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)

The UMR 106-06 rat osteosarcoma osteoblast-like cell line possesses calcitonin (CT) receptors in addition to expressing PTH receptors and a highly osteoblast-like phenotype, and may represent an intermediate developmental stage between early osteoblast precursors and mature osteoblasts. Therefore, we examined the effects of CT and PTH on second messenger generation and osteoblastic function in these cells. In UMR-106-06 cells, 10-1000 nM CT produced a dose-dependent stimulation of intracellular free calcium concentration ([Ca2+]i), which reached a plateau between 2-3 min. This stimulatory effect was abolished in the absence of extracellular Ca2+ ([Ca2+]o) and was mimicked by forskolin and (Bu)2cAMP. One hundred nanomolar CT also produced a slight but significant increase in inositol triphosphate production (13%, P less than 0.05) but did not produce a rapid, transient increase in [Ca2+]i. In contrast, PTH produced a rapid, transient increase in [Ca2+]i, which reached a maximum within 30 sec. This stimulatory effect of PTH on [Ca2+]i signal was dose-dependent and accompanied by a parallel stimulation of inositol triphosphate production. PTH, forskolin, and (Bu)2cAMP all produced a marked dose-related suppression of both DNA and collagen synthesis, which paralleled their stimulatory effects on intracellular cAMP levels. In marked contrast, CT only minimally reduced DNA and collagen synthesis despite producing comparable increases in intracellular cAMP. One hundred nanomolar CT also stimulated alkaline phosphatase specific activity by 33% (P less than 0.05). Thus, CT stimulates cAMP, [Ca2+]i, and inositol phosphate second messengers in UMR 106-06 cells. However, in contrast to other agents which elevate intracellular cAMP levels, CT does not suppress DNA synthesis. These results suggest that the linkage of CT receptor second messengers to effects on cell function differ from those of PTH and/or that CT may produce additional second messenger(s) which antagonize the antiproliferative effect of increased cAMP levels in UMR-106-06 cells.
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PMID:Effects of calcitonin on 3',5'-cyclic adenosine monophosphate and calcium second messenger generation and osteoblast function in UMR 106-06 osteoblast-like cells. 130 38

Prostaglandin E2 (PGE2), PTH, and epidermal growth factor (EGF) are potent regulators of osteoblast proliferation. In UMR 106-01 rat osteosarcoma cells with osteoblast-like features, PGE2 and PTH inhibit, while EGF stimulates, mitogenesis. Both PGE2 and PTH increase intracellular cAMP levels, cytosolic calcium, and inositol phosphate turnover. In a variety of cell types, EGF mediates its effects in part via activation of receptor protein-tyrosine kinase and other protein kinases, such as protein kinase-C. The nuclear mechanisms of PGE2, PTH, and EGF regulation of osteoblast proliferation are unknown. Accordingly, we have examined the effects of these agents on mitogenesis, second messenger generation, and primary response genes, which may link second messenger activation to subsequent alterations in gene expression. Northern blot analysis of mRNA from UMR 106-01 cells treated for 3 h with 2 microM PGE2, 10 nM PTH, or 10 ng/ml EGF in the presence of cycloheximide demonstrated that all three agents induced the expression of c-fos and c-jun mRNA. In contrast, only EGF stimulated cellular proliferation and induced Egr-1 mRNA. Also, unlike PGE2 and PTH, EGF did not increase intracellular cAMP levels. c-fos mRNA was induced by treatment with 50 ng/ml tetradecanoyl phorbol acetate or by 40 ng/ml forskolin, while induction of Egr-1 mRNA was stimulated by treatment with tetradecanoyl phorbol acetate, but not forskolin. Thus, EGF signal transduction differs from that of PGE2 and PTH in UMR 106-01 osteoblast-like cells, in that EGF does not stimulate the protein kinase-A second messenger system, but causes activation of Egr-1, a primary response gene that may play a role in the mitogenic effect of EGF.
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PMID:The effects of prostaglandin E2, parathyroid hormone, and epidermal growth factor on mitogenesis, signaling, and primary response genes in UMR 106-01 osteoblast-like cells. 133 Apr 91

