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)

The human osteosarcoma cell culture HOS does not produce matrix metalloproteinases (MPs). However, after transformation with the Ki-ras oncogene, the resulting culture (KHOS) produced readily detectable MPs. The molecular weight of the major MP was 66 kDa, while the molecular weights of two other minor bands were 71 kDa and 60 kDa. The activity of all three enzymes was inactivated by treatment with ethylene diaminetetra acetic acid, indicating that they are probably MPs. The substrate preference of the 66-kDa MP (in decreasing order) was gelatin and collagens V, I, III, and IV. Treatment of the MPs with p-aminophenylmercuric acetate led to the appearance of 62-kDa activated enzyme. The MP produced by KHOS cells did not react with the monoclonal anti-rat stromelysin antibody MC. Treatment of KHOS cells with retinoic acid and dexamethasone, which are known to suppress c-fos/c-jun and AP-1, suppressed the production of the MPs. Therefore, the activation of MPs by Ki-ras in KHOS cells may involve c-fos/c-jun and the AP-1-responsive pathway.
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PMID:Activated production of metalloproteinases in Ki-ras-transformed human osteosarcoma cells. 815 1

Although loss of cell surface fibronectin (FN) is a hallmark of many oncogenically transformed cells, the mechanisms responsible for this phenomenon remain poorly understood. The present study utilized the nontumorigenic human osteosarcoma cell line TE-85 to investigate the effects of induced Ha-ras oncogene expression on FN biosynthesis. TE-85 cells were stably transfected with metallothionein-Ha-ras fusion genes, and the effects of metal-induced ras expression on FN biosynthesis were determined. Induction of the ras oncogene, but not proto-oncogene, was accompanied by a decrease in total FN mRNA and protein levels. Transfection experiments indicated that these oncogene effects were not due to reduced FN promoter activity, suggesting that a posttranscriptional mechanism was involved. The most common mechanism of posttranscriptional regulation affects cytoplasmic mRNA stability. However, in this study the down-regulation of FN was identified as a nuclear event. A component of the ras effect was due to a mechanism affecting accumulation of processed nuclear FN RNA. Mechanisms that would generate such an effect include altered RNA processing and altered stability of the processed message in the nucleus. There was no effect of ras on FN mRNA poly(A) tail length or site of polyadenylation. There was also no evidence for altered splicing at the ED-B domain of FN mRNA. This demonstration of nuclear posttranscriptional down-regulation of FN by the Ha-ras oncogene identifies a new level at which ras oncoproteins can regulate gene expression and thus contribute to development of the malignant phenotype.
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PMID:A novel mechanism of Ha-ras oncogene action: regulation of fibronectin mRNA levels by a nuclear posttranscriptional event. 816 64

Two uncommon tumors of the head and neck first revealed primary roles for two classes of cancer genes (oncogenes, tumor suppressor genes) in the origin of human cancer. In Burkitt's lymphoma the initiating event is a chromosomal translocation that leads to unregulated expression of an oncogene (MYCC), whereas retinoblastoma involves loss of function of both copies of a tumor suppressor gene (RB1). In osteosarcoma the RB1 gene is often affected, as is the gene (TP53) that codes for the p53 protein. TP53 is frequently mutated in carcinomas of the head and neck, as in one of the ras oncogenes. Multiple genetic changes typify carcinomas. Some carcinomas of the head and neck contain one of the human papilloma viruses that produce proteins that combine with and inactivate p53 and pRB proteins, rendering mutations in these genes unnecessary.
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PMID:Genetics of tumors of the head and neck. 839 Dec 74

The human fibroblast activation protein (FAP), defined by monoclonal antibody F19, is expressed in vivo in reactive stromal fibroblasts of epithelial cancers, subsets of bone and soft tissue sarcomas, and granulation tissue of healing wounds. FAP is generally absent from the stroma of benign epithelial tumors and normal adult tissues. In vitro FAP induction is observed in proliferating cultured fibroblasts and in melanocytes grown with fibroblast growth factor and phorbol ester. In the present study, we show that fibroblast and melanocyte FAP is a cell surface protein comprising noncovalently linked M(r) 95,000 (p95) and M(r) 105,000 (p105) subunits. In contrast, cultured sarcoma and melanoma cell lines express only p95 or are FAP negative. Immunoblot experiments show that p95, but not p105, carries the epitope defined by monoclonal antibody F19. Furthermore, peptide maps of purified p95 and p105 differ, suggesting that they may be distinct gene products. Loss of FAP or a change from p95/p105 to p95 expression accompanies the acquisition of growth factor independence and tumorigenicity in several in vitro test systems, including simian virus 40 transformation of normal fibroblasts, Ha-ras transformation of normal melanocytes, supertransformation of osteosarcoma cells, and enhanced N-MYC expression in variant neuroblastoma cells, whereas serum-starved normal fibroblasts continue to express p95/p105. Thus, fAP expression appears to be linked to the growth factor-dependent proliferative capacity of normal cells and is not merely a secondary event in proliferating cells; furthermore, FAP expression is inversely correlated with growth factor independence and tumorigenicity in transformed cell lines. This distribution pattern is consistent with a role for p95/p105 in mediating extrinsic, growth regulatory signals in normal cells, possibly as a heteromeric cell surface receptor. Such a physiological function may be obviated when oncogenes with cytoplasmic or nuclear sites of action are activated, reducing extrinsic growth factor dependence and permitting down-regulation of FAP in certain transformed cells.
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PMID:Regulation and heteromeric structure of the fibroblast activation protein in normal and transformed cells of mesenchymal and neuroectodermal origin. 839 23

