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)

A new avian transforming retrovirus, NK24, was isolated from a chicken with a nephroblastoma. This transforming virus induced fibrosarcomas with osteogenic cell proliferation and nephroblastomas in vivo and transformed fibroblast cells in vitro. From extracts of NK24-transformed cells, anti-gag serum immunoprecipitated a 100-kilodalton nonglycosylated protein with no detectable protein kinase activity. An NK24 provirus present in infected quail cells was molecularly cloned and subjected to nucleotide sequence analysis. The genome of NK24 was 5.3 kilobases long and had a 1,126-base-pair sequence of cellular origin in place of a viral sequence of avian leukosis virus containing the 3' half of the gag gene and the 5' half of the pol gene. Although the entire env gene was retained, it appeared to be inactive, possibly owing to the loss of function of its splice acceptor site as a result of a second deletion of 1,598 bases in the 3' half of the pol gene that extended to the acceptor site. Nucleotide sequence analysis revealed that the NK24 virus contained the fos gene, previously identified as the oncogene of FBJ and FBR murine osteosarcoma viruses. Unlike the v-fos gene products of FBJ and FBR, which suffer a structural alteration at their carboxyl termini, the NK24 v-fos gene product seemed to have the same carboxyl-terminal structure as the chicken c-fos gene product. A comparison of the structures of the products of the NK24 v-fos and mouse c-fos genes suggested that the fos gene product consists of highly conserved regions and relatively divergent regions.
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PMID:An avian transforming retrovirus isolated from a nephroblastoma that carries the fos gene as the oncogene. 282 11

Proto-oncogene fos, which is expressed during cell growth and cell differentiation and development, is a multifaceted gene. The viral homolog, v-fos, was identified as the resident transforming gene of FBJ-murine osteosarcoma virus, which induces bone tumors in mice. Owing to an in-frame deletion during the biogenesis of the v-fos gene, the products of viral and cellular fos proteins differ at their C-termini. Despite different C-termini, both fos proteins are nuclear in their location and can transform fibroblasts in vitro. However, transformation by the c-fos gene requires removal of a 67-base pair sequence from the 3' noncoding domain. Proto-oncogene fos is a highly inducible gene in response to a variety of growth factors and differentiation-specific inducers. The expression of the fos gene is not modulated during the cell cycle.
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PMID:Proto-oncogene fos: an inducible multifaceted gene. 282 84

Expression of proto-oncogene fos is induced in response to a variety of growth factors and differentiation-specific agents. However, the induction of fos gene expression is not influenced by inhibition of protein synthesis. We, therefore, entertained the notion that expression of the fos gene may be governed by posttranslational modification of cellular transcriptional factors. We report here that transcription of the human c-fos gene is modulated by negatively and positively acting cellular factors. The nuclear protein products of the resident oncogene of the FBJ-murine osteosarcoma virus (v-fos) and its corresponding cellular proto-oncogene (c-fos) are stoichiometrically phosphorylated on serine and threonine residues. The c-fos protein is more highly phosphorylated than the v-fos protein due to the phosphorylation of unique sites tentatively localized to the c-terminal 20 amino acid residues. The protein kinase C agonist, TPA, stimulates phosphorylation of the c-fos, but not the v-fos protein.
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PMID:Proto-oncogene fos: factors affecting expression and covalent modification of the gene product. 283 Aug 21

Internal irradiation of mice using bone seeking radionuclides results in the activation of endogenous retroviruses and in the subsequent development of bone tumors. Genomic DNA from an osteosarcoma cell line, derived from an 90Sr-induced bone tumor, was cotransfected with the plasmid pSV2-neo into NIH/3T3 cells and G418-resistant transfectants gave rise to colonies in soft agar. Southern blot analysis of these first cycle transformants revealed the presence of extra copies of c-ras. We have analysed the arrangement of ecotropic murine leukemia proviral sequences in seven 90Sr-induced bone tumors and one osteosarcoma cell line of CF1-mice. Integration of ecotropic and/or ecotropic recombinant proviruses seems to be involved in rearrangements of 3' provirus cellular junction fragments occurring in all tumor DNAs analysed, but no indication for site-specific integration was found. We also determined the primary structure of FBR-MuSV, a transforming retrovirus able to induce bone tumors in newborn mice. FBR-MuSV contains sequences from all four exons of the murine c-fos gene, but lacks sequences encoding the first 24 and the last 98 amino acids of the c-fos gene product. The coding region of FBR-MuSV has also undergone two small in frame deletions. Thus, the v-fosFBR-MuSV retains 236 amino acids of the 380 amino acids of the murine c-fos product. In FBR-MuSV-transformed cells two fos-containing mRNAs have been detected: a 3.3-kb full-size genomic RNA and a 2.2-kb subgenomic mRNA as revealed by both fos- and MuLV-hybridization probes.
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PMID:Oncogene involvement in radiation- and virus-induced mouse osteosarcomas. 301 18

