UMLS:C0029463 - FACTA Search

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Query: UMLS:C0029463 (osteosarcoma)
16,637 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Isozymes of 11beta-hydroxysteroid dehydrogenase (11beta-HSD) act at a prereceptor level to regulate the tissue-specific availability of active glucocorticoids. To examine the effect of this on cell proliferation and differentiation, we have developed transfectant variants of a rat osteosarcoma cell line that express cDNA for 11beta-HSD1 (ROS 17/2.8beta1) or 11beta-HSD2 (ROS 17/2.8beta2). ROS 17/2.8beta1 showed net conversion of cortisone to cortisol whereas ROS 17/2.8beta2 showed only inactivation of cortisol to cortisone. There was no significant difference in glucocorticoid receptor (GR) expression between the different clones. However, in proliferation and differentiation studies, ROS 17/2.8beta2 cells were completely resistant to cortisol. In contrast, ROS 17/2.8beta1 were sensitive to both cortisone and cortisol. Expression of 11beta-HSD1 decreased cell proliferation whereas 11beta-HSD2 increased proliferation. These responses appear to be due to metabolism of endogenous serum glucocorticoids; proliferation of ROS 17/2.8beta1 decreased further with exogenous cortisone or cortisol whereas ROS 17/2.8beta2 were resistant to both compounds. The pro-proliferative effects of 11beta-HSD2 were abrogated by 18beta-glycyrrhetinic acid, an 11beta-HSD inhibitor, and in cells transfected with cDNA encoding inactive 11beta-HSD2. Data indicate that differential regulation of 11beta-HSD1 and 2 (rather than GR expression) is a key determinant of cell proliferation. Dysregulated expression of 11beta-HSD2 may be a novel feature of tumorigenesis.
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PMID:Prereceptor regulation of glucocorticoid action by 11beta-hydroxysteroid dehydrogenase: a novel determinant of cell proliferation. 1177 34

The present study was carried out to determine the extent to which genetic factors modify the incidence of radiation-induced bone tumorigenesis in mice, and to map putative susceptibility genes. We conducted a genome-wide linkage analysis in a cohort of 47 interstrain backcrossed mice. After the mice were injected with the bone-seeking alpha-particle-emitting radionuclide (227)Th, 21 of the mice developed osteosarcomas. Two loci, one on chromosome 7 close to D7Mit145 and a second on chromosome 14 (D14Mit125), exhibited suggestive linkage to osteosarcoma predisposition, with LOD scores of 1.37 and 1.05, respectively. The LOD score increased considerably when interaction between these two loci was taken into account (LOD = 3.48). Nine of 12 mice inheriting a susceptibility allele at both loci developed osteosarcomas after (227)Th injection, compared to only four osteosarcomas in 18 animals that did not inherit either of the susceptibility alleles. Variance component analysis revealed that these genetic factors determine approximately one-fifth of the total incidence of osteosarcomas. This study demonstrates the presence of a genetic component that modulates predisposition to radiation-induced osteosarcoma.
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PMID:Bone tumorigenesis induced by alpha-particle radiation: mapping of genetic loci influencing predisposition in mice. 1189 45

p19(ARF) is a key regulator of the p53-mediated apoptotic and tumor suppressor pathway. The proapoptotic Bax gene is a transcription target of p53, yet genetic studies in some animal models have suggested that Bax and p53 loss may cooperate in tumorigenesis. ARF-deficient mice are tumor prone, and to determine whether Bax loss could cooperate in the development of these tumors, we generated mice null for both ARF and Bax. The tumor latency of Bax+/+ARF-/-, Bax+/-ARF-/- and Bax-/-ARF-/- mice was similar with a mean survival of 48.9, 48.1, and 47.6 weeks, respectively. In Bax+/+ARF-/- mice, the predominant tumor type was B- and T-cell lymphoma followed by sarcomas and a lack of carcinomas. However, the frequency of lymphoma development dramatically decreased, whereas that of sarcomas and carcinomas increased, in a gene dosage-dependent manner in Bax+/-ARF-/- and Bax-/-ARF-/- mice. Furthermore, uncommon tumors of ARF-/- mice (osteosarcoma and hemangiosarcoma) were observed in Bax/ARF-double null mice, and tumor types not described previously in ARF-null mice (mixed germ cell tumor, Triton tumor, and histiocytic sarcoma) also developed in Bax-/-ARF-/- animals. Importantly, multiple primary malignant tumors of different lineage arose in 25% of the Bax-/-ARF-/- mice, whereas only one tumor type per animal was observed in Bax+/+ARF-null littermates. Finally, the wild-type Bax allele was retained in tumors arising in Bax+/-ARF-/- mice. Thus, Bax appears to function as a tumor modifier rather than as a classic tumor suppressor, and the combined loss of Bax and the ARF allows for the emergence of multiple malignant tumor types, an alteration of the tumor spectrum, and tumors not observed previously in ARF-null mice.
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PMID:Loss of Bax alters tumor spectrum and tumor numbers in ARF-deficient mice. 1192 42