There is a pressing need for in vivo models in which potential antitumor agents can be tested for their ability to inhibit the growth and metastatic spread of human sarcomas. A recent advance in this regard has been the development of a v-Ki-ras-oncogene-transformed human osteosarcoma cell line (KRIB) that efficiently colonizes the lungs of athymic nude mice when cells (1 x 10(5)) are administered by i.v. injection. In the present study, we have utilized this cell line to develop a spontaneous metastasis model in which a small number of tumor cells are injected into the tibial bones of athymic mice. When as few as 1000 KRIB cells are orthotopically implanted into the tibial bones of nude mice, bone tumors, which are radiographically and histologically similar to primary human osteosarcoma, develop within 4 weeks. Furthermore, as in the human disease, cells from these primary tumors subsequently seed the animals' lungs, resulting in reproducible and quantifiable pulmonary metastasis evident both upon gross inspection of the lungs and histologically 6 weeks after tumor inoculation. Surgical amputation of the tumor inoculation site up to 2 weeks after tumor injection prevents pulmonary metastasis, indicating that substantial local (tibial) growth and invasion of the primary tumor for at least 2 weeks is required for subsequent metastasis. Implantation of s.c. 5000 KRIB cells fails to produce local or metastatic tumors. We anticipate that this model will prove to be a powerful tool with which to study the mechanisms of human osteosarcoma growth and pulmonary metastasis, and to assess the efficacy of promising therapeutic agents.
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PMID:Development of a novel spontaneous metastasis model of human osteosarcoma transplanted orthotopically into bone of athymic mice. 840 77

Alterations in ras oncogene expression have been associated with increased cellular resistance to ionizing radiation. As an extension of studies with murine cell models, we have now explored the radioresponses of human osteosarcoma (HOS) sub-clones that differ in their EJras expression. Quantitative analysis revealed a tight correlation between the amounts of ras-encoded mRNA and p21 produced, and the degree of cell radioresistance. Interestingly, treatment of the ras-transformed cells with lovastatin, an inhibitor of p21ras post-translational processing via the mevalonate pathway, markedly decreased their radioresistance. Under the experimental conditions used, lovastatin prevented the membrane association, but not the biosynthesis, of p21. The decline in radiation resistance following lovastatin treatment could not be attributed to perturbation of cholesterol metabolism or to non-specific cell-cycle effects. In agreement, lovastatin did not alter the radiation responses of control HOS cells that do not express EJras, or those with an activated met oncogene. The results indicate that elevation in ras gene expression can lead to increased radioresistance of human tumor cells. It appears, however, that p21ras membrane localization is critical for maintenance of the radioresistant phenotype, thus providing a target for pharmacological intervention.
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PMID:Increased radioresistance of EJras-transformed human osteosarcoma cells and its modulation by lovastatin, an inhibitor of p21ras isoprenylation. 842 69

Efforts to investigate the progression of events that lead normal human cells in culture to become neoplastic in response to carcinogenic agents have been aided by the development of the suitable in vitro model systems. For initial human cell transformation studies, a flat, nontumorigenic clonal line, originally derived from a human osteosarcoma (HOS), was used. When treated with chemical carcinogens such as N-methyl-N-nitro-N-nitrosoguanidine (MNNG) and 3-methyl-cholanthrene (3MC), the HOS cells underwent morphological alterations and acquired tumorigenic properties. These cell lines were very useful inasmuch as a non-ras cellular transforming gene, met, and an activated H-ras oncogene have been isolated from MNNG-transformed and 3MC-transformed HOS lines, respectively, by DNA transfection procedure. Alteration of p53 gene in chemically transformed HOS cell lines has recently been shown. Although carcinogens cause human cancer, normal human cells in culture have proven difficult to achieve. Neoplastic transformation of human cells in culture has recently been achieved by a stepwise fashion-immortalization and conversion of the immortalized cells to tumorigenic cells. One of the critical initial events in the progression of normal human cells to tumor cells is the escape from cellular senescence. With few exceptions, normal human cells require immortalization to provide a practical system for transformation studies. Thus, the role of carcinogenic agents in the development of human cancers is now being defined using a variety of human cells. The neoplastic transformation in human cell cultures is reviewed. In doing so, this author attempts to put into perspective the history of human cell transformation by carcinogenic agents, and to discuss the current state of the art in transformation of human cells in culture; thus providing insight into the molecular and cellular mechanisms involved in the conversion of normal cells to a neoplastic state of growth.
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PMID:Neoplastic transformation of human cells in vitro. 848 2

