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Query: UMLS:C0027819 (
neuroblastoma
)
27,800
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
DEAD box proteins are putative RNA helicases that have been implicated in cellular processes involving alteration of RNA secondary structure, such as translation initiation and splicing. These proteins share eight conserved amino acid motifs, including Asp(D)-Glu-(E)-Ala(A)-Asp(D) which is part of a more extended motif. Recently, we have shown that the novel
DDX1
gene containing a DEAD box motif maps to the same chromosome band as MYCN at 2p24 and is co-amplified with MYCN in retinoblastoma cell lines. Here, we show that the
DDX1
gene is co-amplified with the MYCN gene in 2 of three
neuroblastoma
cell lines and that
DDX1
RNA levels correlate with
DDX1
gene copy number. Since amplification of MYCN is an indicator of poor prognosis in
neuroblastoma
, it was of interest to determine whether co-amplification with
DDX1
occurred in clinical samples of
neuroblastoma
and whether such a finding carried any additional prognostic significance. We determined the gene copy number of
DDX1
in 32
neuroblastoma
patient samples (representative of all stages): 13 were MYCN amplified and 19 had normal copy numbers of the MYCN gene. Of the 13 neuroblastomas that were MYCN amplified, seven were also
DDX1
amplified. Of the 19 that were not MYCN amplified, none were
DDX1
amplified. This is the first example of a gene that is co-amplified with MYCN at a high frequency in
neuroblastoma
. While there was a trend towards a worse clinical outcome with co-amplification, the numbers were too small to reach significance.
...
PMID:Co-amplification of MYCN and a DEAD box gene (DDX1) in primary neuroblastoma. 773 93
A DEAD box gene (
DDX1
) characterized by a motif with a putative RNA helicase was found at elevated levels, with multiple copies, in a
neuroblastoma
and in some retinoblastoma cell lines in which the MYCN gene was amplified. The present study was aimed at determining whether amplification of the
DDX1
gene is critical for human neuroblastomas exhibiting MYCN gene amplification. Extended DNA panels of tumors and cell lines revealed amplification of the
DDX1
gene in approximately half of the specimens exhibiting MYCN gene amplification, which is in good agreement with a finding reported recently. Because its profile was similar to that of the cDNA marker G21 and another flanking DNA marker, clone 8, both of which localize outside the core of the amplicon of the MYCN gene, we noted that we could localize the
DDX1
gene in relation to the MYCN gene. Utilizing pulsed-field gel electrophoresis according to a method based on the combinatorial alignment of multiple single digests and a 5.5-megabase map surrounding the MYCN locus, we mapped the
DDX1
gene within a 100 kb region about 400 kb upstream from the MYCN gene, where G21 is localized. Further hybridization experiments with both genes, complete sequencing of G21, and its comparison with that of the
DDX1
gene eventually confirmed that the
DDX1
gene is identical to G21. G21 is a cDNA clone isolated by differential screening of a library from a
neuroblastoma
cell line, IMR-32, but its function has not yet been identified. Coamplification of the
DDX1
gene with the MYCN gene is a consequence of the segregation of continuous DNA stretches spanning both loci during the amplification process.
...
PMID:Amplification of a DEAD box gene (DDX1) with the MYCN gene in neuroblastomas as a result of cosegregation of sequences flanking the MYCN locus. 883 77
Human
neuroblastoma
cells frequently show amplification of the oncogene MYCN, which maps to 2p24. Previous studies have localized the DEAD box motif gene
DDX1
to the same chromosome band and demonstrated coamplification of
DDX1
and MYCN in two retinoblastoma cell lines. Recently, a high frequency of coamplification of
DDX1
and MYCN has been shown in human
neuroblastoma
cells. We have determined the physical distance between the two genes by pulsed field gel electrophoresis in normal tissue and have found that
DDX1
maps to a position at a maximum distance of 400 kbp 5' to MYCN. Two
neuroblastoma
cell lines with coamplification of
DDX1
/MYCN showed a similar topographic relationship of the two genes. In contrast, in two cell lines with high copy number, the
DDX1
gene was not present in all amplified units recognized by MYCN and had changed its position in the amplified DNA relative to MYCN from 5' to 3', presumably by rearrangement during the amplification process. Our data show that the high frequency of
DDX1
coamplification is due to its close physical distance to MYCN. Although amplification has resulted in an elevated expression of
DDX1
the significance of overexpression for
neuroblastoma
remains unclear.
...