Pharmacological inactivation of oncogenes is being investigated as a possible therapeutic strategy for cancer. One potential drawback is that cessation of such therapy may allow reactivation of the oncogene and tumor regrowth. We used a conditional transgenic mouse model for MYC-induced tumorigenesis to demonstrate that brief inactivation of MYC results in the sustained regression of tumors and the differentiation of osteogenic sarcoma cells into mature osteocytes. Subsequent reactivation of MYC did not restore the cells' malignant properties but instead induced apoptosis. Thus, brief MYC inactivation appears to cause epigenetic changes in tumor cells that render them insensitive to MYC-induced tumorigenesis. These results raise the possibility that transient inactivation of MYC may be an effective therapy for certain cancers.
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PMID:Sustained loss of a neoplastic phenotype by brief inactivation of MYC. 1209 89

The molecular events that precede the development of osteosarcoma, the most common primary malignancy of bone, are unclear, and concurrent molecular and genetic alterations associated with its pathogenesis have yet to be identified. Recent studies suggest that activation of beta-catenin signaling may play an important role in human tumorigenesis. To investigate the potential role of beta-catenin deregulation in human osteosarcoma, we analyzed a panel of 47 osteosarcoma samples for beta-catenin accumulation using immunohistochemistry. Potential activating mutations were investigated by sequencing exon 3 of the beta-catenin gene in genomic DNA isolated from tumor samples. Our findings revealed cytoplasmic and/or nuclear accumulation of beta-catenin in 33 of 47 samples (70.2%); however, mutation analysis failed to detect any genetic alterations within exon 3, suggesting that other regulatory mechanisms may play an important role in activating beta-catenin signaling in osteosarcoma. In our survival analysis, beta-catenin deregulation conferred a hazard ratio of 1.05, indicating that beta-catenin accumulation does not appear to be of prognostic value for osteosarcoma patients. When analyzed against other clinicopathologic parameters, beta-catenin accumulation correlated only with younger age at presentation (26.4 vs. 39.8 years). Nevertheless, our results demonstrate that the deregulation of beta-catenin signaling is a common occurrence in osteosarcoma that is implicated in the pathogenesis of osteosarcoma.
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PMID:Cytoplasmic and/or nuclear accumulation of the beta-catenin protein is a frequent event in human osteosarcoma. 1240 2

Amplification of region 17p11.2 approximately p12 has been found in 13%-29% of high-grade osteosarcomas, suggesting the presence of an oncogene or oncogenes that may contribute to their development. To determine the location of these putative oncogenes, we established 17p11.2 approximately p12 amplification profiles by semiquantitative PCR, using 15 microsatellite markers and seven candidate genes in 19 high-grade osteosarcomas. Most of the tumors displayed complex amplification profiles, with frequent involvement of marker D17S2041 in 17p12 and TOP3A in 17p11.2 and, in some cases, very high-level amplification of PMP22 and MAPK7 in 17p11.2. Our findings suggest that multiple amplification targets, including PMP22, TOP3A, and MAPK7 or genes close to these candidate oncogenes, may be present in 17p11.2 approximately p12 and thus contribute to osteosarcoma tumorigenesis.
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PMID:Amplification of 17p11.2 approximately p12, including PMP22, TOP3A, and MAPK7, in high-grade osteosarcoma. 1255 Jul 67

