Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0029463 (osteosarcoma)
16,637 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Proline-directed protein kinase (PDPK) is characterized as a cytoplasmic oncogenic serine/threonine kinase that is activated by growth factor-mediated mechanisms and is proposed to function in mammalian somatic cells as an S phase promoting factor. The present study was undertaken to assess the hypothesis that p34cdc2/p58cyclinA PDPK is a physiologically relevant form of the p34cdc2 protein kinase that phosphorylates and inactivates the product of the retinoblastoma/osteosarcoma tumor susceptibility gene (Rb protein). In the course of these studies it was determined (fortuitously) that the p34cdc2/p58cyclinA PDPK purified from the cytosol of FM3A mouse mammary carcinoma cells was 'contaminated' by several high molecular weight substrate proteins that essentially co-purified with the protein kinase, one of which was identified as the Rb protein itself (p105Rb). High-resolution fast protein liquid chromatography (FPLC) revealed that the Rb protein co-purified with a particular subset of the PDPK heterodimer, i.e. with a single species of the 58 kDa cyclinA doublet. The subset of PDPK associated with the Rb protein exhibited somewhat lower specific enzyme activity, as judged by in vitro kinase assays and comparative Western blotting. Immunoprecipitation studies confirmed that p105Rb is physically associated with the p34cdc2/p58cyclin A PDPK. Further studies confirmed that the underphosphorylated Rb protein (p105Rb) present in G1 lysates of synchronized human MG63 osteosarcoma cells could be readily phosphorylated by purified PDPK in vitro, resulting in the characteristic shift in the apparent molecular mass (SDS-PAGE) of the Rb protein that is reported to accompany the hyperphosphorylation and functional inactivation of this protein. Moreover, the induction of the cyclin A subunit of PDPK in these synchronized MG63 cells was found to be closely correlated with the cell cycle-dependent phosphorylation of the Rb protein. From these studies it is concluded that the growth factor-sensitive PDPK is a physiological Rb kinase, which may function to inactivate the Rb protein in vivo.
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PMID:Co-purification of p34cdc2/p58cyclin A proline-directed protein kinase and the retinoblastoma tumor susceptibility gene product: interaction of an oncogenic serine/threonine protein kinase with a tumor-suppressor protein. 153 45

During continuous culture with serial passage, the human osteosarcoma cell line SaOS-2 showed a time-dependent decrease in skeletal alkaline phosphatase (ALP) activity. Because this was indicative of heterogeneity, subpopulations of SaOS-2 cells were isolated from replicate low-density cultures. The subpopulations were less heterogeneous and more stable (with respect to ALP) than the parent population. ALP specific activity in the subpopulations ranged from 0.05 to 2.3 U/mg protein, and cytochemical analyses indicated multiple steady-state levels of ALP activity per cell. The amount of ALP activity in SaOS-2 subpopulations was proportional to collagen production ([3H]proline incorporation into collagenase-digestible protein; r = .84, P less than .005), and to parathyroid hormone (PTH)-linked synthesis of cyclic adenosine monophosphate (cAMP) (r = .88, P less than .01). From these data, we inferred that ALP activity in SaOS-2 cells can provide a useful index of the osteoblastic phenotype, and that ALP activity, collagen production, and PTH-linked adenylate cyclase were coordinately regulated in these osteoblast-like osteosarcoma cells (ie, selection of subpopulations for ALP activity coselected for collagen synthesis and PTH-linked synthesis of cAMP). Further comparative studies showed that micromolar fluoride concentrations stimulated cell proliferation ([3H]thymidine incorporation into DNA) in low-ALP SaOS-2 subpopulations, but not in high-ALP cells (P less than .001), and that this differential sensitivity to fluoride was associated with an inverse correlation between fluoride-sensitive acid phosphatase and ALP activities (r = -.91, P less than .001).
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PMID:Skeletal alkaline phosphatase specific activity is an index of the osteoblastic phenotype in subpopulations of the human osteosarcoma cell line SaOS-2. 165 38

