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)

31-phosphorus spectroscopy was used to control the results of chemotherapy in a patient with an osteogenic sarcoma. The findings were compared with conventional imaging methods (DSA, MRT and conventional radiography). The imaging methods do not provide reliable information regarding growth of tumour tissue during treatment, whereas the determination of phosphate concentration in the tumour provides direct information concerning tumour metabolism.
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PMID:[31-phosphorus spectroscopy of osteogenic sarcoma. Possibilities in therapy control in comparison with imaging methods]. 302 26

MG-63 human osteosarcoma cells were selected for attachment and growth in increasing concentrations of a synthetic peptide containing the cell attachment-promoting Arg-Gly-Asp (RGD) sequence derived from the cell-binding region of fibronectin. Cells capable of attachment and growth in 5 mM concentrations of a peptide having the sequence Gly-Arg-Gly-Asp-Ser-Pro overproduce the cell surface receptor for fibronectin. No increase in fibronectin receptor gene copy number was detected by Southern blot analysis. The peptide-resistant MG-63.3A cells look very different from the MG-63 cells and resemble osteocytes. The resistant cells also grow more slowly than MG-63 cells. The enhanced expression of the fibronectin receptor on the resistant cells indicates that cells can regulate the amount of this receptor on their surface in response to environmental factors and that this may affect the phenotypic properties of the cell. MG-63.3A cells differ from MG-63 cells in their ability to form a calcified matrix in vitro and in their increased synthesis of type I collagen. The MG-63.3A cells synthesize 50-100-fold less prostaglandin E2, a mediator of bone resorption, than MG-63 cells. There is an overall down-regulation of chondroitin sulphate proteoglycans in MG-63.3A cells. These results are consistent with the hypothesis that such proteoglycans interfere with calcium phosphate deposition and with the observation that chondroitin sulphate is increased in a wide variety of neoplasms but is absent or in small amounts in normal tissue. We conclude that MG-63.3A cells represent a more differentiated cell type with osteoblast-like properties.
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PMID:An adhesion variant of the MG-63 osteosarcoma cell line displays an osteoblast-like phenotype. 306 6

We have investigated the covalent modification of the proteins encoded by the murine fos proto-oncogene (c-fos) and that of the corresponding gene product of FBJ murine osteosarcoma virus (v-fos). Both proteins are posttranslationally processed in the cell, resulting in forms with lower electrophoretic mobilities than that of the initial translation product on sodium dodecyl sulfate-polyacrylamide gels. Treatment with alkaline phosphatase indicates that most, if not all, of this electrophoretic shift is due to phosphoesterification of both proteins. These phosphoryl groups stoichiometrically modify the v-fos and c-fos proteins on serine residues and turn over rapidly in vivo in the presence of protein kinase inhibitors (half-life, less than 15 min). Direct quantitative comparison of steady-state labeling studies with L-[35S]methionine and [32P]phosphate reveals that the c-fos protein is four- to fivefold more highly phosphorylated than the v-fos protein is. Comparison of tryptic fragments from [32P]phosphate-labeled proteins indicates that although the two proteins have several tryptic phosphopeptides in common, the c-fos protein contains unique major tryptic phosphopeptides that the v-fos protein lacks. These unique sites of c-fos phosphorylation have been tentatively localized to the carboxy-terminal 20 amino acid residues of the protein. Phosphorylation of the c-fos protein, but not the v-fos protein, can be stimulated at least fivefold in vivo by the addition of either 12-tetradecanoyl-phorbol-13-acetate or serum. This increase in the steady-state degree of phosphorylation of c-fos appears to be independent of protein kinase C since phosphorylation is Ca2+ and diacylglycerol independent. The possible role of phosphorylation of these proteins in cellular transformation is discussed.
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PMID:Modification of fos proteins: phosphorylation of c-fos, but not v-fos, is stimulated by 12-tetradecanoyl-phorbol-13-acetate and serum. 311 Jun 3

