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)

Oncogenes in DNAs from human tumor cell lines have been detected by a new transformation assay. Cellular DNAs are transfected into NIH3T3 murine fibroblasts, and transformed cells are selected by maintaining cell cultures in a defined medium lacking platelet-derived or fibroblast growth factors. DNAs from eight of 17 human tumor cell lines have yielded transformants by this method. Activated cellular ras genes account for three of the transforming activities. The SAOS2 osteosarcoma cell line contains an activated oncogene distinct from 18 known oncogenes. Another cellular oncogene was detected as the consequence of a fortuitous transfection-mediated DNA rearrangement.
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PMID:Human oncogenes detected by a defined medium culture assay. 333 Jul 80

The expression of 7 protooncogenes (c-sis, c-abl, c-mos, c-bas, c-Ki-ras, c-fos, c-myc) was examined in transplants and established cell lines from spontaneous and radiation-induced murine osteosarcomas. The transplant tumors were compared with different tissues, particularly skeletal tissue (sternum), and the osteosarcoma cell lines with fibroblast lines from the same mouse strains. C-sis was expressed above the level of controls in 2 osteosarcomas (TV, Os5). Three osteosarcomas showed over-expression of c-abl (TVK, DOS, Os5), c-bas (DOS, Os5 and V893) and c-fos (TVK, DOS, Os5), and 4 osteosarcomas showed over-expression of c-Ki-ras (TVK, DOS, Os5, Os16) and c-myc (TVK, DOS, TV, Os5). C-mos expression was not observed under the conditions used. One cell line (Os5) showed an altered transcript (1 kb transcript of c-fos). Apart from the relatively frequent increase in expression of the c-myc and c-ras-family, there was no indication that any particular protooncogene or combination of protooncogenes was associated with murine osteosarcomas.
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PMID:Expression of protooncogenes in murine osteosarcomas. 345 17

We present a characterization of an activated oncogene which we found to be present in DNA of the OHA osteosarcoma cell line. We identify this tumor oncogene which transforms Swiss mouse 3T3-cells, with c-ras-Ki 2, one of two known members of the Kirsten ras family of human proto-oncogenes. Its structural outlines are given and we show that: 1) a single point mutation causing a substitution of valine for glycine in codon 12 was found by DNA sequencing; 2) the c-ras-Ki gene is amplified and overexpressed in the original OHA tumor cells and its transformants and 3) the gene product is an abnormal form of the p21 protein.
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PMID:A c-ras-Ki oncogene is activated, amplified and overexpressed in a human osteosarcoma cell line. 347 15

We reported previously that the adenovirus E1a gene reversed the transformed phenotype of one human melanoma and one fibrosarcoma cell line (S. Frisch, Proc. Natl. Acad. Sci. USA, 88: 9077-9081, 1991). To determine the generality of the tumor suppression effects of E1a, a diversity of tumor cell lines, including A204 rhabdomyosarcoma, RD rhabdomyosarcoma, Saos-2 osteosarcoma, NCI-H23 non-small cell lung carcinoma, MDA-MB435S breast carcinoma, and ras-transformed MDCK kidney epithelial cells, were infected with a retrovirus bearing the 12S E1a coding sequence. We demonstrate here that the expression of E1a severely reduced the anchorage-independent and tumorigenic growth of these cell lines without affecting their growth under normal culture conditions. The parental tumor cells used in this study did not overexpress c-erbB-2/neu, and E1a did not affect its expression in these cells. Thus, tumor suppression by E1a can operate in a wide variety of human tumor cells by c-erbB-2/neu-independent mechanisms. E1a also sensitized these cell lines to the cytotoxic effects of the anticancer drugs etoposide and cisplatin. The results suggest that E1a could prove useful for the gene therapy of a wide variety of human cancers.
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PMID:Adenovirus E1a-mediated tumor suppression by a c-erbB-2/neu-independent mechanism. 758 33

