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)

Co-cultures of human osteosarcoma Takase (OST) cells with various human fibroblasts derived from surgical specimens stimulated production of gelatinase B (92-kDa type-IV collagenase, MMP-9), tissue inhibitors of metalloproteinase (TIMP)-1, and TIMP-2 when compared to cultures of individual cells. The maximum stimulation of gelatinase-B production occurred at a cellular ratio of 1:1. Conditioned media from several fibroblast cultures stimulated OST cells to produce gelatinase B, TIMP-1 and TIMP-2, but not vice versa. Among various recombinant growth factors or cytokines, tumor necrosis factor (TNF)-alpha stimulated gelatinase-B production in cultures of OST cells alone, while recombinant basic fibroblast growth factor (bFGF) stimulated gelatinase-B production in co-cultures of OST cells with skin fibroblasts but not in individual cultures of each cell type. In the co-cultures, gelatinase-B production was inhibited by anti-bFGF monoclonal antibody (MAb), but not by anti TNF-alpha MAb. This co-culture-specific stimulation of gelatinase-B production by bFGF was associated with increased expression of the FGF receptor in the co-culture.
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PMID:Stimulation of gelatinase B and tissue inhibitors of metalloproteinase (TIMP) production in co-culture of human osteosarcoma cells and human fibroblasts: gelatinase B production was stimulated via up-regulation of fibroblast growth factor (FGF) receptor. 860 72

Matrix metalloproteinases (MMPs) have an important role in many biological processes, such as tumor metastasis, wound healing, and inflammation. The regulation of MMPs and their inhibitors is still not known in detail, and the aim of this study was to investigate the effects of dexamethasone on cultured oral benign and malignant cell lines. The expression of MMPs in culture was studied: in four gingival (GF) and one periodontal ligament (PLF) fibroblast cell lines; in six gingival keratinocyte (GK) cell lines; and in UNR (UNR-108, rat osteogenic sarcoma) and SCC (SCC-25, human tongue squamous cell carcinoma) cell lines. In the GFs, PLFs, and UNR cells, only MMP-2 (72 kDa gelatinase) was detected by gelatin zymography, while in most of the GK cell lines only MMP-9 (92 kDa gelatinase) was observed. In confluent SCC cultures, both MMP-2 and MMP-9 were found, while only MMP-2 was seen in rapidly growing SCC cells, demonstrating that cell proliferation influenced gelatinase expression in these cells, but not in the other cell lines studied. Dexamethasone at concentrations of 10(-5) mol/L and 10(-7) mol/L decreased the production of gelatinases in the GFs and PLFs, but not in the GKs, SCC, or UNR cells. The expression of mRNAs for matrix metalloproteinases (MMP-1 [interstitial collagenase] and MMP-2) and their inhibitors (TIMP-1 and TIMP-2) was also studied in the GFs by Northern hybridization. Dexamethasone markedly decreased the amount of MMP-2 mRNA in the GFs. The mRNA level of MMP-1 decreased even more in the same GFs. The mRNA levels for TIMP-1 and TIMP-2 were also decreased by dexamethasone in the GFs. Cell proliferation influenced the degree to which dexamethasone decreased these mRNA levels. The results indicate that glucocorticoids decrease the levels of MMPs and TIMPs in oral fibroblastic cells, whereas they do not appear to affect the production of gelatinases in either normal or malignant oral epithelial cell lines.
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PMID:Effects of dexamethasone and cell proliferation on the expression of matrix metalloproteinases in human mucosal normal and malignant cells. 867 3

