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Query: UMLS:C0029463 (
osteosarcoma
)
16,637
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Our aim was to identify chromosomal regions that are likely to harbor previously unknown genes with an important role in the genesis of
osteosarcoma
. Comparative genomic hybridization was used to screen for losses and gains of DNA sequences along all chromosome arms in 11 tumors. Extensive genetic aberrations, with an average of 11 changes/tumor (range, 1-20), were found in 10 of the 11 specimens. High level amplifications of small chromosomal regions were detected in eight tumors. These involved the 12q12-q13 region (known to contain the
SAS
-MDM2 locus) and several previously unreported amplification sites such as 17p11-p12, 3q26, and Xq12. When all DNA sequence gains were evaluated, the gains at 8q and Xp were most common (45%). The most common losses of DNA sequences were seen at 2q, 6q, 8p, and 10p (36%). In conclusion, despite the very complex pattern of genetic changes in osteosarcomas, certain chromosomal regions appear to be affected more often than others. Most of these regions have not previously been reported to be implicated in osteosarcomas and may thus highlight locations of novel genes with an important role in the development and progression of these tumors.
...
PMID:Gains and losses of DNA sequences in osteosarcomas by comparative genomic hybridization. 788 32
The development of several types of human tumors is related to amplification of genes that are involved in cell growth. The protein products of these genes give the cells a selective growth advantage. The q13-15 region of chromosome 12 is frequently altered in human sarcomas, and the
SAS
gene has been identified in an amplification unit mapping to this region. Gene amplification of
SAS
was analyzed to determine the frequency of genetic alteration of this gene in
osteosarcoma
. Using Southern blot analysis as well as quantitative polymerase chain reaction,
SAS
was found to be amplified in 10 (36%) of 28 osteosarcomas. Gene amplification was evaluated in subtypes of
osteosarcoma
. All seven surface osteosarcomas displayed amplified
SAS
. In contrast,
SAS
was amplified in only two (13%) of 15 intramedullary osteosarcomas. The finding that all surface osteosarcomas demonstrated
SAS
gene amplification suggests that this gene may play a role in the pathogenesis of
osteosarcoma
subtypes and that surface
osteosarcoma
may be genetically different from high-grade intramedullary
osteosarcoma
.
...
PMID:SAS is amplified predominantly in surface osteosarcoma. 889 61
Very little is known concerning the cytogenetic and molecular genetic changes of low-grade central
osteosarcoma
, a rare form of
osteosarcoma
. In the present study, we used comparative genomic hybridization (CGH) to screen for DNA sequence copy number aberrations in 10 samples from 6 patients: 7 typical low-grade central osteosarcomas, one low-grade (Grade II) central
osteosarcoma
, and two high-grade (III and IV) local recurrences of a low-grade central
osteosarcoma
Nine samples had aberrations. Six typical low-grade central
osteosarcoma
samples had a single DNA sequence copy number change per tumor. Three samples from more advanced tumors (a Grade II low-grade central
osteosarcoma
and local recurrences of Grade III and IV) had a mean of five changes per tumor. Recurrent changes affected these minimal common regions: +12q13-q14 (three tumors), +12p (two tumors), and +6p21.1-p21.3 (two tumors). Nine samples were analyzed for CDK4 and MDM2 expression and
SAS
amplification. One sample with a gain of chromosome 12 had a very strong expression of MDM2, strong expression of CDK4, and amplification of
SAS
. One sample with a gain of 12q13-q14 had strong expression of CDK4 and MDM2. Strong expression of CDK4 was found in two additional tumors; one had a gain of 12q13-q21, and the other had no changes in chromosome 12 by CGH. No alterations were detected in the CDK4, MDM2, and
SAS
panel in three other samples with no changes in chromosome 12 by CGH. In conclusion, the low number of DNA sequence copy number alterations reflects the relatively low malignancy of low-grade central
osteosarcoma
. This simplicity differs from the complex aberrations seen in conventional high-grade osteosarcomas.
...
