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 binding of transcription factor AP-1 and vitamin D receptor (VDR) to the composite AP-1 plus vitamin-D-responsive promoter region (AP-1 + VDRE) of the human osteocalcin gene was characterized in osteocalcin-producing (MG-63) and non-producing (U2-Os, SaOs-2) human osteosarcoma cell lines. In mobility-shift assays with AP-1 + VDRE, AP-1, and VDRE probes and nuclear extracts from these cells, one AP-1-specific and two VDR-specific (fast and slow mobility) interactions were observed. Characterization of the complexes indicated that AP-1 and VDR do not bind simultaneously to the AP-1 + VDRE oligonucleotide. Intensity of the complexes was greatly influenced by cell density: in MG-63 and SaOs-2 cells, AP-1 binding was strong during the proliferative period disappearing at confluency whereas, in U2-Os cells, AP-1 binding was prominent also at the confluent stage. Furthermore, MG-63 cells possessed the faster migrating VDR complex at all stages of confluency whereas, in U2-Os and SaOs-2 cells, it was very weak or absent. There were no detectable differences in the levels of VDR protein between these cell lines. In U2-Os cells, the level of c-jun mRNA was higher than in the other two cell lines, whereas none of these cell lines exhibited detectable levels of c-fos mRNA at the confluent stage. Exogenous c-Jun protein effectively blocked the VDR-DNA interaction. Further, all these cell lines expressed mRNA for retinoid X receptor alpha (RXR alpha), the factor suggested to be required for the VDR-DNA interaction. The presence of an accessory factor in the VDR-DNA complexes was indirectly shown by treatment of the cells with 9-cis retinoic acid and by cycloheximide. Both treatments reduced VDR binding without affecting the VDR protein level. These results suggest that AP-1 interferes with VDR binding to the AP-1 + VDRE element and that the vitamin D responsiveness of the osteocalcin gene correlates with weak AP-1 binding and strong binding of the faster migrating VDR complex.
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PMID:Functional interference between AP-1 and the vitamin D receptor on osteocalcin gene expression in human osteosarcoma cells. 807 31

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

Cellular retinoic acid-binding proteins (CRABPs) are thought to play a key role in the regulation of the levels of retinoic acid (RA) available to interact with the nuclear receptors. In this study we have used reverse transcription (RT) and competitive polymerase chain reaction (cPCR) to investigate the effects of RA on CRABP-II expression levels in the human osteosarcoma cell line MG-63. Two different isomers of RA, all-trans (at) and 9-cis RA, were chosen since at-RA but not 9-cis RA binds to CRABP-II. Cells were treated with 10(-6) M at-RA or 9-cis RA for 24 h. Following RNA preparation and RT, cPCR was performed using constructed internal standards for CRABP-II and beta-actin. While no change occurred in the beta-actin control, an approximate two-fold increase of CRABP-II mRNA levels was seen in cells treated with at-RA and at least a four-fold increase with 9-cis RA. Thus, although 9-cis RA does not bind to CRABP-II, it induces CRABP-II expression more efficiently than at-RA in human osteosarcoma cells.
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PMID:Competitive PCR demonstrates that 9-cis retinoic acid induces cellular retinoic acid-binding protein-II more efficiently than all-trans retinoic acid in human osteosarcoma cells. 817 92

The 1,25-dihydroxyvitamin-D3-(calcitriol)-induced medium osteocalcin and cellular osteocalcin mRNA concentrations are increased in a dose-dependent and time-dependent manner by prior treatment of the human MG-63 osteosarcoma cells with insulin-like growth factor-I (IGF-I). In addition, IGF-I reverses the inhibitory effects of dexamethasone and enhances the effects of retinoic acid on osteocalcin synthesis. The stimulatory effect of IGF-I on osteocalcin synthesis is accompanied by stabilization of osteocalcin mRNA and a decrease of AP-1 binding to the osteocalcin promoter. The binding of the vitamin-D receptor (VDR) to its cognate response element is not affected by IGF-I. In contrast to its effects on osteocalcin synthesis, both baseline and calcitriol-stimulated alkaline phosphatase activities are decreased by IGF-I treatment. Furthermore, IGF-I has mitogenic effects on MG-63 cells. The proliferation of the cells and the levels of c-jun mRNA are greatly increased during IGF-I treatment. Calcitriol reduces or eliminates both these effects. The low concentrations of IGF-I used in this study suggest that IGF-I is an important normal regulator of the synthesis of osteocalcin, a bone calcium-binding protein participating in bone mineralization, by modulating the effects of steroid hormones on its synthesis.
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PMID:Insulin-like growth factor-1 modulates steroid hormone effects on osteocalcin synthesis in human MG-63 osteosarcoma cells. 828 40