PMID:The DDX1 gene maps within 400 kbp 5' to MYCN and is frequently coamplified in human neuroblastoma. 883 78
One of the most important prognostic factors in
neuroblastoma
is amplification of the MYCN gene, which is strongly associated with advanced stages of disease and a poor prognosis. Although the MYCN amplicon sometimes spans more than 1 Mb, no other consistently expressed sequences from the MYCN amplicon have been reported. However,
DDX1
, a gene encoding a DEAD box protein, was recently mapped to chromosome 2p24 and is frequently co-amplified with MYCN. Therefore, we performed genomic mapping with YACs to determine the physical relationship between
DDX1
and MYCN, and whether
DDX1
was contained within the core region of amplification. Based on YAC restriction mapping and content analysis,
DDX1
maps 340 kb 5' of MYCN, outside the core domain of consistent amplification. Interestingly, we also determined by sequence analysis and detailed restriction mapping that G21, previously isolated as a '
neuroblastoma
-specific' cDNA clone from an MYCN amplicon, is a partial cDNA of
DDX1
. Our data confirm that
DDX1
is amplified in some but not all MYCN-amplified tumors, and that it is rearranged in other cases. This suggests that the co-amplification of
DDX1
is due to its proximity to MYCN.
...
PMID:Physical mapping of the DDX1 gene to 340 kb 5' of MYCN. 887 96
Previous studies have revealed that the MYCN gene spans approximately 7kb, while the amplicon has been estimated to be 100 kb to 1 Mb long [1-3]. This implies that several other genes may be present on the MYCN amplicon. Such co-amplified genes could contribute to the malignant phenotype and might provide an explanation for why not all patients with MYCN amplification have a poor outcome. We investigated 7
neuroblastoma
cell lines and 167 primary tumours for the co-amplification of candidate genes known to be present near the MYCN locus: ornithine decarboxylase, ribonucleotide reductase, syndecan-1 and a DEAD box protein gene,
DDX1
. We also investigated further the pG21 expressed sequence previously reported to be co-amplified with MYCN. No co-amplification with the first 3 genes was found in any of the cell lines or tumour samples.
DDX1
was found to be amplified along with MYCN in 4/6 (67%) cell lines and 18/38 (47%) of the MYCN amplified tumours. No amplification of
DDX1
, ODC1, RRM2 or syndecan-1 was found in the absence of MYCN amplification.
DDX1
co-amplification was observed to occur mainly in stage 4 or 4S patients. With the exclusion of those with 4S disease, patients with
DDX1
co-amplification had a significantly shorter mean (+/- SE) disease-free interval (4.1 +/- 1.4, n = 8 months) compared with patients with MYCN amplification alone (19.6 +/- 4.5, n = 17) (P = 0.04, Welch's unpaired t-test). The pG21 sequence was identical to part of the
DDX1
gene. These observations indicate that there is at least 1 other gene co-amplified with MYCN in a proportion of cases and that those patients with
DDX1
co-amplification tend to relapse more quickly. It also implies that the MYCN amplicon is of varied size and/or position relative to the MYCN gene.
...
PMID:Analysis of candidate gene co-amplification with MYCN in neuroblastoma. 951 49
The DEAD box gene,
DDX1
, is a putative RNA helicase that is co-amplified with MYCN in a subset of retinoblastoma (RB) and
neuroblastoma
(NB) tumors and cell lines. Although gene amplification usually involves hundreds to thousands of kilobase pairs of DNA, a number of studies suggest that co-amplified genes are only overexpressed if they provide a selective advantage to the cells in which they are amplified. Here, we further characterize
DDX1
by identifying its putative transcription and translation initiation sites. We analyze
DDX1
protein levels in MYCN/
DDX1
-amplified NB and RB cell lines using polyclonal antibodies specific to
DDX1
and show that there is a good correlation with
DDX1
gene copy number,
DDX1
transcript levels, and
DDX1
protein levels in all cell lines studied.
DDX1
protein is found in both the nucleus and cytoplasm of
DDX1
-amplified lines but is localized primarily to the nucleus of nonamplified cells. Our results indicate that
DDX1
may be involved in either the formation or progression of a subset of NB and RB tumors and suggest that
DDX1
normally plays a role in the metabolism of RNAs located in the nucleus of the cell.
...