PMID:Comparative genomic hybridization of low-grade central osteosarcoma. 961 93
Amplification of genes in the 12q13-15 region occurs frequently in several malignancies including osteosarcoma. The products of these amplified genes are thought to provide cancer cells with a selective growth advantage; however, the specific gene(s) driving this amplicon is unknown. We have previously shown that the
SAS
gene is amplified in most parosteal osteosarcomas. In this study we analysed additional putative growth regulatory genes in this chromosomal region in 24 primary
osteosarcoma
specimens. CDK4 and
SAS
were coamplified in 6/6 parosteal tumors, and MDM2 was also amplified in 4/5 parosteal cases. In comparison, amplification occurred in only 2/16 classical intramedullary osteosarcomas and involved the
SAS
gene. Each amplified gene had a correspondingly elevated mRNA level. Four high grade intramedullary tumors had elevated mRNA expression of
SAS
, but did not exhibit gene amplification. Gene amplification/overexpression was not associated with metastatic disease and did not change markedly with tumor progression, as evidenced by analysis of sequential tumor specimens from eight patients. Three other genes in the 12q13-15 region (CDK2, WNT1 and WNT10b) were not amplified in any of the tumors. The different patterns of gene amplification and overexpression of CDK4,
SAS
and MDM2 in parosteal and intramedullary osteosarcomas may help explain the disparity in the biological behaviour of these two types of
osteosarcoma
.
...
PMID:Co-amplification and overexpression of CDK4, SAS and MDM2 occurs frequently in human parosteal osteosarcomas. 998 29
Osteosarcoma
is one of the most commonly biopsied primary tumor of bone. High-grade osteosarcomas in particular exhibit a wide spectrum of cytogenetic changes. Molecular cytogenetic studies on osteosarcomas have shown that genomic amplification, especially of both the TP53-binding MDM2 gene and the flanking
SAS
gene, plays an important role in the biology of these tumors. We applied CGH in order to obtain a global view of DNA-sequence losses and gains in
osteosarcoma
. CGH was performed on 20 high-grade medullary osteosarcomas (13 primary tumors prior to chemotherapy, 5 tumors after chemotherapy, 2 established cell lines [MB63, HOS58]) using genomic DNA of snap-frozen tumor specimens. CGH revealed DNA copy number aberrations, mostly gains, in all the tumors studied with an average of 18.5 aberrations/tumor (range 8-32). High-level amplifications were observed in all cases (average 4.1 amplifications/tumor [range 1-10]). Amplicons affecting at least five tumors were mapped to 1p21-31 (9/20 cases), 3q25-qter (6/20), 6p12-21 (6/20), 8q12-qter (10/20), 12p11-12 (9/20), 12q12-15 (enclosing MDM2 and
SAS
loci, 7/20). Losses were most frequently seen at 3p, 10q, 11p and 13 (all 10/20). In conclusion, our CGH data indicated that genomic amplification plays an important role in the biology of
osteosarcoma
. CGH demonstrated the complexity of genetic aberrations in osteosarcomas. The detection of novel non-random DNA amplifications in our study has defined regions for further targeted molecular genetic research aimed at identifying those oncogenes that are characteristic of
osteosarcoma
development.
...
PMID:[Comparative genomic hybridization (CGH) for detecting a heretofore undescribed amplified chromosomal segment in high-grade medullary osteosarcoma]. 1009 31
The region q13-15 of chromosome 12 contains
SAS
, CDK4, and MDM2 genes that are rearranged or amplified in a variety of human sarcomas. This study evaluated
SAS
gene amplification, and MDM2 and CDK4 protein expression in 20 tumor samples of central low-grade
osteosarcoma
(16 primary, 3 recurrences, 1 lung metastasis).
SAS
amplification was analyzed by quantitative polymerase chain reaction (PCR), while from the same paraffin-embedded samples, MDM2 and CDK4 protein expression was evaluated by immunohistochemistry. MDM2 and CDK4 proteins were found strongly expressed in 35% and 65%, respectively, of the samples.