The ras oncogene family has been implicated in tumor resistance to ionizing radiotherapy. Using the gene-transfer model, we show here that ras expression may also affect cell responses to chemical inducers of oxidative stress. Studies involving human osteosarcoma subclones, which vary in their levels of EJras expression, revealed a tight correlation between the amounts of ras-encoded mRNA and p21 produced, and the degree of resistance to doxorubicin or hydrogen peroxide. Differences in response could not be explained by increased activity of anti-oxidant enzymes such as superoxide dismutase, glutathione reductase, glutathione S-transferase or glutathione peroxidase. Moreover, there were no significant differences in glutathione levels. Although the resistant cells had elevated levels of gamma-glutamyl-transferase mRNA indicative of an increased rate of glutathione turnover, this elevation was not specific for ras-transfected cell lines. Lovastatin, an inhibitor of protein isoprenylation critical for p21ras membrane association and function, restored the sensitivity of ras-transformed cells to doxorubicin and hydrogen peroxide. The data indicate that pharmacological agents affecting ras expression may enhance responses of some human tumors to free-radical-mediated chemotherapies.
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PMID:Tumor resistance to oxidative stress: association with ras oncogene expression and reversal by lovastatin, an inhibitor of p21ras isoprenylation. 782 24

Activation of ras oncogenes is found in human cancers; overall it is observed in 15% of all neoplasms. The purpose of this study was to assess the extent of involvement of ras oncogenes in osteosarcoma. Tumor samples from a series of 49 pediatric patients diagnosed with osteosarcoma and treated at our institution were evaluated. Paraffin-embedded tumor samples from diagnostic biopsies, from tumor en bloc resection tissue after neoadjuvant chemotherapy, and samples from metastases were examined in search of point mutations in H, K, and N-ras genes at codons 12 and 61 by means of polymerase chain reaction (PCR), slot-blotting, and radioactive labeled specific DNA probes. A total of 92 archival samples were studied. No point mutations activating these genes were found. These findings suggest that the activation by point mutations at codons 12 and 61 of the H, K, and N-ras genes does not play a role in the pathogenesis of human osteosarcoma. Since no point mutations in codons 12 and 61 were detected, it was not possible to establish any correlation between the ras genes and clinical or histologic findings.
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PMID:Mutational activation of ras genes is absent in pediatric osteosarcoma. 785 Jul 51

Expression of ras has been correlated with increased intrinsic resistance to ionizing radiation. In this study we show that increased EJras expression in human cells is associated with a decrease in the frequency of radiation-induced micronuclei. The experimental system consisted of human osteosarcoma-derived cell lines which quantitatively vary in their EJras expression. There was a dose-dependent relationship between radiation dose and micronuclei formation in all cell lines tested. Human osteosarcoma cells, in which the ras level was undetectable, had the highest frequency of micronuclei production at all radiation doses tested. At 4 Gy the most radioresistant cells exhibited a 41.5 +/- 5% decrease in the production of micronuclei concomitant with high ras expression in comparison with the relatively radiosensitive parental cell line. Cells expressing a low amount of EJras demonstrated a 23 +/- 3% decrease in micronuclei induction compared with parental cells. Treatment of cells with lovastatin, an inhibitor of ras-encoded p21ras post-translational processing via the mevalonate pathway, markedly decreased the yield of micronuclei formation in cells transfected with ras; the drug had no effect on radiation-induced micronuclei formation in parental cells. The use of the in vitro micronuclei assay has provided a convenient way to visualize differences in the genotoxic damage induced by ionizing radiation in cells which express different amount of EJras. The results indicate that elevation of ras expression in human cells can lead to a decrease in the number of radiation-induced micronuclei formed and that this relationship is dependent on membrane association of ras-encoded p21.
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PMID:Differences in radiation-induced micronuclei yields of human cells: influence of ras gene expression and protein localization. 790 94