Ros 17/2 clonal rat osteosarcoma cells calcify when cultured in the presence of 10 micrograms/ml beta-glycerol phosphate in an agarose gel. Culture in 1% agarose inhibited cell division while allowing cells to remain metabolically active and viable for over 21 days. Serial photography of the same microscopic field shows a progressive deposition of calcium phosphate during the course of the experiment. The deposition of calcium around cells was confirmed by calcium-specific stains, and by energy dispersive X-ray analysis (EDX) during scanning electron microscopy. Cells with high calcium content analyzed by EDX had Ca:P ratios similar to hydroxyapatite. Total calcium progressively increased in beta-glycerol phosphate-treated cultures whereas the control plates maintained a constant calcium content over 16 days. Alkaline phosphatase activity increased with time in culture whereas cells with beta-glycerol phosphate maintained the alkaline phosphatase values achieved at the time of initial calcification. Alkaline phosphatase staining revealed no correlation between the presence of the enzyme activity and calcification. Radioimmunoassay for the bone-specific vitamin K-dependent protein bone Gla protein showed that beta-glycerol phosphate-treated cells accumulate over sixfold greater amounts of this protein. Our studies show that ROS cells can calcify and accumulate bone-specific matrix components when cultured in a 3-dimensional agarose matrix.
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PMID:Calcification of osteoblastlike rat osteosarcoma cells in agarose suspension cultures. 312 Nov 51

Although the morphological features of osteosarcoma have been widely investigated, there is little information about its biochemistry. In this study, materials obtained from human calcified chondroblastic osteosarcoma were analyzed by microanalytical techniques revealing both morphological and biochemical characteristics at the same tissue site. Morphologically, tumor cells in the surface area showed atypical and mitotic figures. Hypertrophic chondroblastic cells appeared and increased in density closer to the calcified region. Almost all cells in the calcified region were hypertrophic. Biochemical analysis revealed that alkaline phosphatase activity was steeply elevated and inorganic phosphate gradually increased towards the calcified region. The spread of the calcified region was coincident with the contents of acid-soluble phosphate and calcium of the tumor. These results were similar to those found in endochondral calcification of epiphyseal growth cartilage.
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PMID:Morphobiochemical analysis of calcified chondroblastic osteosarcoma of the mandible. 313 51

The characteristics of the transport of inorganic phosphate (Pi) in osteoblastic cells have been determined using the osteosarcoma cell line ROS 17/2.8. The initial rate of the Pi transfer from the extracellular into the intracellular osteoblastic compartment is mediated by a sodium-dependent process. The stoichiometric analysis of the cotransport system suggests that two sodium ions would be transferred with each Pi molecule. In the presence of sodium, the Pi transfer was saturable with increasing extracellular Pi concentration. In the absence of extracellular sodium, only a negligible amount of Pi enters the osteoblastic cells, with a kinetic compatible with a simple diffusion process. The kinetic parameters of the saturable component of the Pi transport measured at an external sodium concentration of 143 mmol/liter were Km = 448 +/- 12 mumol/liter; Vmax = 37.1 +/- 0.7 nmol/mg prot. 4 min. In the presence of 0.1 mmol/liter Pi, the half-maximal activation by sodium was obtained at 43 +/- 1.3 mmol/liter. The Pi transport rate was reduced by arsenate, by metabolic inhibitors such as FCCP and by ouabain, an inhibitor of Na-K ATPase. These results strongly suggest that the Pi transfer into osteoblastic cells is a carrier-mediated process which is driven by the transmembrane electrochemical gradient of sodium.
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PMID:Characteristics of phosphate transport in osteoblastlike cells. 314 71