Interstitial collagenase plays an important role in both the normal and pathological remodeling of collagenous extracellular matrices, including skeletal tissues. The enzyme is a member of the family of matrix metalloproteinases. Only one rodent interstitial collagenase has been found but there are two human enzymes, human collagenase-1 and -3, the latter being the homologue of the rat enzyme. In developing rat and mouse bone, collagenase is expressed by hypertrophic chondrocytes, osteoblasts, and osteocytes, a situation that is replicated in a fracture callus. Cultured osteoblasts derived from neonatal rat calvariae show greater amounts of collagenase transcripts late in differentiation. These levels can be regulated by parathyroid hormone (PTH), retinoic acid, and insulin-like growth factors, as well as the degree of matrix mineralization. Much of the work on collagenase in bone has been derived from studies on the rat osteosarcoma cell line, UMR 106-01. All bone-resorbing agents stimulate these cells to produce collagenase mRNA and protein, with PTH being the most potent stimulator. Determination of secreted levels of collagenase has been difficult because UMR cells, normal rat osteoblasts, and rat fibroblasts possess a scavenger receptor that removes the enzyme from the extracellular space, internalizes and degrades it, thus imposing another level of control. PTH can also regulate the abundance of the receptor as well as the expression and synthesis of the enzyme. Regulation of the collagenase gene by PTH appears to involve the cAMP pathway as well as a primary response gene, possibly Fos, which then contributes to induction of the collagenase gene. The rat collagenase gene contains an activator protein-1 sequence that is necessary for basal expression, but other promoter regions may also participate in PTH regulation. Thus, there are many levels of regulation of collagenase in bone perhaps constraining what would otherwise be a rampant enzyme.
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PMID:The regulation and regulatory role of collagenase in bone. 888 5

A cell culture inside a three-dimensional gel of fibrillar collagen is an experimental model used to study the response of cells to the extracellular matrix. Many cell types induce the contraction of gel and simultaneously decrease their production of type I collagen, whereas the expression of interstitial collagenase (matrix metalloproteinase-1; MMP-1) is enhanced. We have previously shown that in osteogenic cells the collagen receptor alpha2beta1 integrin is a positive regulator of MMP-1 and that the number of alpha2beta1 integrins on the cell surface also regulates the magnitude of contraction. However, the downregulation of collagen mRNA levels is not initiated by alpha2beta1 integrin. Here, we have studied in human KHOS-240 and MG-63 osteosarcoma cells and in human skin fibroblasts the effects of tyrosine kinase inhibitors on collagen gel contraction and on the regulation of MMP-1 and collagen alpha1(I) genes by extracellular collagen. The induction of MMP-1 could be inhibited by all tyrosine kinase inhibitors tested with the exception of genistein. None of them could prevent the downregulation of collagen expression. Thus, the collagen-induced alterations in the expression of MMP-1 and collagen alpha1(I) seem to be dependent on distinct signal transduction pathways. Many of the inhibitors, including genistein, could prevent the contraction of collagen gels. The effect was not related to their ability to inhibit cell growth, because an inhibitor specific for DNA synthesis and cell division did not have the same effect. Thus, we suggest that the process of collagen gel contraction requires protein-tyrosine phosphorylation and that the ability of cells to contract collagen gels is not related to the induction of MMP-1 or to the level of collagen alpha1(I) expression. Finally, we propose that the tyrosine kinase inhibitors might be considered as candidate molecules in the treatment of pathological scar contraction.
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PMID:Integrin alpha2beta1-dependent contraction of floating collagen gels and induction of collagenase are inhibited by tyrosine kinase inhibitors. 889 67

Bone morphogenetic protein (BMP) has been shown to be one of the significant factors in the prognosis of bone tumours. In normal development BMP induces new bone formation and later takes part in fracture healing, but its function in malignant tumours is not known. In this study the concentration of bone morphogenetic protein was measured in primary bone tumours by two methods. Local staining intensity was detected immunohistologically by the avidin-biotin-peroxidase method determining the highest dilution of anti-serum against bovine bone morphogenetic protein. The total amount of BMP in a tumour sample was measured by an enzyme-linked immunosorbent assay technique after digesting the tissue with collagenase to remove proteins from the connective tissue. Immunohistochemical staining showed that bone morphogenetic protein was present in the cytoplasm and in reactive bone formed by malignant cells. The local concentration was highest in the tissue of giant cell tumours compared to chondrosarcoma, osteosarcoma and benign bone tumours. The total amount in malignant bone tumours was 2.4 times higher compared to benign bone tumours.
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PMID:Measurement of total and local bone morphogenetic protein concentration in bone tumours. 926 1