The adjacent insulin-like growth factor 2 (IGF2) and H19 genes are imprinted in most normal human tissues, but imprinting is often lost in tumors. The mechanisms involved in maintenance of imprinting (MOI) and loss of imprinting (LOI) are unresolved. We show here that osteosarcoma (OS) tumors with IGF2/H19 MOI exhibit allele-specific differential methylation of a CTCF-binding site upstream of H19. LOI of IGF2 or H19 in OS occurs in a mutually exclusive manner, and occurs with monoallelic expression of the other gene. Bisulfite sequencing reveals IGF2 LOI occurs with biallelic CpG methylation of the CTCF-binding site, while H19 LOI occurs with biallelic hypomethylation of this site. Our data demonstrate that IGF2 LOI and H19 LOI are accompanied by reciprocal methylation changes at a critical CTCF-binding site. We propose a model in which incomplete gain or loss of methylation at this CTCF-binding site during tumorigenesis explains the complex and often conflicting expression patterns of IGF2 and H19 in tumors.
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PMID:Loss of imprinting of IGF2 and H19 in osteosarcoma is accompanied by reciprocal methylation changes of a CTCF-binding site. 1258 1

We used representational difference analysis to identify homozygous genomic deletions selected during tumor progression in the mouse NF2 and TP53 tumor model. We describe a deletion targeting DOCK4, a member of the CDM gene family encoding regulators of small GTPases. DOCK4 specifically activates Rap GTPase, enhancing the formation of adherens junctions. DOCK4 mutations are present in a subset of human cancer cell lines; a recurrent missense mutant identified in human prostate and ovarian cancers encodes a protein that is defective in Rap1 activation. The engulfment defect of C. elegans mutants lacking the CDM gene ced-5 is rescued by wild-type DOCK4, but not by the mutant allele. Expression of wild-type, but not mutant, DOCK4 in mouse osteosarcoma cells with a deletion of the endogenous gene suppresses growth in soft agar and tumor invasion in vivo. DOCK4 therefore encodes a CDM family member that regulates intercellular junctions and is disrupted during tumorigenesis.
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PMID:DOCK4, a GTPase activator, is disrupted during tumorigenesis. 1262 87

Previous analysis of tumor-specific constitutional LOH had identified a putative tumor-suppressor gene (LOH18CR) active in osteosarcoma tumorigenesis, which mapped to a subregion of chromosome 18q linked to both familial Paget's disease and FEO. Using 9 new polymorphic loci within the previous minimal region of LOH, we have reduced the minimal region of LOH in osteosarcoma tumors to localize the LOH18CR locus to the distal end of chromosome 18q21.33. This new region is approximately 500 kb and contains at least 7 known genes; however, it excludes 2 previous candidate genes: TNFRSF11A (RANK) and BCL2.
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PMID:Determination of a minimal region of loss of heterozygosity on chromosome 18q21.33 in osteosarcoma. 1267 93

We investigated the expression and mutation of three isoforms of the Ras effector RASSF1 in 10 primary osteosarcomas and 6 osteosarcoma cell lines. RASSF1A was not expressed in 40% (4/10) of the primary osteosarcomas and 83.3% (5/6) of the osteosarcoma cell lines. RASSF1B and RASSF1C expression was absent in 30% (3/10) and 0% (0/10) of primary tumors, and 100% (6/6) and 0% (0/6) of osteosarcoma cell lines, respectively. Treatment of these cell lines with the DNA methylation inhibitor 5-aza-2'-deoxycytidine reactivated the transcription of RASSF1A, but not that of RASSF1B or RASSF1C. No somatic mutations were noted in RASSF1 in either the primary tumors or cell lines. Our data indicate that epigenetic inactivation of RASSF1A by hypermethylation of its promoter region is a frequent event, and may play an important role in the tumorigenesis of osteosarcomas.
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PMID:Inactivation of the RASSF1A in osteosarcoma. 1279 42

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