The present study was undertaken to examine oncogene abnormalities in human bone and soft tissue tumors. Twenty four tumor tissues and one human cell strain established from an osteosarcoma were examined by Southern blot analysis using a recessive oncogene (p0.9R and p3.8R derived from a cDNA of the Rb gene) and eight dominant oncogenes (c-myc, c-K-ras, c-fos, c-raf-1, c-fms, c-sis, N-myc, and c-erb B) as probes. Homozygous deletions or other alterations within the Rb locus were found in 3 of 6 osteosarcomas, 1 osteosarcoma cell line, 1 of 3 malignant fibrous histiocytomas and 1 of 2 Ewing's sarcomas. On the other hand, amplification of c-myc was found in 2 osteosarcomas and 1 osteosarcoma cell line. All cases with c-myc amplification had alterations in the structure of the Rb locus, and these patients showed rapid clinical malignancy progression and a probable tendency to bone metastases. Results of this study suggest that structural alterations of the Rb gene and amplification of c-myc might play an important role in the clinical course and pathogenesis of osteosarcoma.
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PMID:Alterations of retinoblastoma susceptible gene accompanied by c-myc amplification in human bone and soft tissue tumors. 851 77

We investigated the structure and the expression of various oncogenes in three of the most common human bone tumors-osteosarcoma (36 samples from 34 patients), giant cell tumor (10 patients), and chondrosarcoma (18 patients)-in an attempt to identify the genetic alterations associated with these malignancies. Alterations of RB and p53 were detected only in osteosarcomas. Alterations of c-myc, N-myc, and c-fos were detected in osteosarcomas and giant cell tumors. Ras alterations (H-ras, Ki-ras, N-ras) were rare. Chondrosarcomas did not contain any detectable genetic alterations. Our results suggest that alterations of c-myc, N-myc, and c-fos oncogenes occur in osteosarcomas, in addition to those previously described for the tumor suppressor genes RB and p53. Moreover, statistical analyses indicate that c-fos alterations occur more frequently in osteosarcoma patients with recurrent or metastatic disease.
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PMID:Oncogene alterations in primary, recurrent, and metastatic human bone tumors. 889 2

Alterations in the synthesis and activity of lysyl oxidase occur concomitant with developmental changes in collagen and elastin deposition and with the pathogenesis of several acquired and heritable connective tissue disorders. To begin to unravel the mechanisms that control lysyloxidase gene expression, we have previously reported the complete exon-intron structure of the human lysyl oxidase gene. We have now sequenced this entire gene, including all six introns and 4 kb of DNA 5' of exon 1. Analysis of over 13 kb of intervening sequence and 5' flanking sequence revealed a concentration of conserved consensus sequence elements within the first intron and 1 kb immediately 5' of exon 1. Analysis of intron 1 and the 5' flanking domain, using recombinant plasmids containing the chloramphenicol acetyl transferase (CAT) reporter gene, identified functional DNA sequence elements within these non-coding domains responsible for inhibition and up-regulation of CAT activity in primary cultures of human skin fibroblasts, in smooth muscle cells, revertant cells derived from an osteosarcoma cell line and malignant c-Ha-ras-transformed osteosarcoma cells. DNA sequence elements within intron 1, in particular, resulted in a marked increase in CAT reporter activity in cultured fibroblasts, smooth muscle cells and osteosarcoma cells. In c-Ha-ras-transformed osteosarcoma cells, however, no such enhancer activity of intron 1 sequence was observed. Ras-transformed osteosarcoma cells exhibited reduced steady-state levels of lysyl oxidase mRNA that was primarily controlled through reduced transcription of the lysyl oxidase gene. The lack of any up-regulation of CAT activity in these ras-transformed cells by sequence elements within intron 1 suggests a complex interaction between cis-acting domains and trans-acting transcriptional factors in the 5' promoter domain and the first intron of the lysyl oxidase gene.
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PMID:Functional analysis of the promoter and first intron of the human lysyl oxidase gene. 898 23

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