The E2F family of transcription factors controls the expression of genes that are involved in cell cycle regulation. E2F DNA-binding activity is found in complex with the retinoblastoma protein, pRb, and with the pRb-related p107 and p130. To date, cDNAs for three members of the E2F gene family have been isolated. However, all three E2Fs associate in vivo exclusively with pRb. We report here the cloning and functional analysis of a fourth E2F family member. E2F-4 encodes a 413-amino-acid protein with significant homology to E2F-1. E2F-4 antibodies recognize a 60-kD protein in anti-p107 immunoprecipitates, indicating that E2F-4 associates with p107 in vivo. Like the other E2Fs, E2F-4 requires DP-1 for efficient DNA binding and transcriptional activation of E2F site-containing promoters. Increased expression of E2F-4 and DP-1 in SaoS-2 osteosarcoma cells causes a shift from G1-phase cells to S and G2/M-phase cells, suggesting a role for E2F-4 in regulation of cell-cycle progression. We show that expression of E2F-4 and DP-1 together with an activated ras oncogene in rat embryo fibroblasts, causes transformation, indicating that E2F-4 has oncogenic activity.
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PMID:E2F-4, a new member of the E2F gene family, has oncogenic activity and associates with p107 in vivo. 795 25

Calcipotriol (MC903) is a side chain analog of the vitamin D hormone calcitriol, containing a 22-23 double bond, a 24(S)-hydroxyl function, and carbons 25, 26, and 27 incorporated into a cyclopropane ring which has been developed for treating psoriasis. The in vitro metabolism of calcipotriol was studied in two keratinocyte cell models, HPK1A and HPK1A-ras. Calcipotriol was initially converted into the 24-ketone (MC1046) and its 22,23-hydrogenated derivative (MC1080), metabolites observed in osteosarcoma, kidney, and hepatoma cell lines. We also observed the formation of further metabolites, identified as the two 23-hydroxylated derivatives of MC1080 (MC1439 and MC1441), the two 23,24-dihydroxylated compounds (MC1575 and 1577), and the side chain-cleaved compounds, tetranor-1,23-(OH)2D3 and calcitroic acid, the end products of catabolism of calcitriol. These findings suggest that calcitriol and calcipotriol may share catabolic enzymes. The biological activity of each of the principal metabolites of calcipotriol, assessed using a growth hormone reporter gene transcriptional activation system and a vitamin D receptor assay, was found to be lower than that of calcipotriol. If the extensive in vitro metabolism of calcipotriol is also found in normal and psoriatic keratinocytes in vivo, then this may explain the lack of systemic calcemic activity of topically applied drug.
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PMID:In vitro metabolism of the anti-psoriatic vitamin D analog, calcipotriol, in two cultured human keratinocyte models. 810 49

Normal cells in culture exhibit limited division potential and have been used as a model for cellular senescence. In contrast, tumor-derived or carcinogen- or virus-transformed cells are capable of indefinite division. Fusion of normal human diploid fibroblasts with immortal human cells yielded hybrids having limited life spans, indicating that cellular senescence was dominant. Fusions of various immortal human cell lines with each other led to the identification of four complementation groups for indefinite division. The purpose of this study was to determine whether human chromosome 1 could complement the recessive immortal defect of human cell lines assigned to one of the four complementation groups. Using microcell fusion, we introduced a single normal human chromosome 1 into immortal human cell lines representing the complementation groups and determined that it caused loss of proliferative potential of an osteosarcoma-derived cell line (TE85), a cytomegalovirus-transformed lung fibroblast cell line (CMV-Mj-HEL-1), and a Ki-ras(+)-transformed derivative of TE85 (143B TK-), all of which were assigned to complementation group C. This chromosome 1 caused no change in proliferative potential of cell lines representing the other complementation groups. A derivative of human chromosome 1 that had lost most of the q arm by spontaneous deletion was unable to induce senescence in any of the immortal cell lines. This finding indicates that the q arm of human chromosome 1 carries a gene or set of genes which is altered in the cell lines assigned to complementation group C and is involved in the control of cellular senescence.
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PMID:A gene involved in control of human cellular senescence on human chromosome 1q. 813 34

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