SAS
was found amplified in 15% of the samples. These findings indicate that these genes may be involved in tumorigenesis and progression of low-grade
osteosarcoma
.
...
PMID:Analysis of SAS gene and CDK4 and MDM2 proteins in low-grade osteosarcoma. 1010 94
We studied the involvement of PRIM1 in
osteosarcoma
by differential display, Northern and Southern hybridization, as well as fluorescence in situ hybridization (FISH) on interphase nuclei. In total, 22 pediatric oncology specimens were tested. PRIM1 was found to be amplified in 41% of the samples. PRIM1 is coamplified with the core 12q13 amplicon genes CDK4,
SAS
, and OS9, and was physically mapped very close to them. PRIM1 is therefore a new candidate for the role of a major target gene of 12q13 amplifications in human cancers. Genes Chromosomes Cancer 26:62-69, 1999.
...
PMID:Amplifications of DNA primase 1 (PRIM1) in human osteosarcoma. 1044 Oct 7
The region q13-15 of chromosome 12 frequently is altered in human sarcomas, and several genes, such as
SAS
, CDK4, and MDM2, have been found to be amplified in bone and soft tissue sarcomas. These genes and their products were studied by quantitative polymerase chain reaction and immunohistochemical analysis in 25 parosteal
osteosarcoma
samples (22 Grades I or II, three dedifferentiated) to evaluate if the possible alterations detected of the genes on chromosome 12 could have a role in the development of this rare bone tumor. Immunohistochemical analysis was performed on formalin fixed, paraffin embedded tumor sections to evaluate CDK4 and MDM2 protein expression. To measure the degree of
SAS
and CDK4 gene amplification, quantitative polymerase chain reaction was done on deoxyribonucleic acid derived from the same samples. The results showed that CDK4 protein was expressed in 92% of the cases. Strong and uniform CDK4 and MDM2 immunoreactivity was found respectively in three of three and two of three dedifferentiated parosteal osteosarcomas.
SAS
and CDK4 genes were found to be amplified fourfold in two Grade II tumors and in one dedifferentiated tumor. These findings, which should be investigated further, might suggest a possible role of the chromosome 12 genes in the pathogenesis of parosteal
osteosarcoma
.
...
PMID:Analysis of 12q13-15 genes in parosteal osteosarcoma. 1094 2
We previously reported that an ELAS1 peptide containing 29 amino acids induces apoptotic death in U2OS human
osteosarcoma
cells following DNA double-strand break insults. Here, we show that ELAS1 also caused apoptosis in prostate adenocarcinoma DU145 cells and tongue squamous-cell carcinoma
SAS
cells. ELAS1 appears to be safe because it induced apoptosis only in cancer cells, not in normal KD cells. Because the effect of ELAS1 is dependent on increased stability of p53 and enhanced phosphorylation of p53-S46, we exogenously expressed wild-type p53 protein to fully promote ELAS1-mediated induction of apoptosis in
SAS
cells. Interestingly, simultaneous expression of Myc-ELAS1 and FLAG-p53 mediated by an internal ribosome entry site efficiently induced apoptosis in
SAS
cells. Moreover, we prepared a recombinant adenovirus that simultaneously expressed Myc-ELAS1 and FLAG-p53. This adenovirus also killed
SAS
cells, as determined by a cell viability assay, in the presence of camptothecin, an inducer of DNA double-strand breaks. Moreover, nude mice harboring Myc-ELAS1-expressing
SAS
cells lived longer than mice harboring Myc-vector-expressing
SAS
cells, suggesting the usefulness of ELAS1
in vivo
. Notably, Cy5-tagged ELAS1-t, which contained only ten amino acids, also efficiently induced apoptosis in both DU145 and
SAS
cells, suggesting the usefulness of ELAS1-t as a peptide. Taken together, our results suggest that ELAS1 is therapeutically useful as a peptide drug.
...
PMID:ELAS1 induces apoptotic death in adenocarcinoma DU145 and squamous-cell carcinoma SAS cancer cells, but not in normal KD cells. 2915 63