The effects of estrogen on bone formation and bone resorption were examined in an experimental model of ectopic bone induction. In this experimental model, ectopic ossicles of uniform size were elicited reproducibly in three weeks by implanting pellets containing murine osteosarcoma derived bone morphogenetic protein (BMP), into the muscles of mice. Thereafter the induced ossicles showed a gradual reduction in bone mass due to negative bone balance. To estimate the effects of estrogen on bone formation and bone resorption, beta-estradiol-3-benzoate was administered exogenously to host mice from day 21 to day 41 (0.45 micrograms/g body weight, on alternate days, 10 treatments). Radiologic and histologic analysis confirmed the positive effect of estradiol on preserving bone mass over this period. Quantitative analysis showed an increase in the Ca content in ossicles after 21 days of estradiol treatment (139.1% of the baseline value on day 21). In the control group, the bone mass was reduced (47.4% of that on day 21). Bone resorption was determined by the reduction in 45Ca radioactivity from ossicles prelabeled with this radioisotope before estradiol administration. The rate of loss of the prelabeled 45Ca radioactivity was suppressed by estradiol (68.8% of prelabeled value in estradiol treated group and 87.7% in control group). The effect of exogenous estrogen on the bone forming phase of bone turnover in the ossicles was quantified by incorporation of 45Ca and 3H-proline. These bone formation parameters were increased to 2.2 and 1.9 times higher than those of the control group.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Preservation of ectopically induced bone in the mouse by estradiol. 179 74

Recombinant human interferon-alpha 2C and recombinant human interferon-gamma (5-1000 U/ml) inhibit the proliferation of normal human bone-derived cells and a human osteosarcoma cell line. In the bone-derived cells the inhibitory effect of interferon-gamma was significantly greater than that of interferon-alpha, whereas in the osteosarcoma cell line the inhibitory effects of both interferons were quantitatively similar. Interferon-alpha did not affect the alkaline phosphatase activity of either type of cells. In contrast, interferon-gamma affected the activity of the enzyme in both cell types: in the bone-derived cells the effect of interferon-gamma was stimulatory whereas in the osteosarcoma cells the effect was inhibitory. In both cell types interferon-gamma selectively inhibited the incorporation of radiolabelled proline into type I collagen. In the osteosarcoma cells, the effects of both interferons on collagen synthesis were quantitatively similar. In the bone-derived cells, however, interferon-alpha decreased proline incorporation into collagen and non-collagen proteins to a similar extent and thus did not affect collagen synthesis when expressed as a percentage of total protein synthesis. Two-dimensional polyacrylamide gel electrophoresis of the radiolabelled proteins of the cell layer synthesised by both cell types in the presence of either interferon demonstrated that this treatment enhanced or induced the synthesis of a total of 21 individual proteins (19 in bone cells, 14 in osteosarcoma), ranging in apparent molecular mass over 14-87 kDa. The set of proteins induced was different in all four combinations of cells and interferon. A tentative identification of several of the proteins was possible based upon estimation of molecular mass, preferential induction by interferon-alpha or interferon-gamma and differential induction in normal and transformed bone-derived cells. The results of this study demonstrate that interferons have complex effects upon the proliferative and biosynthetic activities of human bone-derived cells and demonstrate significant differences between the responses of normal cells and transformed bone-derived cell line. Further investigations will be required in order to determine whether or not these differences are unique to the osteosarcoma cell line or are a characteristic of the effects of interferons on bone-derived cells in general.
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PMID:Interferons and bone. A comparison of the effects of interferon-alpha and interferon-gamma in cultures of human bone-derived cells and an osteosarcoma cell line. 212 83

A human osteosarcoma cell line derived from cells obtained from a patient with Paget's disease is shown to synthesize and secrete bone Gla protein (BGP); (osteocalcin), a noncollagenous bone matrix protein. Using a human BGP-specific RIA, we show that the human osteosarcoma cells synthesize significant amounts of BGP without any prior induction of BGP synthesis by 1,25-dihydroxyvitamin D. After specific immunoprecipitation of poly-A+ RNA in vitro translation products with antibodies to BGP, we found that BGP is synthesized as a precursor with an apparent mol wt of 13.5K, as demonstrated on 15% sodium dodecyl sulfate-polyacrylamide gels. Finally, pulse labeling of the osteosarcoma cells with [3H]proline reveals that the cells synthesize mature BGP of 12,000 mol wt as well as a higher mol wt precursor (13,500) of the protein.
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PMID:Constitutive biosynthesis of bone Gla protein in a human osteosarcoma cell line. 241 Feb 38

