular cloning have been used to show that loss of the transfected oncogene from NIH/3T3 cells correlates with reversion to nontransformed morphology. Analysis of cells transfected by the oncogenes of other tumors and tumor cell lines indicates that the transforming gene of the HL-60 leukemia cell line is closely related to oncogenes of a Burkitt's lymphoma, an acute myelogenous leukemia, an adenocarcinoma of the colon, a neuroblastoma, and two sarcomas. This oncogene is distantly related to the viral oncogenes of Kirsten and Harvey sarcoma viruses. It has been termed N-ras. The active N-ras oncogene coexists with altered versions of the myc oncogene in the HL-60 and AW Ramos human tumors. This suggests a multistep mechanism involving both ras and myc genes in the creation of these tumors.
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PMID:The HL-60 transforming sequence: a ras oncogene coexisting with altered myc genes in hematopoietic tumors. 668 94

Amplified cellular genes in mammalian cells frequently manifest themselves as double minute chromosomes (DMs) and homogeneously staining regions of chromosomes (HSRs). With few exceptions both karyotypic abnormalities appear to be confined to tumour cells. All vertebrates possess a set of cellular genes homologous to the transforming genes of RNA tumour viruses, and there is circumstantial evidence that these cellular oncogenes are involved in tumorigenesis. We have recently shown that DMs and HSRs in cells of the mouse adrenocortical tumour Y1 and an HSR in the human colon carcinoma COLO320 contain amplified copies of the cellular oncogenes c-Ki-ras and c-myc, respectively. Both DMs and HSRs are found with remarkable frequency in cells of human neuroblastomas. We show here that a DNA domain detectable by partial homology to the myc oncogene is amplified up to 140-fold in cell lines derived from different human neuroblastomas and in a neuroblastoma tumour, but not in other tumour cells showing cytological evidence for gene amplification. By in situ hybridization we found that HSRs are the chromosomal sites of the amplified DNA. The frequency with which this amplification appears in cells from neuroblastomas and its apparent specificity raise the possibility that one or more of the genes contained within the amplified domain contribute to tumorigenesis.
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PMID:Amplified DNA with limited homology to myc cellular oncogene is shared by human neuroblastoma cell lines and a neuroblastoma tumour. 688 61

One of the first oncogenes identified from human tumors was c-myc, which is frequently activated in Burkitt's lymphomas due to chromosomal translocations. Subsequently, members of the myc oncogene family were found to be amplified in neuroblastoma and small-cell lung cancer. In normal cells, Myc activity has been shown to be both necessary and sufficient for resting cells to enter the cell cycle. Interestingly, it appears that Myc not only drives the cell cycle, but also induces cell death by apoptosis in certain situations. Myc contains a transcriptional activation domain and a basic helix-loop-helix-leucine zipper DNA-binding and dimerization domain. As a heterodimer with a structurally related protein, Max, Myc can bind DNA in a sequence-specific manner. These results suggest that the Myc/Max heterodimer functions as a transcriptional activator of genes that are critical for the regulation of cell growth.
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PMID:Myc protein: partners and antagonists. 794 8

Members of the myc oncogene family such as c, N-, and L-myc are expressed in many malignant tumors. Expression of c-, N-, and L-myc oncogenes in 7 human neuroblastoma cell lines (GOTO, IMR-32, TGW, SCCH-26, TNB 9, NBL-S, and SK-N-SH), a human small cell lung carcinoma SBC-5 cell line, and a human monocytic leukemia THP-1-S cell line at mRNA and protein levels was studied to know the specificity of a newly developed antibody against homologous region at C-terminus of N-Myc, designated as anti pan-Myc antibody. By RT-PCR and immunoblot analysis, coexpression of three myc genes was detected in all neuroblastoma cell lines tested. c-and L-myc expression were observed that anti pan-Myc antibody recognizes c-Myc and N-Myc proteins but not L-Myc. These results indicate that neuroblastoma cells may acquire an aberrant transcriptional control system in myc family gene expression.
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PMID:Coexpression of the myc gene family members in human neuroblastoma cell lines. 853 84

The present study investigated the ability of two neuroblastoma cell lines (SK-N-SH, with one copy of N-myc, and SK-N-BE(2), with over 150 copies of N-myc) to recycle ascorbate by quantifying semidehydroascorbate reductase and dehydroascorbate reductase activities. Both cell lines expressed dehydroascorbate activity (SK-N-SH 28.4 +/- 9.8, SK-N-BE(2) 21.7 +/- 5.2 nmol/min/mg protein). Intracellular semidehydroascorbate activity was present only in SK-N-BE(2) cells (4.7 +/- 1.2 nmol/min/mg protein). Extracellular ascorbate was regenerated by semidehydroascorbate membrane activity, the activity of SK-N-BE(2) being twice that of SK-N-SH cells. The present data may explain the ability of the tumor to progress or regress through mechanisms involving both myc oncogene and apoptosis.
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PMID:Ascorbic acid recycling in N-myc amplified human neuroblastoma cells. 961 25

We have used semiquantitative and real-time quantitative PCRs to detect n-myc gene-amplification in 21 frozen neuroblastoma biopsies and IMR 32 cell line in order to predict biological behaviour of the tumors. Two primer pairs were used in the semiquantitative method to co-amplify a 520-bp fragment of the beta -globin gene -used as a single copy reference standard -and a 258-bp fragment of the n-myc gene. After 30 cycles the PCR products were electrophoresed through an agarose gel and were compared to each other with use of a gel-densitometer. Real-time quantitative analysis was performed in a LightCycler instrument. A single primer pair was used to amplify a 120-bp fragment of the n-myc oncogene and a LC640-labelled fluorescent probe pair to detect the product. Calibration curve, which was set up from a serial dilution including samples with 1, 2, 10, 13, 25-fold n-myc oncogene amplification, was employed for quantitative analysis. Semiquantitative method did not show distinct difference between tumor groups with no amplification and less than 10-fold amplification, while quantitative LightCycler analysis was able to detect even 2-fold amplification. In situ PCRs were performed in two cases of differentiated tumor samples which contained n-myc amplification. We used biotinylated ATP labelling and the same primer pair as for the LightCycler analysis.In both cases differentiated cell forms did not show n-myc gene amplification, while considerable amplification was detected in the neuroblasts.
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PMID:[Detection of n-myc gene amplification in neuroblastoma using polymerase chain reaction based methods]. 1205 Jun 81


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