Although several studies have been performed on the biological activities of analogs of 1,25-dihydroxyvitamin D3 (1,25-(OH)2 D3) at the whole animal and cellular levels, little work has been done to analyze their transcriptional activation properties. A highly inducible 1,25-(OH)2 D3-responsive promoter composed of three copies of the mouse osteopontin vitamin D3 response element (VDRE3) inserted upstream of a herpes simplex virus thymidine kinase promoter has been constructed, and its transcriptional properties have been analyzed by transient transfection into the monkey kidney cell line COS-7 and the rat osteoblast-like osteosarcoma line ROS 17/2.8. We have studied systematically transcriptional activation by a number of 1,25-(OH)2 D3 analogs, particularly those substituted at positions 16, 23, 26, and 27, sites that are targets for metabolism. Strikingly, except for derivatives that bind the 1,25-(OH)2 D3 receptor (VDR) very weakly, we find no parallel between the potency of action of a derivative as a transcriptional inducer and its affinity for the VDR. Derivatives substituted by multiple bonds at positions 16 and/or 23, although having varying affinities for the VDR, all stimulate transcription more potently than D3, in some cases at 100-fold lower concentrations. The peak transcriptional activity observed varies by only approximately 20% among different active analogs, indicating little difference in the activity of the VDR once bound to ligand. Gel retardation assays with ROS 17/2.8 nuclear extracts suggest that the VDR binds to the mouse osteopontin VDRE predominantly as a heterodimer with retinoid X receptor(s) (RXR(s)). We find that 9-cis-retinoic acid, the cognate ligand for RXRs, does not have a significant effect on the response of the VDRE3 promoter to 1,25-(OH)2 D3 or a number of its derivatives in ROS 17/2.8 or in COS-7 cells, under conditions in which promoters containing retinoid X response elements are activated. This suggests that 9-cis-retinoic acid may not act on the response to 1,25-(OH)2 D3 or its derivatives by directly influencing the transcriptional activity of VDR/RXR heterodimers. This promoter/reporter system should be useful for analyzing the tissue-specific transcriptional activity of 1,25-(OH)2 D3 and its derivatives in any cell type amenable to transient transfection.
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PMID:Highly potent transcriptional activation by 16-ene derivatives of 1,25-dihydroxyvitamin D3. Lack of modulation by 9-cis-retinoic acid of response to 1,25-dihydroxyvitamin D3 or its derivatives. 830 Jun 29

The effect of retinoic acid (RA) on the expression of osteoblast-related genes as well as on steroid/vitamin D3 receptor contents was examined using cultured osteosarcoma cell line (BFO cells). Northern blot analysis revealed that mRNAs encoding osteocalcin, pro-alpha 1 (I) collagen and bone morphogenetic protein 4 (BMP-4) are expressed in BFO cells. Stimulation with RA, however, failed to alter their mRNA content, although the transcripts for retinoic acid receptor (RAR)-alpha and -gamma were present in BFO cells. In addition, alkaline phosphatase activity (AP) was significantly but modestly increased by RA treatment. These results suggest BFO cells have well differentiated osteoblastic properties. In contrast to the effects of RA on osteoblast-related gene regulation, RA was found to increase the quantity of estrogen receptor as well as of 1,25-dihydroxy vitamin D3 receptor (VDR) in BFO cells. The quantities, assessed by ligand binding assays, were approximately 200% more than those of the controls after 24 h stimulation with 10(-9)-10(-8) M RA. These RA effects on ER and VDR seem to be specific, since glucocorticoid receptor quantities were not affected by RA treatment. These results suggest that RA regulates ER and VDR quantities in BFO cells.
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PMID:Effects of retinoic acid on steroid and vitamin D3 receptors in cultured mouse osteosarcoma cells. 838 33

We have previously shown that protein S, a vitamin K-dependent protein, is a bone matrix component synthesized and secreted by osteoblasts. Because protein S is a cofactor of protein C in inhibiting factor Va and VIIIa, we have looked for the presence of the proteins related to the anticoagulant protein C system in human MG 63 osteosarcoma cells and in human adult osteoblast-like cells. Using immunoblotting, we have shown that protein C, factor V, and C4b binding protein are not secreted by these cells. We have shown by enzyme-linked immunoassay, immunocytochemistry, and immunoprecipitation of labeled proteins that thrombomodulin, a transmembrane glycoprotein involved with thrombin in the activation of protein C, is present at the cell surface of osteoblasts. Moreover, using a protein C activation system where thrombin and protein C are added to the cells, we have shown that protein C could be activated at the osteoblast cell surface. This activation of exogenous protein C, reflecting the activity of thrombomodulin, as well as the expression of the thrombomodulin antigen, is regulated by some bone resorption-enhancing factors. 1,25-dihydroxyvitamin D3 and retinoic acid increase thrombomodulin expression and activity in a dose-dependent manner whereas tumor necrosis factor alpha and interleukin 1 decrease these parameters. Because thrombomodulin is known to inhibit single-chain urokinase-type plasminogen activator, a molecule present in the osteoblast microenvironment, these findings suggest that thrombomodulin could play a role in the regulation of bone resorption by modulating the plasmin system.
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PMID:Thrombomodulin is synthesized by osteoblasts, stimulated by 1,25-(OH)2D3 and activates protein C at their cell membrane. 839 72