PMID:Overexpression of a DEAD box protein (DDX1) in neuroblastoma and retinoblastoma cell lines. 969 72
Amplification of the proto-oncogene MYCN is a strong adverse prognostic factor in
neuroblastoma
patients in all tumor stages. The status of the MYCN gene has become an important factor in clinical decision making and therapy stratification. Consequently, fast and accurate assessment of MYCN gene copy number is of the utmost importance and the use of two independent methods to determine MYCN status is recommended. For these reasons we have developed and evaluated a real-time quantitative PCR (Q-PCR) assay as an alternative for time-consuming Southern blot analysis (SB), and as a second independent technique in parallel with fluorescence in situ hybridization (FISH) analysis. Advantages of Q-PCR are a large dynamic range of quantification, no requirement for post-PCR sample handling and the need for very small amounts of starting material. The accuracy of the assay was illustrated by measurement of MYCN single gene copy changes in DNA samples of two patients with 2p deletion and duplication, respectively. Two different detection chemistries i.e., a sequence specific TaqMan probe and a generic DNA binding dye SYBR Green I were evaluated and shown to yield similar results. Also, two different calculation methods for copy number determination were used i.e., the kinetic method and the comparative C(T) method, and shown to be equivalent. In total, 175
neuroblastoma
samples with known MYCN status, as determined by FISH and/or SB, were examined. Q-PCR data were highly concordant with FISH and SB data. In addition to MYCN copy number evaluation,
DDX1
and NAG gene copy numbers were determined using a similar Q-PCR strategy. Survival analysis pointed out that
DDX1
and/or NAG amplification has no additional adverse effect on prognosis.
...
PMID:Quantification of MYCN, DDX1, and NAG gene copy number in neuroblastoma using a real-time quantitative PCR assay. 1185 May 45
The serial analysis of gene expression (SAGE) technique was used to generate a database of the most abundant transcripts of the MYCN-amplified
neuroblastoma
cell line IMR-5. A total of 8568 tags were sequenced and shown to represent 4034 unique tags, each of which corresponds to an individual transcript. Expression levels of genes are reflected by the frequency of occurrence of the respective tags. To validate fidelity of SAGE data, relative abundances of seven transcripts were evaluated by semiquantitative reverse transcriptase-polymerase chain reaction. Transcripts that were detected nine times or more (>0.1% of the total tag population) accounted for 36% of the total messenger RNA mass but only 3% of the total number of individual transcripts. A strong preponderance of genes involved in protein synthesis, in particular those encoding for ribosomal proteins, were observed among these high-abundance transcripts. Tags corresponding to the amplified gene
DDX1
were conspicuously overrepresented in comparison to the other amplified genes MYCN,
neuroblastoma
amplified gene and MEIS1, which suggests an additional mechanism apart from genomic amplification contributing to the strong upregulation of this gene. This study provides a comprehensive gene expression profile of
neuroblastoma
cell line IMR-5 and may be used as a reference database for identification of candidate genes that are involved in etiology and pathogenesis of
neuroblastoma
.
...
PMID:Characterization of the gene expression profile of neuroblastoma cell line IMR-5 using serial analysis of gene expression. 1253 80
Amplification of the MYCN oncogene in
neuroblastoma
is associated with poor prognosis. The amplified unit of DNA can be up to 1 Mb in size and so could contain additional genes which affect tumour phenotype. The
neuroblastoma
amplified gene (NAG) gene was initially located 400 kb telomeric to MYCN at 2p24 and reported to be co-amplified in 5/8 (63%) cell lines and 9/13 (70%) tumours. The sequence of a 4.5 kb transcript was proposed from the analysis of overlapping cDNA clones. However, our Northern blot hybridisation experiments indicate that the main RNA species expressed in
neuroblastoma
is 7-8 kb in size. We describe for the first time the cloning and sequencing of the 7.3 kb transcript of the NAG gene together with its precise genomic location and full exon structure. The 5' end of the gene is located 30 kb telomeric to
DDX1
, with the two genes lying in opposite orientations. The 52 exons of the 7.3 kb transcript cover 420 kb of genomic DNA. In vitro translation studies confirmed the protein coding potential of the transcript. Co-amplification of the entire NAG gene with MYCN was found in 1/6 (17%)
neuroblastoma
cell lines and 10/50 (20%) primary tumours. Previous studies had measured co-amplification of only the 5' end of the gene, nearest to MYCN. In this study, co-amplification of the NAG gene was found to be significantly associated with low disease stage in MYCN-amplified tumours (P=0.0063).
...
PMID:The neuroblastoma amplified gene, NAG: genomic structure and characterisation of the 7.3 kb transcript predominantly expressed in neuroblastoma. 1270 83
Amplification of the MYCN oncogene in
neuroblastoma
is associated with poor prognosis. The amplified unit of DNA can be up to 1 Mb in size and so could contain additional genes that affect tumour phenotype. Identification of such genes may assist in optimising the determination of prognosis, and could provide new targets for treatment. Three genes have so far been identified, which are frequently co-amplified with MYCN in
neuroblastoma
,
DDX1
, NAG and N-cym. In this review, the known or putative properties of the protein products of the genes are discussed, and their possible roles in determining tumour behaviour are assessed.
...
PMID:Genes co-amplified with MYCN in neuroblastoma: silent passengers or co-determinants of phenotype? 1288 Sep 64
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