Different cell DNA's (normal NIH 3T3 DNA; human osteosarcoma cell DNA; human malignant glioma cell DNA with amplified c-Ha-ras) were cotransfected onto NIH 3T3 cells with cloned long terminal repeat (LTR) sequences of Rous sarcoma virus. LTR RSV and normal NIH 3T3 DNA c-fos oncogen expression was detected in tumors induced in nude mice. In the same system human tumour cell DNA with amplified c-Ha-ras gene was used, that to the integration and amplification of LTP sequences with simultaneous maintenance of c-Ha-ras amplification. Nude mouse tumour DNA with integrated LTR sequences was active in successive rounds of transfection.
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PMID:[Transfer of active oncogenes and promoters into the mouse cell genome]. 302 22

A hybridoma producing a monoclonal antibody (MoAB) recognizing both the cellular and viral forms of fos has been generated by somatic cell hybridization techniques from spleen cells of mice immunized with a synthetic peptide corresponding to amino acids 128-152, a consensus region, of both the v-fos and c-fos oncogene products. Three proteins with molecular weights of 55,000, 44,000, and 42,000 were detected by immunoblotting. While MoAB 2G9C3 failed to immunoprecipitate fos from Finkel-Biskis-Jenkins murine osteosarcoma-virus-infected fibroblasts, both the 55,000 v-fos protein and the 39,000 cellular protein were coprecipitated using polyvalent rabbit antibodies to the same peptide. Whereas no cell surface membrane expression of fos was detected, after membrane permeabilization by a brief exposure to lysolecithin it was possible to specifically detect internal fos by immunofluorescence flow cytometry. Immunohistochemical staining of FBJ virus-infected cells revealed intense, nuclear staining.
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PMID:Generation of a murine monoclonal antibody that detects the fos oncogene product. 303 94

The c-fos proto-oncogene is the cellular homologue of v-fos identified as the bone transforming gene of the FBJ and the FBR murine osteosarcoma viruses. We show here, using a sensitive in situ hybridization method, that the c-fos proto-oncogene is expressed in the cartilage, bone and tooth forming tissues during mouse development. This result suggests that the tumors observed after infection by the FBJ viral complex and c-fos overexpression in transgenic mice occur in those tissues in which c-fos is expressed during development.
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PMID:Expression of the c-fos proto-oncogene in bone, cartilage and tooth forming tissues during mouse development. 314 15

The structures and transcripts of sixteen different cellular oncogenes (c-oncs) were studied in ten human osteosarcoma lines transplanted onto nude mice by Southern and Northern blot hybridization techniques. One osteosarcoma line (WAJI) had an amplification of c-myc gene at about ten-fold normal amount. High levels of c-myc transcripts were detected in four (MINO, OZA, SU, KiKu) of ten osteosarcoma lines. High levels of c-H-ras transcripts were also detected in four (OZA, TOMO, WAJI, SU) of ten osteosarcoma lines. Gene transcripts of c-fos were detected in only one osteosarcoma line (WAJI). Osteosarcomas containing detectable c-myc transcripts grew more rapidly in nude mice than those with undetectable c-myc transcripts. Levels of c-H-ras transcripts were apparently unrelated to the tumor growth rate.
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PMID:[Analysis of cellular oncogenes in human osteosarcomas transplanted into nude mice]. 316 47

Five clonal cell lines were established from a spontaneous BALB/c mouse osteosarcoma, and characterized. Four of these lines showed some similarities in morphology, in vitro growth properties, production of collagenous and noncollagenous extracellular matrix proteins and osteogenic differentiation. The cells formed colonies with characteristic differences in size and morphology in soft agar, and osteogenic sarcomas and metastases in syngeneic mice after transplantation. Ultrastructurally, cells in the transplant tumours showed marked osteogenic features. There were no osteoclast-like cells. The fifth cell line had somewhat different characteristics. All five lines expressed infectious endogenous murine leukemia viruses. Increased c-myc protoon-cogene expression was found in one cell line and c-fos expression at different levels in all lines. There was only very low expression of c-Ha-ras and no expression of c-Ki-ras and c-sis. DNA analysis showed the presence of newly acquired proviral genomes integrated at different sites in the cellular DNA. The results show that distinct osteogenic neoplastic subclones can be obtained from a primary mouse osteosarcoma. Although the clones exhibited an appreciable morphological, functional, and molecular diversity they retained the basic pathogenic properties of the tumour from which they were derived.
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PMID:Establishment and characterization of osteogenic cell lines from a spontaneous murine osteosarcoma. 324 85

Finkel, Biskis and Jinkins murine osteosarcoma virus is a retrovirus that induces bone tumors in mice. The cellular homologue of this virus, c-fos, has been found in normal human and murine cells. This protooncogene is activated during several cell steps: is rapidly induced in cells stimulated to growth and to differentiate; often its induction precedes induction by other protooncogenes. The gene product is a phospho-nucleoprotein having a molecular weight of 55,000 d. The function of this protein is not known at the moment, opening a lot of interesting questions about the role of this protooncogene in normal cells.
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PMID:Molecular structure and properties of fos-oncogene. 331

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