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)

Various matrix growth factors play important roles in the development and growth of cartilage and bone. Among them transforming growth factor-beta superfamily and especially bone morphogenetic proteins are known to be important factors, since they induce bone and cartilage formation in ectopic sites in vivo. We have previously shown that the human osteosarcoma cell line Saos-2 expresses molecules that in vivo induce new bone formation with asymmetric bone maturation. In this study we examined the role of Saos-2-conditioned medium in prolonged cultures of mesenchymal C3H/10T1/2 cells. The C3H/10T1/2 cells were cultured with Saos-2-conditioned medium for 28 days. We show that Saos-2-treated C3H/10T1/2 cells performed retarded osteoblastic differentiation when compared to recombinant BMP-2 and -4 induced differentiation. We further show that this retardation is due to excessive amounts of transforming growth factor-beta in Saos-2-conditioned medium. Our results also suggest that this model can well be used to study additional cofactors involved in retarded osteogenesis.
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PMID:The role of transforming growth factor-beta on retarded osteoblastic differentiation in vitro. 1009 35

Bone morphogenetic protein (BMP)-2, a member of the BMP family, plays an important role in osteoblast differentiation and bone formation. To discover small molecules that induce BMP-2, a luciferase reporter vector containing the 5'-flanking promoter region of the human BMP-2 gene was constructed and transfected into human osteosarcoma (HOS) cells. By the screening of an in-house natural product library with stably transfected HOS cells, a fungal metabolite, compactin, known as an inhibitor of 3-hydroxy-3-methylglutaryl coenzyme A (HMG-CoA) reductase, was isolated. The stimulation of the promoter activity by compactin seemed to be specific for BMP-2 gene in HOS cells, since it had little effect on BMP-4 or SV40 promoter activity and the stimulation was not observed in Chinese hamster ovary (CHO) cells. RT-PCR analysis and alkaline phosphatase assay revealed that compactin induced an increase in the expression of BMP-2 mRNA and protein. Like compactin, simvastatin also activated the BMP-2 promoter, whereas pravastatin did not. The statin-mediated activation of BMP-2 promoter was completely inhibited by the downstream metabolite of HMG-CoA reductase, mevalonate, indicating that the activation was a result of the inhibition of the enzyme. These results suggest that statins, if they are selectively targeted to bone, have beneficial effects in the treatment of osteoporosis or bone fracture.
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PMID:Compactin and simvastatin, but not pravastatin, induce bone morphogenetic protein-2 in human osteosarcoma cells. 1081 23

An ability to induce new bone formation at a required site would represent a considerable advance in bone repair and tissue engineering. It has been shown that the healing of critical-size bone defects in rats can be augmented by extracts of Saos-2 cells. These human osteosarcoma cells uniquely contain a bone-inducing activity, whereas other human osteosarcoma cells, e.g., U-2 OS cells, cannot replicate the osteoinductive capacity. To understand the necessary components of the Saos-2 bone-inducing activity, this study compared osteoinductive Saos-2 cells with non-osteoinductive U-2 OS cells with respect to the synthesis of bone morphogenetic proteins (BMPs)-1, -2, -3, -4, -5, -6, and -7 and the non-collagenous matrix proteins bone sialoprotein (BSP), osteonectin (ON), osteopontin (OPN), and osteocalcin (OC). The main differences were abundant synthesis of BMP-1/tolloid, BMP-3, -4, and BSP by Saos-2 cells, but absence or reduced synthesis in U-2 OS cells. BMP-2 and -7 were present in low amounts in both cell types, while BMP-5 and -6 were more abundant in U-2 OS cells, suggesting that these BMPs were of lesser importance for the osteoinductivity of Saos-2 cells. However, a relatively high expression of BMP-3 and -4, together with BMP-1/tolloid, may be important for the osteoinductive capacity of Saos-2 cells. The inability of U2-OS cells to induce bone, despite expressing most of the BMPs, may be due to an insufficiency of tolloid, BMP-3 or -4, BSP, and/or other unknown factors. A better understanding of the necessary components of the Saos-2 cell bone-inducing agent may, in future, lead to clinically useful Saos-2 cell products for bone repair and tissue engineering.
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PMID:Selective synthesis of bone morphogenetic proteins-1, -3, -4 and bone sialoprotein may be important for osteoinduction by Saos-2 cells. 1186 28