PA-III rat prostate adenocarcinoma cells are capable of inducing osteoblastic reaction after inoculation onto rat skeleton. In this study PA-III cells and osteoblast-derived rat osteosarcoma cells (UMR 106 cells) were employed to characterize the cellular interactions in the PA-III cell-induced bone tumors, in vitro. Insulin-like growth factor-I (IGF-I) and conditioned media (CM) of UMR 106 cells stimlated tritiated-thymidine incorporation into the DNA of PA-III cells growing in serum-free media. This effect was inhibited by monoclonal anti-hIGF-I antibody. In addition PA-III cell CM contained proteinolytic activity for the IGF-binding proteins of UMR 106 cell CM (IGFBP-1 and -2). This proteinase activity hydrolyzed also benzyloxycarbonyl-lysine thiobenzyl ester (BLT) and its action on IGFBPs and BLT was inhibited by benzamidine and aprotinin. Proteinase activity of PA-III cell CM when bound covalently to tritiated-dilsopropylfluoro-phosphate (DFP) and then analyzed on SDS-PAGE gel electrophoresis, revealed the presence of radioactivity linked with a 35 kDa protein band. This proteinase was eluted in the void volume of the G-50 sephadex column and was retained on and eluted from p-benzamidine affinity column. The 35 kDa proteinase was retained on and was eluted from cartridges of the C18 silica by 80% acetonitrile over 0.1% trifuroacetic acid. This partially purified material hydrolyzed BLT substrate and IGFBPs of UMR 106 cell CM and its effect was inhibited by benzamidine and aprotinin. These data indicate that PA-III cell CM contains a 35 kDa proteinase capable of digesting the IGFBPs and thus increases the bioavailability of osteoblast-derived IGFs. This mechanism may participate in the pathophysiology of the PA-III cell-induced bone tumor and its subsequent osteoblastic reaction.
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PMID:Proteinolytic activity against IGF-binding proteins involved in the paracrine interactions between prostate adenocarcinoma cells and osteoblasts. 137 96

The osteoinductive effects of bone morphogenetic protein (BMP, derived from murine osteosarcoma) were studied with regard to its use combined with beta-tricalcium phosphate (beta-TCP). BMP and beta-TCP were molded into pellets by the "pressure method", originated by us and transplanted to ddY mice. Control mice received interdorsal muscular implantations of either the BMP or beta-TCP pellets. The animals were sacrificed 1, 2 and 3 weeks after grafting, for radiological, histochemical, and ultrastructural observations. The BMP-beta-TCP compound pellets induced faster cartilage and bone formation, whereas these activities were slower when pellets made solely of BMP were used. The beta-TCP pellets demonstrated no osteoinductive properties. Observations revealed two types of beta-TCP resorbing multinuclear giant cells. One was osteoclastic, expressing calcitonin receptors, having numerous mitochondria and ruffled border-like structures; the other was not osteoclastic in nature. In animals grafted with the compound pellets, a great number of osteoclastic cells gathered on the pellets, much earlier than those grafted with the pellets made of BMP alone. Then, osteoblastic bone formation over the cement lines followed an osteoclastic resorption of both beta-TCP and newly formed bone. In contrast, BMP induced few osteoclastic cells, resulting in slower bone coupling. Furthermore, the faster bone formation induced by the compound pellets seemed to be associated with the presence of beta-TCP. Porous by nature, beta-TCP would entrap BMP within its micropores, and thus, the intrinsically diffusible BMP is retained and its action consequently prolonged. In addition, the compound pellet offered increased surface contact between BMP and mesenchymal cells. Therefore, BMP-beta-TCP compound pellets induce cartilage and bone formation more rapidly than does BMP alone.
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PMID:Enhanced osteoinduction by intramuscular grafting of BMP-beta-TCP compound pellets into murine models. 158 74

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

Nearly all models of skeleton, cartilage, and dentin mineralization evoke a specific role for matrix vesicles (MV) and alkaline phosphatase (ALP). Nevertheless, the mechanism underlying MV production, mineralization, and the pivotal role of ALP is largely unknown. Previous studies in this laboratory demonstrated that ALP in a human osteosarcoma cell line (SAOS-2) is of the tissue nonspecific ('bone') isoenzyme and lipid-anchored to the plasma membrane in ecto-orientation [1], thus reminiscent of osteoblasts in vivo [2]. Herein, we show that these cells spontaneously release ALP-rich structures (MVs) with the capacity to mineralize. MVs from SAOS-2 cells are 100-200 nm in diameter with characteristic trilaminar membranes. ALP in these vesicles is hydrophobic and lipid-anchored in ecto-orientation in a manner similar to the ALP in the parent SAOS-2 cells. 5'-Nucleotidase, another plasma membrane enzyme, is also abundant in MVs; adenylate cyclase is relatively deficient. Analysis of plasma membrane and MV proteins by 2-D gel electrophoresis reveals many common constituents; nevertheless, MVs contain several unique (or greatly enriched) proteins indicating that SAOS-2 MVs originate from specialized regions of the plasma membrane and are released in the same orientation as the plasma membrane. MVs, unlike plasma membrane vesicles, can cause the formation of insoluble calcium and phosphate in a manner that i) requires ALP substrates; ii) is blocked by ALP inhibition or inactivation; and iii) is not dependent on intact MVs. SAOS-2 derived MVs contain at least 3 protein kinases and their substrates. ALP does not, however, have a major role in regulating the phosphorylation state of these phosphoproteins.
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PMID:Human osteosarcoma cells spontaneously release matrix-vesicle-like structures with the capacity to mineralize. 161