Cells of the clonal rat osteogenic sarcoma cell line, UMR 106-01, were used to investigate the regulation of collagen synthesis by PTH in osteoblastic cells. Monolayer cultures of cells were labeled with [3H] proline in order to determine both collagen type and rates of production. Analysis of labeled extracellular polypeptides on sodium dodecyl sulfate-polyacrylamide gel electrophoresis showed that UMR 106-01 cells synthesized predominantly type I collagen, accounting for 45.48 +/- 2.09% of the radioactivity incorporated into total protein. After 24-h treatment with bovine PTH (1-34, 10(-8) M), collagen synthesis (i.e. collagenase-digestible protein) was decreased to 29.45 +/- 1.39% of total protein production. This decrease was first observed 12 h after addition of hormone and greatest inhibition was achieved at 24 h. The effect of PTH was dose dependent, with half-maximal inhibition of collagen synthesis occurring at 5 x 10(-10) M after 24-h treatment. In contrast, when steady state levels of mRNA for type I collagen chains were examined by Northern blot analysis, the concentration of PTH that reduced collagen synthesis by 35-45% (10(-8) M), caused a net decrease of approximately 80-96% in the number of procollagen transcripts; a small reduction in beta-actin mRNA levels was also observed. The effect of the hormone on procollagen message level was dose dependent, with significant inhibition observed at 10(-10) M PTH and, as with collagen synthesis, maximal after 24 h.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Parathyroid hormone inhibits collagen synthesis at both ribonucleic acid and protein levels in rat osteogenic sarcoma cells. 246 7

Tumor necrosis factor-alpha (TNF alpha) and interferon-gamma (IFN gamma) have potent effects on bone resorption and collagen synthesis in cultured rat long bones. Since the effects of TNF alpha and IFN gamma may result from interaction with multiple cell types, we studied the effects of these cytokines on the synthesis of DNA and collagen in one cell type with osteoblast phenotype, cloned rat osteosarcoma cells (ROS 17/2.8). Recombinant human TNF alpha did not affect DNA synthesis after 48 h with concentrations of 10(-11)-10(-8) M and inhibited DNA synthesis slightly at 10(-6) M. Recombinant rat IFN gamma (5-500 U/ml) caused a dose-dependent inhibition of DNA synthesis. Coincubation with TNF alpha and IFN gamma inhibited DNA synthesis more than maximal doses of either cytokine alone. This enhanced inhibitory effect was due to the induction of a response to TNF alpha by IFN gamma, since preexposure of cells to IFN gamma for 24 h, followed by incubation with TNF alpha alone for an additional 48 h, also resulted in increased inhibition of DNA synthesis. Preexposure to TNF alpha for 24 h, followed by IFN gamma alone, did not increase the inhibition of DNA synthesis. Incubation with either IFN gamma (5-500 U/ml) or TNF alpha (10(-10)-10(-6) M) inhibited the incorporation of [3H]proline into collagen. Coincubation with intermediate concentrations of both cytokines resulted in an inhibitory effect greater than that produced by maximal concentrations of either alone. The results indicate that 1) IFN gamma and TNF alpha have direct actions on osteoblast-like cells in vitro; 2) IFN gamma modulates the DNA response to TNF alpha; and 3) the greater responses to combined cytokines than to high doses of either alone suggest that these cytokines act, at least in part, through different pathways.
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PMID:Inhibitory effects of tumor necrosis factor-alpha and interferon-gamma on deoxyribonucleic acid and collagen synthesis by rat osteosarcoma cells (ROS 17/2.8). 249 7

Collagen synthesis in rat osteosarcoma cell line 17/2 (ROS 17/2) was assessed by measuring the incorporation of [3H]proline into collagenase-digestible protein and the formation of [3H]hydroxyproline. PTH and 1,25-dihydroxyvitamin D3 [1,25-(OH)2D3] inhibited collagen synthesis in ROS 17/2 cells in a time- and dose-dependent manner. PTH reduced collagen synthesis after a 3-h incubation, whereas the effect of 1,25-(OH)2D3 was somewhat slower. Maximal and half-maximal inhibition of collagen synthesis occurred at approximately 1 and 0.1 nM of each hormone, respectively. At confluency, ROS 17/2 cells synthesized 96% type I and 4% type III collagen. PTH reduced the synthesis of type I, but not type III, collagen. PTH and 1,25-(OH)2D3 also reduced procollagen mRNA levels, as determined by a dot blot hybridization assay. Thus, ROS 17/2 cells are a convenient model system for studying the hormonal regulation of collagen metabolism and gene expression in a cloned cell line with the osteoblastic phenotype.
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PMID:Hormonal regulation of collagen synthesis in a clonal rat osteosarcoma cell line. 302 31