The expression of parathyroid hormone-related protein (PTHrP) was studied in a range of cell cultures representative of the osteoblast lineage and in rat calvarial sections. Primary newborn rat calvarial cells, a rat preosteoblastic cell line (UMR 201), a mouse stromal cell line (ST 2), a mouse calvaria-derived osteoblastic cell line (KS 4), and rat osteosarcoma cell lines (UMR 106-01 and -06), all expressed PTHrP when examined by reverse transcription polymerase chain reaction (RT-PCR). Using a radioimmunoassay we also demonstrated PTHrP in the conditioned medium of the cultured cells, with the exception of UMR 106-01 and -06 cells. Treatment of UMR 201 cells with all-trans-retinoic acid which induces them to acquire a more differentiated phenotype, also led to a time-dependent decrease in PTHrP mRNA levels as determined by RT-PCR, Northern blot analysis, and in situ hybridization. Decreased PTHrP levels in the conditioned medium of the treated cells was also observed. These results suggested that PTHrP production might be greater in less mature osteoblasts. Examination of the populations obtained from newborn rat calvariae by sequential collagenase digestion revealed that the early digests exhibited low ALP activity, low expression of PTH/PTHrP receptor mRNA, and no adenylate cyclase response to PTHrP(1-34). These populations showed the highest level of mRNA and production of PTHrP. Cells from later digests, the "osteoblast-rich" populations, had reduced PTHrP expression. Immunohistochemistry and in situ hybridization in sections of newborn rat calvariae showed PTHrP expression in cuboidal osteoblasts located adjacent to bone and in spindle-shaped cells in the periosteal region. It is concluded that PTHrP is produced by cells of the osteoblast lineage, supporting the hypothesis that PTHrP may function physiologically as a paracrine factor in bone.
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PMID:Expression of parathyroid hormone-related protein in cells of osteoblast lineage. 855 80

mac25, a retinoic acid-inducible gene that is expressed at high levels in senescent epithelial cells, was initially cloned as a gene that is differentially expressed in meningioma. Although the homology of its product with members of family of insulin-like growth factor-binding proteins was suggested, the product also exhibits strong homology to follistatin, an activin-binding protein. However, a domain corresponding to the carboxyl terminus of follistatin is not found in mac25. The carboxyl-terminally truncated form of follistatin, generated by alternative splicing, has stronger activin-binding activity than the complete form. This result suggests that mac25 might act as an activated follistatin. Clonal growth of a p53-deficient osteosarcoma cell line was strongly inhibited when the murine mac25 gene, as well as the p53 gene, was introduced. Resembling activins that belong to the transforming growth factor-beta (TGF-beta) superfamily, mac25 and p53 might associate with similar but distinct targets, namely cyclin-dependent kinase inhibitors. However, there is no evidence for compensation of p53 function by mac25 in the development of p53-deficient mice, as judged from the pattern of expression of mac25 in mice. mac25 might act as a tumor suppressor, modulating signaling of the TGF-beta family, as does alpha-inhibin.
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PMID:A follistatin-like gene, mac25, may act as a growth suppressor of osteosarcoma cells. 864 39

Normal osteoblasts from newborn rat calvaria and human osteosarcoma (Saos-2) cells express IGFBP-5 mRNA. IGF I increases IGFBP-5 mRNA levels in both cell types, whereas retinoic acid stimulates IGFBP-5 mRNA expression in calvaria but suppresses it in Saos-2 cells. IGFBP-5 mRNA expression is stimulated in normal bone cells by parathyroid hormone. 30 nM IGFBP-5 stimulates 3H-thymidine incorporation in calvaria (which produce IGF I contributing to basal proliferation in serum-free medium) but not in Saos-2 cells which produce little IGF I and IGF II. Among the 5 rhIGFBPs tested (IGFBP-2 to -6), only IGFBP-5 stimulates DNA synthesis in calvaria cells, and only IGFBP-6 in Saos-2 cells. RhIGFBP-5 displays a short half-life (approximately 30 min) in serum-free medium of calvaria cells and a long half-life (approximately 15 h) in the medium of Saos-2 cells. Fragments of 20 and 14 kDa accumulate in the media of both cell types. Intact (31 kDa) IGFBP-5 is associated and remains with the extracellular matrix of mature calvaria osteoblasts but not of Saos-2 cells. Among the IGFBPs produced IGFBP-5 is unique with regard to its marked affinity to matrix of normal bone cells, its short half-life when released, and its stimulatory effects on DNA synthesis.
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PMID:Expression, effects, and fate of IGFBP-5 are different in normal and malignant osteoblastic cells. 881 58

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