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)

A transplantable osteogenic sarcoma originally arising in the right femur of an AKR/Ms male mouse is described. The original tumor showed a conspicuous bone and cartilage formation, but the capability of forming the bone was lost in the 4th transplant generation and that of cartilage formation was lost in the 7th generation. Alkaline phosphatase activity was histochemically demonstrated in only a few tumor cells, and the activity did not rise in the host serum. Intracisternal type-A particles of an average diameter of 70 nm were abundant in the rough endoplasmic reticulum, while type-C particles were rarely found to be budding from the cell surface or free in the extracellular spaces by electron microscopy. Three of the 27 thymectomized AKR mice that had been neonatally injected with cell-free material of the transplanted tumor developed osteomas, but no osteogenic sarcoma was found.
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PMID:A spontaneous transplantable osteogenic sarcoma in AKR/Ms mice. 19 24

The osteogenic potential of the two human osteosarcoma cell lines HOS and KHOS; a cell line produced by the transformation of the HOS cells by the Kirsten murine sarcoma virus, was studied in vitro. HOS cells cultured more than 2 weeks formed nodules composed of two morphologically distinct layers, an epithelial-like surface cell layer and a collagen-rich inner cell layer. Alkaline phosphatase (ALPase) activity occurred in the plasma membrane of the surface cell layer, and calcified substances developing along collagen fibers were detected in the collagen-rich inner cell layer. The calcified substances were further examined by analytical electron microscopy and were shown to be hydroxyapatite crystals. In contrast, there was neither ALPase nor the deposition of a calcified substance in the KHOS cells.
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PMID:In vitro differentiation of the human osteosarcoma cell lines, HOS and KHOS. 135 21

After demonstrating the presence of matrix vesicles in three osteosarcoma cell lines, MG-63, ROS 17/2.8 and MC-3T3-E1, we sought to determine whether two major enzymes localized to matrix vesicles, alkaline phosphatase and phospholipase A2, could be regulated by 1,25(OH)2D3 and/or TGF beta. Intravesicular calcification is probably dependent on these two enzymes. Alkaline phosphatase is essential for hydrolysis of phosphate-containing substrates and phospholipase A2 hydrolyzes diacylphosphatides in a calcium-mediated manner at lipid-aqueous interfaces leading to changes in membrane fluidity and possibly breakdown of the matrix vesicle. The 1,25(OH)2D3 induced increase of alkaline phosphatase in bone cells is localized to the matrix vesicle. TGF beta also increased alkaline phosphatase activity in two of the cell lines, MG-63 and ROS 17/2.8 but to a greater degree than 1,25(OH)2D3. Matrix vesicle alkaline phosphatase activity exhibited a greater response than that in the plasma membrane. TGF beta increased phospholipase A2 activity in both matrix vesicles and plasma membranes, therefore, no targeting was observed with respect to this enzyme. When TGF beta was combined with 1,25(OH)2D3, 1,25(OH)2D3 had no effect on phospholipase A2 and did not interfere with TGF beta stimulation of phospholipase A2 activity. When 1,25(OH)2D3 and TGF beta were combined, a tremendous synergy was observed in alkaline phosphatase specific activity in both plasma membranes and matrix vesicles with targeting to matrix vesicles. Therefore, TGF beta not only plays an important role in matrix formation and differentiation, but works in conjunction with 1,25(OH)2D3 to greatly potentiate the effects seen with 1,25(OH)2D3 alone.
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PMID:Stimulation of matrix vesicle enzyme activity in osteoblast-like cells by 1,25(OH)2D3 and transforming growth factor beta (TGF beta). 161 Dec 99

Polyacrylamide gel electrophoresis utilizing sodium dodecyl sulfate followed by specific staining for alkaline phosphatase was accomplished using sera from patients with osteosarcoma, polyostotic fibrous dysplasia, metastatic bone tumor, and idiopathic hyper-alkalinephosphatasemia. Alkaline phosphatase activity of the sera was uniformly demonstrated at a molecular weight of 60,000. L-homoarginine more strongly inhibited the alkaline phosphatase activity than did L-phenylalanine. Alkaline phosphatase activity was markedly inactivated by heating. Regarding substrate specificity, the hydrolysis of p-nitro-phenylphosphate occurred at a lower rate than did that of phenylphosphate. By contrast, the hydrolysis of alpha- and beta-glycerophosphate occurred at a higher rate than did that of phenylphosphate. As seen from the data presented here, the serum alkaline phosphatase samples obtained from these patients with skeletal disorders have several common characteristics.
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PMID:[Identification of serum alkaline phosphatase from human bone]. 169 Jul 86