Bone cells are a prime target for the biological function of the fos/jun (activating protein-1 (AP-1)) transcription factor complex. Deregulated expression of c-fos or v-fos in bone cells induces tumorigenicity and the formation of non-metastatic osteosarcomas. In contrast, fos oncogenes transform fibroblasts to an invasive phenotype accompanied by the expression of various invasion- and metastasis-associated genes. Here we compared the expression of AP-1-dependent genes and AP-1 activity in cell lines from fos-induced, radiation-induced, and spontaneous osteosarcomas. We showed that the presence of high AP-1 activity was not sufficient for the induction of invasion- and metastasis-associated AP-1-dependent genes in transformed bone cells. Further, we identified the collagenase I and stromelysin 1 gene promoters as suitable tools for the analysis of other factors regulating metastatic progression of osteosarcoma.
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PMID:Discordant effects of activator protein-1 transcription factor on gene regulation, invasion, and metastasis in spontaneous, radiation-induced, and fos-induced osteosarcomas. 980 60

Recent studies show that the p53 tumor suppressor protein is overexpressed in rheumatoid arthritis (RA) synovium and that somatic mutations previously identified in human tumors are present in RA synovium (Firestein, G. S., Echeverri, F., Yeo, M., Zvaifler, N. J., and Green, D. R. (1997) Proc. Natl. Acad. Sci. U. S. A. 94, 10895-10900; Firestein, G. S., Nguyen, K., Aupperle, K. R., Yeo, M., Boyle, D. L., and Zvaifler, N. J. (1996) Am. J. Pathol. 149, 2143-2151; Reme, T., Travaglio, A., Gueydon, E., Adla, L., Jorgensen, C., and Sany, J. (1998) Clin. Exp. Immunol. 111, 353-3581). We hypothesize that the abnormality of p53 seen in RA synovium may contribute to joint degeneration through the regulation of human matrix metalloproteinase-1 (hMMP-1, collagenase-1) gene expression. Transcription assays were performed with luciferase reporters driven by the promoter of the hMMP-1 gene or by a minimal promoter containing tandem repeats of the consensus binding sequence for activator protein-1, cotransfected with p53-expressing plasmids. The results revealed that (i) wild-type (wt) p53 down-regulated the promoter activity of hMMP-1 in a dose-dependent fashion; (ii) four of six p53 mutants (commonly found in human cancers) lost this repression activity; and (iii) this p53 repression activity was mediated at least in part by the activator protein-1 sites found in the hMMP-1 promoter. These findings were further confirmed by Northern analysis. The down-regulation of hMMP-1 gene expression by endogenous wt-p53 was shown by treatment of U2-OS cells, a wt-p53-containing osteogenic sarcoma line, and Saos-2 cells, a p53-negative osteogenic sarcoma line, with etoposide, a potent inducer of p53 expression. p53, activated by etoposide, appears to block hMMP-1 promoter activity induced by etoposide in U2-OS cells. In summary, we have shown for the first time that the hMMP-1 gene is a p53 target gene, subject to p53 repression. Because MMP-1 is principally responsible for the irreversible destruction of collagen in articular tissue in RA, abnormality of p53 may contribute to joint degeneration through the regulation of MMP-1 expression.
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PMID:p53 down-regulates human matrix metalloproteinase-1 (Collagenase-1) gene expression. 1020 59