Bone morphogenetic proteins (BMP) play a pivotal role in growth and differentiation of osteoblastic lineage cells. BMPs are potent stimulators of bone formation in various animal models. To understand the mechanism of BMP action in bone cells, we have investigated the effects of overexpression of the BMP-2 gene on proliferation and differentiation of UMR-106 rat osteosarcoma cells. A stable UMR-106 cell line overexpressing the BMP-2 gene was established by transfection of cells using a mammalian expression vector harboring human BMP-2 cDNA followed by G418 selection. After introduction of the BMP-2 gene, UMR-106 cells appeared more spindle-shaped in morphology compared to the predominantly cuboidal appearance of the parental cells. Overexpression of BMP-2 markedly inhibited proliferation as measured by cell counting and [3H]thymidine incorporation assays. Extracellular matrix (ECM) derived from cells overexpressing BMP-2 exhibited a less supportive effect on proliferation of UMR cells than did ECM derived from parental cells. Furthermore, cell-cell communication through gap junctions was reduced more than 50% as determined by nondisruptive fluorescent dye transfer assays. Overexpression of BMP-2 significantly stimulated expression of osteocalcin and alkaline phosphatase genes, indicating its role in osteoblastic differentiation. There was little effect on osteopontin gene expression.
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PMID:Overexpression of BMP-2 modulates morphology, growth, and gene expression in osteoblastic cells. 1190 Apr 83

During wound healing, growth factors are expressed in time-dependent amounts. Constant delivery of biomolecules, however, is often used to influence cell and tissue behavior. In the present studies, a crosslinked gelatin-coating system was used to deliver bone morphogenetic protein 2 (BMP-2) or insulin-like growth factor (IGF-I) to three types of mesenchymal cells with three temporally varying release profiles. The "early" delivery profile released most of the growth factor within the first 2 days. The "pseudo-zero-order" profile approximated constant rate of delivery for about 5 days. The "late" delivery profile released most of the growth factor after about 5 days. Early delivery of IGF-I had the greatest effect on mitogenesis of SaOS-2 human osteosarcoma cells with a secondary effect noted nearly 5 days after delivery was completed. Late delivery of BMP-2 resulted in greatest alkaline phosphatase (AP) activity in mouse pluripotent C3H10T1/2 cells. Rat bone marrow stromal cells (BMCs) responded to all delivery profiles of BMP-2, with the duration of elevated AP activity increasing as the amount of BMP-2 delivered increased. In addition to an early increase in AP activity, late release also stimulated BMCs over a longer portion of the culture period. BMCs responded similarly to SaOS-2 cells when seeded on early IGF-I delivery coatings, increasing AP activity after delivery had ended. Overall, these studies further show the importance of delivery profile, specifically the characteristics of time and concentration, on cell and tissue responses.
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PMID:Cell responses to BMP-2 and IGF-I released with different time-dependent profiles. 1505 7

Matrix extracellular phosphoglycoprotein (MEPE) is an extracellular matrix protein that was first detected in tumor-induced osteomalacia (TIO). Investigations in mice revealed that MEPE is expressed in bone and teeth in a maturation-dependent manner, reaching its maximum during mineralization. However, from knockout experiments, although it has become clear that MEPE might function as a mineralization inhibitor, the exact mechanism of action is still unclear. Even less is known about the regulation of MEPE in men. Therefore, we have studied the time- and maturation-dependent expression of MEPE in two human osteoblast culture systems, the osteosarcoma cell line HOS 58 and primary trabecular osteoblasts. Cells were cultured for up to 29 days, and the influence of beta-glycerophosphate (bGP), ascorbate, transforming growth factor beta (TGF-beta), BMP-2, and dexamethasone was studied. HOS 58 cells showed no significant effect on MEPE gene expression up to 5.0 mM, but a significant inhibition was revealed at 10 and 20 mM, when osteocalcin (OC) expression was maximal. Under the same conditions, primary human osteoblasts showed no effect on MEPE gene expression. However, when cultured in the presence of 5 mM beta-glycerophosphate, ascorbate, and dexamethasone for 29 days, which are similar conditions to those described by Owen in his differentiation model in rat osteoblasts, a progressive inhibition of MEPE gene expression to 20% of the maximum was observed. Increasing osteocalcin expression indicated advancing differentiation. In conclusion, in contrast to the results in mice, when MEPE was maximally expressed during mineralization, in the human system, this factor seems to be maximally active in the proliferation and early matrix maturation phase. It was, however, strongly suppressed, associated with the mineralization phase.
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PMID:Evidence of downregulation of matrix extracellular phosphoglycoprotein during terminal differentiation in human osteoblasts. 1526 10