Epidermal growth factor (EGF), platelet-derived growth factor (PDGF), and heparin-binding growth factor-1 (HBGF-1) stimulated the proliferation of a variant of the human osteosarcoma cell line, MG-63-LS (LS = low serum). Transforming growth factor beta (TGF-beta) completely inhibited cell growth in basal medium supplemented with 2% fetal calf serum (FCS), blocked PDGF- and EGF-stimulated cell proliferation, and modulated that of HBGF-1. PDGF, but not EGF or HBGF-1, activated the inositol trisphosphate/diacylglycerol (IP3/DAG) second message system in a dose-dependent manner. EGF inhibited phosphoinositol lipid turnover and HBGF-1 and TGF-beta stimulated phosphatidylinositol hydrolysis to produce inositol phosphate (IP) but not IP3. Preincubation of quiescent cells with TGF-beta for 30-40 minutes prior to the addition of PDGF resulted in an inhibition of PDGF-induced production of IP3. This suggested that TGF-beta was an indirect inhibitor and blocked PDGF-stimulated cell growth in part by interfering with the generation of the second messenger, IP3.
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PMID:TGF-beta inhibits the platelet-derived growth factor-induced formation of inositol trisphosphate in MG-63 human osteosarcoma cells. 170 69

The effect of inositol 1,4,5 trisphosphate (IP3) on calcium mobilization was studied in human osteosarcoma lines, Saos-2 and G292, as well as isolated rat osteoblastic and osteoclastic cells. Cells were permeabilized with saponin and calcium mobilization was studied with the fluorescent dye, fura-2 in a recording spectrofluorometer. IP3 (10 microM) increased calcium release in all cell types studied. The effect was dependent on ATP and occurred in the presence of mitochondrial inhibitors. The effect was not seen with inositol 1-phosphate (IP) or inositol 1,4-diphosphate (IP2). Inositol 1,3,4,5 tetrakisphosphate (IP4) appeared to elicit a decrease in the calcium released. Depletion of the intracellular pool with the calcium ionophore, ionomycin, as well as incubation with the inhibitor of intracellular calcium mobilization, TMB-8, obliterated the IP3 effect. The results are consistent with the hypothesis that increases in IP3 can cause a rapid elevation of bone cell cytosolic calcium.
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PMID:Effects of inositol trisphosphate on calcium mobilization in bone cells. 178 74

Stable SV40 transformation of the human osteosarcoma cell line HOS yielded SV-HOS cells with high levels of large-T and quasi-original levels of p53. The latter kept its former intermediate metabolic stability, was found to be uncomplexed with SV40 large-T, however coimmunopurified with a 70 kDa protein. Upon comparison with HOS, SV40-HOS cells showed decreased serum-dependence and increased colony-forming efficiency in soft agar. SV-HOS cells were non-invasive in an in vitro assay in contrast with SV40-transformed human cells exhibiting a classical large-T-p53 complex. Both SV40-transformed human cell types were poorly tumorigenic in athymic mice in contrast with transformed HOS cells, expressing activated v-ras or met oncogenes. The p53 molecules from HOS cells and any of the HOS derivatives were underphosphorylated and showed unusual methionine- and phosphate-containing peptide fingerprints when compared with 'normal' human p53, which can associate with SV40 large-T. The structural and biological features of the HOS p53 molecules are discussed in relationship to analogous human and murine molecules in experimental and natural systems.
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PMID:Partial transformation of human tumor cell lines showing defective interaction between unusual p53 gene product and SV40 large-T antigen. 215 84

Studies on humoral hypercalcemia of malignancy have shown that tumors produce a protein that acts through the parathyroid hormone (PTH) receptor but is immunologically distinct from PTH. We have recently purified and cloned a parathyroid hormone-related protein (PTHrP) from a human lung cancer cell line. Full length cDNA clones were isolated and found to encode a prepropeptide of 36 amino acids and a mature protein of 141 amino acids. Eight of the first 13 amino terminal residues are identical with human PTH, although antisera directed at the amino terminus of PTHrP do not recognize PTH. A 34-amino acid synthetic peptide, PTHrP(1-34), was several times more potent than bovine or human PTH(1-34) in bioassays promoting the formation of cAMP and plasminogen activity in osteogenic sarcoma cells and activation of adenylate cyclase in chick kidney membranes. PTHrP(1-34) was also more potent than PTH(1-34) in stimulating cAMP and phosphate excretion and reducing calcium excretion in the isolated perfused rat kidney. PTHrP has been consistently demonstrated by immunohistochemistry in squamous cell carcinomas and in keratinocytes present in normal skin, but not in normal or hyperplastic parathyroid tissues or other tumors. PTHrP-like activity has been extracted from ovine placenta and fetal parathyroid tissue, suggesting that PTHrP may play a role in fetal calcium homeostasis.
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PMID:Humoral hypercalcemia of malignancy. 233 5


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