Demineralized bone powder (DBP) has been shown to induce osteogenesis in a variety of bone defects and extra-osseous sites. Previous investigations have been carried out in animal models which are time-consuming and expensive. We studied the effect of DBP on well-established populations of osteoblast and non-osteoblast-like cells in culture to establish an inexpensive, efficient and reliable assay for bone induction. DBP and BP (non-demineralized powder), of particle size 38-53 microns, were prepared from rat long bones. ROS (rat osteosarcoma) 17/2.8 and ROS 24/1 cell lines were subcultured weekly. For both 17/2.8 (well differentiated) and 24/1 (poorly differentiated) cells, proliferation, i.e. cell count, was significantly greater in DBP enriched medium when compared with control or medium with BP. Cell counts for wells with BP were no different from controls. The increased cell count in DBP-enriched medium was significant on days 2-5 (peak effect 2-3 days). Alkaline phosphatase production reached peak levels after day 3 when proliferation was beginning to taper off. In this study a consistent increase in osteoblast proliferation and alkaline phosphatase production under the influence of DBP was demonstrated. The tissue culture assay for proliferation must now be correlated with bone induction in vivo. In future, the method may be useful for investigating the mechanism of bone induction.
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PMID:Effect of demineralized bone powder on osteoblast-like cells in culture. A potential rapid quality control assay. 170 40

As assessed by incorporation into liposomes and by adsorption to octyl-Sepharose, the integrity of the membrane anchor for the purified tetrameric forms of alkaline phosphatase from human liver and placenta was intact. Any treatment that resulted in a dimeric enzyme precluded incorporation and adsorption. An intact anchor also allowed incorporation into red cell ghosts. The addition of hydrophobic proteins inhibited incorporation into liposomes to varying degrees. Alkaline phosphatase was 100% releasable from liposomes and red cell ghosts by a phospholipase C specific for phosphatidylinositol. There was no appreciable difference in the rates of release of placental and liver alkaline phosphatases, although both were approximately 250 x slower in liposomes and 100 x slower in red cell ghosts than the enzyme's release from a suspension of cultured osteosarcoma cells. Both enzymes were released by phosphatidylinositol phospholipase C as dimers and would not reincorporate or adsorb to octyl-Sepharose. However, the enzyme incorporated, resolubilized by Triton X-100, and cleansed of the detergent by butanol treatment was tetrameric by gradient gel electrophoresis, was hydrophobic, and could reincorporate into fresh liposomes. A monoclonal antibody to liver alkaline phosphatase inhibited the enzyme's incorporation into liposomes, and abolished its release from liposomes and its conversion to dimers by phosphatidylinositol phospholipase C.
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PMID:Incorporation of human liver and placental alkaline phosphatases into liposomes and membranes is via phosphatidylinositol. 217 99

The presence and activity of alkaline phosphatase in SAOS-2 and TE-85 human osteosarcoma cells grown in culture were examined at the ultrastructural level. A monoclonal antibody raised against purified human bone osteosarcoma alkaline phosphatase was used to localize the enzyme in cultures of the osteosarcoma cells. Similar cultures were analyzed for alkaline phosphatase activity using an enzyme cytochemical method with cerium as the capture agent. Alkaline phosphatase was immunolocalized at the light microscopic level in an osteogenic sarcoma and ultrastructurally on the SAOS-2 cell membrane and the enclosing membrane of extracellular vesicular structures close to the cells. In contrast, the TE-85 cells were characterized by the absence of all but a few traces of immunolabeling at the cell surface. Enzyme cytochemical studies revealed strong alkaline phosphatase activity on the outer surface of the SAOS-2 cell membrane. Much lower enzyme activity was observed in the TE-85 cells. The results support biochemical data from previous studies and confirm that SAOS-2 cells have a significantly greater concentration of alkaline phosphatase at the plasma membrane.
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PMID:Presence and activity of alkaline phosphatase in two human osteosarcoma cell lines. 265 62

A patient with peripheral T-cell Lymphoma and acquired, systemic osteosclerosis is described. Bone histology showed a spectacular activation of osteoblasts accompanyed by massive new bone formation. Alkaline phosphatase in serum was elevated and increased to greater than 2000 U/l when the lymphoma became refractory to chemotherapy. In the patient's serum an osteoblast-activating factor could be demonstrated using a rat osteogenic osteosarcoma cell line (ROS 17/2.8). The factor was absent during remission of the tumor. We conclude that osteosclerosis was a paraneoplastic syndrome in this patient due to the secretion of an osteoblast-stimulating factor by the T-cell lymphoma. This situation is similar to the secretion of osteoclast-activating factors described in B-cell lymphomas, particularly multiple myeloma. The characterization of such a factor could be of therapeutic relevance.
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PMID:Evidence for an osteoblast-activating factor in a patient with peripheral T-cell lymphoma and osteosclerosis. 278 45

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

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


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