Alkaline phosphatase (ALP) was examined in cultured human osteosarcoma cells (SAOS-2) with respect to isoenzyme form, kinetic properties toward two natural substrates, and topography and nature of attachment to the plasma membrane. ALP in SAOS-2 homogenates is the tissue-nonspecific (TNS) isoenzyme and a phosphoethanolamine (PEA) and pyridoxal 5'-phosphate (PLP) phosphatase, as demonstrated by heat and inhibition profiles and electrophoretic mobility. Kinetic studies indicate that TNSALP in SAOS-2 cells has both a low- and a high-affinity activity. The high-affinity activity (showing the greater catalytic efficiency) is active at physiologic pH toward physiologic concentrations (microM) of PEA and PLP. TNSALP was shown to be an ectoenzyme in SAOS-2 cells by our findings in intact cell suspensions, where (i) PEA and PLP degradation in the medium nearly equaled that of whole cell homogenates, (ii) greater than 85% of ALP activity was inactivated by acid treatment, and (iii) ALP activity was quantitatively released by phosphatidylinositol-specific phospholipase C. Our findings indicate that, in SAOS-2 cells, TNS (bone) ALP functions as an ectoenzyme to degrade physiologic concentrations of extracellular natural substrates at physiologic pH.
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PMID:Alkaline phosphatase is an ectoenzyme that acts on micromolar concentrations of natural substrates at physiologic pH in human osteosarcoma (SAOS-2) cells. 316 54

Tumors in 23 patients were studied by means of in vivo phosphorus-31 magnetic resonance (MR) spectroscopy. In five patients, the response to chemotherapy and radiation therapy was monitored in a long-term follow-up study. In one patient, the P-31 MR spectra were recorded during the infusion of chemotherapeutic drugs. In comparison with healthy muscle tissue of patients, the tumors showed elevated inorganic phosphate, phosphomonoester, and phosphodiester peaks and reduced creatine phosphate peaks, whereas the nucleoside 5'-triphosphate levels remained nearly unchanged. Tumor treatment resulted in changes in the ratio of the signal intensity value of creatine phosphate to that of inorganic phosphate and in the sum of these values. In an osteosarcoma, an initial response followed by renewed tumor growth was clearly indicated by changes in these parameters. In the short-term follow-up examination, slight spectral changes were observed during the infusion of chemotherapeutic drugs. Changes in the concentrations of phosphorus metabolites during therapy can therefore be monitored in human tumors by means of P-31 MR spectroscopy.
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PMID:Monitoring human tumor response to therapy by means of P-31 MR spectroscopy. 333 31

The energy metabolism of Dunn osteosarcoma subcutaneously implanted in C3H/He mice was studied in vivo by a 31P-NMR spectrometer with surface-coils. The spectra of Dunn osteosarcoma showed peaks of sugar phosphate, inorganic phosphate, phosphocreatine, phosphomonoester, and ATPs. In the early stage of the tumor growth phosphocreatine and ATP showed large signal intensities and the tissue pH was 7.23 +/- 0.08. Following the tumor growth phosphocreatine and ATP decreased and the tissue pH fell to 6.82 +/- 0.08. Immediately after a small dose of MTX (2 mg/kg) was administered, an increase of inorganic phosphate and a decrease of phosphocreatine were temporarily observed when MTX concentrations of the tumor tissues were maximum. High energy metabolites were apparently consumed with the active transport of MTX. After twelve hours of a high dose of MTX (500 mg/kg) was administered, disappearance of phosphocreatine and ATP with an increase of inorganic phosphate was observed previous to the histological change. In vivo 31P-NMR spectroscopy may be useful in the evaluation of chemotherapy.
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PMID:[In vivo 31P-NMR studies on energy metabolism and the effect of methotrexate in murine implanted osteosarcoma]. 346 60

The normal range of glucose-phosphate-isomerase (GPI) in the plasma of children during the first month of life is up to 80 U/l; until the end of the second year of life between 11 and 50 U/l; thereafter the upper limit is 46 U/l. In osteogenic sarcoma or medulloblastoma there is a good correlation between activity of GPI in plasma and clinical tumor stage. In a lot of other tumors sensitivity of this enzyme is either very low as in Ewing-sarcoma or myeloic leukemia or there is no consistent relation to the extent of the tumor. High activities of GPI are equally obtained in children suffering from cystic fibrosis, diabetes mellitus or muscular dystrophy. GPI is not valid as a tumor marker even being raised in sarcoma and medulloblastoma as mentioned. So it is not necessary to check GPI activity as a part of routine enzyme chemistry.
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PMID:[Behavior of glucosephosphate isomerase in children with malignant diseases]. 346 43


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