Bone metastases are a common complication in prostate and breast cancer patients. It leads to extensive morbidity and eventually mortality. Matrix metalloproteinases (MMPs) are known to be involved in the metastatic process. MMP activity can be down-regulated by transforming growth factor beta1 (TGF-beta1), a growth-modulating factor, found in high concentrations in the bone. TGF-beta1 acts through the TGF-beta1 inhibitory element (TIE) element, a cis-acting element found in the promoter region of most MMP genes, with the exception of MMP-2. We used three human cell lines relevant for bone metastases, namely prostate adenocarcinoma PC-3, breast adenocarcinoma MDA-MB-231, and adenocarcinoma cells of unknown origin, Hs696, and one human osteosarcoma cell line, SAOS-2, and showed that in these cell lines TGF-beta1 partially lost its repressing action on MMP expression. TGF-beta1 was able to induce MMP-9 activity and protein expression in all three bone-metastatic tumour cell types, whereas MMP-9 protein levels were repressed in SAOS-2 cells. In PC-3 cells, TGF-beta1 repressed MMP-1 expression, whereas in MDA-MB-231 and SAOS-2 cells, an increase in the expression of MMP-1 protein was detected. Additionally, an increase in MMP-3 expression was observed in Hs696 cells. Expression and activity of the tissue inhibitors of matrix metalloproteinases, TIMP-1 and TIMP-2, were found increased in both PC-3 and MDA-MB-231 cells. With respect to cell proliferation, TGF-beta1 was able to induce a dose-dependent growth inhibition of up to 50% in primary human mammary epithelial cells. However, in none of the tumour cell lines was TGF-beta1 able to suppress growth substantially. Data presented in this paper support the hypothesis that TGF-beta1 can potentially disrupt the balance existing between osteoclast- and osteoblast-derived MMP activity by inducing altered expression of matrix metalloproteinases and their tissue inhibitors derived from bone-metastasizing cancer cells. This could eventually lead to skeletal destruction in patients with advanced metastatic disease.
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PMID:Transforming growth factor beta1 acts as an inducer of matrix metalloproteinase expression and activity in human bone-metastasizing cancer cells. 1039 Jan 44

Osteosarcoma cells are useful for investigating bone metabolism as malignant counterpart of osteoblasts. In hematogenous metastases of osteosarcoma cells, the cells need to adjust to various changes in pericellular environment. The changes in pericellular environment may change intracellular environment and consequently the secretion of matrix metalloproteinases (MMPs) which destroy extracellular matrices. In this report, a new cell line, KOS-1, derived from human osteoblastic osteosarcoma was established, and we assumed various culture conditions containing ingredients of the extracellular matrix to make a comparative study on MMPs detected from the culture supernatants. A wide spectrum of MMPs, including MMP-1 and -3 which were increased in the presence of interleukin 1 beta, was detected in this cell line. Production of MMP-1, the enzyme which decomposes types I, II, III and X collagen, by the cells, was increased in the presence of type I collagen. MMP-3 (stromelysin-1) which degrades types III and IV collagen, laminin, fibronectin, proteoglycan, etc. was produced more abundantly in the presence of type IV collagen. MMP-2 (72-kd type IV collagenase/gelatinase A) activity was found to be increased in the presence of gelatin and type IV collagen. The MMPs production in cultured osteosarcoma cells was changed depending on the culture conditions. This indicates that the same osteosarocma cells produce different amounts and kinds of enzymes involved in local infiltration and remote metastases and increase the production of the enzymes most required under a specific environment.
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PMID:Establishment of an osteoblastic osteosarcoma cell line and effects of cell culture conditions on secretion of matrix metalloproteinases from the cultured osteosarcoma cells. 1094 49

Matrix degrading enzymes released upon autocrine and/or paracrine induction exert a key role in modulating tumor cell behavior. Osteosarcoma is a highly metastatic cancer, with a redundancy of autocrine loops. Here we report that human osteosarcoma cells express a wide array of chemokine receptors and respond to chemokine activation with the release of N-acetyl-beta-D-glucosaminidase and gelatinase/collagenase activity. Of the two cell lines studied, the osteoblast-like MG-63 showed a higher responsivity compared to the less differentiated HOS. This suggests that chemokine modulation of matrix degrading enzymes requires the maintaining of the osteoblastic phenotype and of signaling pathways which occur in normal tissue.
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PMID:Human osteosarcoma cells release matrix degrading enzymes in response to chemokine activation. 1111 33

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