Synthesis of type I and III collagens has been examined in MG-63 human osteosarcoma cells after treatment with the steroid hormone, 1,25-dihydroxyvitamin D3 (1,25-(OH)2D3). Analysis of total [3H]proline-labeled proteins and pepsin-derived collagens revealed that 1,25-(OH)2D3 selectively stimulated synthesis of alpha 1I and alpha 2I components of type I collagen after 6-12 h. Consistent with previous reports (Franceschi, R. T., Linson, C. J., Peter, T. C., and Romano, P. R. (1987) J. Biol. Chem. 262, 4165-4171), parallel increases in fibronectin synthesis were also observed. Hormonal effects were maximal (2- to 2.5-fold versus controls) after 24 h and persisted for at least 48 h. In contrast, synthesis of the alpha 1III component of type III collagen was not appreciably affected by hormone treatment. Of several vitamin D metabolites (1,25-(OH)2D3, 25-dihydroxyvitamin D3, and 24R,25-dihydroxyvitamin D3) tested for activity in stimulating type I collagen synthesis, 1,25-(OH)2D3 was found to be the most active. Analysis of collagen mRNA abundance by Northern blot hybridization indicated that both types I and III procollagen mRNAs were increased 4-fold after a 24-h exposure to 1,25-(OH)2D3. Pro alpha 1I mRNA remained elevated through the 48-h time point while pro alpha 2I and pro alpha 1III mRNAs returned to control values. These results indicate that the regulation of collagen synthesis by 1,25-(OH)2D3 is complex and may involve changes in translational efficiency as well as mRNA abundance. 1,25-(OH)2D3 also caused at least a 20-fold increase in levels of the bone-specific calcium-binding protein, osteocalcin. These results are consistent with the hypothesis that 1,25-(OH)2D3 is stimulating partial differentiation to the osteoblast phenotype in MG-63 cells.
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PMID:Regulation of type I collagen synthesis by 1,25-dihydroxyvitamin D3 in human osteosarcoma cells. 326 82

Osteoclasts are the principal resorptive cells of bone, yet their capacity to degrade collagen, the major organic component of bone matrix, remains unexplored. Accordingly, we have studied the bone resorptive activity of highly enriched populations of isolated chicken osteoclasts, using as substrate devitalized rat bone which had been labeled in vivo with L-[5-3H]proline or 45Ca, and bone-like matrix produced and mineralized in vitro by osteoblast-like rat osteosarcoma cells. When co-cultured with a radiolabeled substrate, osteoclast-mediated mineral mobilization reached a maximal rate within 2 h, whereas organic matrix degradation appeared more slowly, reaching maximal rate by 12-24 h. Thereafter, the rates of organic and inorganic matrix resorption were essentially linear and parallel for at least 6 d when excess substrate was available. Osteoclast-mediated degradation of bone collagen was confirmed by amino acid analysis. 39% of the solubilized tritium was recovered as trans-4-hydroxyproline, 47% as proline. 10,000 osteoclasts solubilized 70% of the total radioactivity and 65% of the [3H]-trans-4-hydroxyproline from 100 micrograms of 25-50 micron bone fragments within 5 d. Virtually all released tritium-labeled protein was of low molecular weight, 99% with Mr less than or equal to 10,000, and 65% with Mr less than or equal to 1,000. Moreover, when the 14% of resorbed [3H]proline-labeled peptides with Mr greater than or equal to 2,000 were examined for the presence of TCA and TCB, the characteristic initial products of mammalian collagenase activity, none was detected by SDS PAGE. In addition, osteoclast-conditioned medium had no collagenolytic activity, and exogenous TCA and TCB fragments were not degraded by osteoclasts. On the other hand, osteoclast lysates have collagenolytic enzyme activity in acidic but not in neutral buffer, with maximum activity at pH 4.0. These data indicate that osteoclasts have the capacity to resorb the organic phase of bone by a process localized to the osteoclast and its attachment site. This process appears to be independent of secretion of neutral collagenase and probably reflects acid protease activity.
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PMID:Isolated osteoclasts resorb the organic and inorganic components of bone. 345 13


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