Prostate cancer metastasizes predominantly to bone, where it induces osteoblastic lesions. Paracrine factors secreted by the metastatic cancer cells are thought to mediate these events. We previously isolated a novel bone metastasis-related factor (MDA-BF-1) from bone marrow aspirate samples from patients with prostate cancer and bone metastasis, and found that this factor stimulated osteoblast differentiation, possibly by interacting with a receptor on the osteoblasts. Identifying this putative MDA-BF-1 receptor biochemically requires the expression of MDA-BF-1 for receptor binding assays and for the preparation of a ligand-affinity column. We tagged MDA-BF-1 with a peptide containing a protein kinase A phosphorylation site plus a 7-histidine sequence to facilitate the labeling of MDA-BF-1 for receptor binding assay and the binding of MDA-BF-1 to an immobilized metal affinity column. The recombinant MDA-BF-1 protein (MDA-BF1-kinase-his) was expressed in Sf9 cells using a baculovirus expression system. About 0.8 mg of purified MDA-BF1-kinase-his protein was obtained from 4 x 10(8) Sf9 cells. MDA-BF1-kinase-his can be phosphorylated by PKA with a specific activity around 10(5)cpm/mug protein. Receptor binding assays using this (32)P-labeled MDA-BF-1 showed that MDA-BF-1 bound to membranes prepared from Saos-2, an osteosarcoma cell line, and C2C12, a mouse pluripotent mesenchymal precursor cell line that can be induced to become osteoblast by BMP-2. In contrast, MDA-BF-1 did not bind to membranes from PC-3 human prostate cancer cells or HEK293 human embryonic kidney cells. These observations suggest that the MDA-BF-1 receptor is expressed in cells of osteoblastic lineage. In addition to its use as a ligand for receptor binding assays, a ligand affinity column can be prepared by binding MDA-BF1-kinase-his to an IMAC for the purification of MDA-BF-1 receptor.
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PMID:Expression of recombinant MDA-BF-1 with a kinase recognition site and a 7-histidine tag for receptor binding and purification. 1591 29

We have previously shown p53 to have a specific role in osteoblast differentiation by its ability to regulate expression of certain bone specific proteins. In this study, we show mineralized matrix formation in vivo to be directly related to the presence of wild type p53 in osteoblastic osteosarcoma cells. In order to further understand the importance of p53 in differentiation, we investigated the relationship between p53 and Bone Morphogenetic Proteins (BMPs) (BMP 1, 2, 3A, 3B (GDF-10), 4, 5, 6, 7, 8A and 8B) during osteoblast differentiation. The expression of several BMPs were tested using RNase Protection Assay in differentiating ROS17/2.8 osteoblastic osteosarcoma cells. The expression of BMPs 1, 2, 3a, 3b and 7 showed time dependent modulation during in vitro differentiation. In order to determine if p53 has a role in this process, we used a murine osteosarcoma cell line stably expressing a temperature sensitive p53. Cells were exposed to ascorbic acid and glycerophosphates to hasten in vitro osteoblast differentiation and maintained either at 32 or 37 degrees C for expression of the wild type or mutant p53 phenotype. The expression of BMP-2, BMP-4 and BMP-7 were modulated in a p53 dependent fashion. We were able to confirm the p53 dependency of BMP-2 independently by RT-PCR. While BMP-2 expression was evident in the presence of both wild type and mutant p53, regulated expression was seen only in cells expressing wild type p53. Transient over expression of wild type p53 did not result in the same BMP-2 response as stable expression showing that the presence of p53 may be important for an orderly development of osteoblast differentiation rather than a direct effect on gene expression. The functional relationship between p53 and these bone specific markers is discussed.
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PMID:Relationship of bone morphogenetic protein expression during osteoblast differentiation to wild type p53. 1599 55

The transcription factor NFkappaB is constitutively activated in various tumor cells where it promotes proliferation and represses apoptosis. The bone morphogenetic proteins (BMPs) delay cell proliferation and promote differentiation and apoptosis of bone cells through activation of Smad downstream effectors and via Smad-independent mechanisms. Thus, NFkappaB and BMP pathways play opposing roles in regulating osteoblastic cell fate. Here, we show that in osteosarcoma Saos2 osteoblasts, NFkappaB regulates the activity of the BMP/Smad signaling. Inhibition of NFkappaB by overexpression of mIkappaB leads to the induction of osteoblast differentiation. Saos2 cells overexpressing mIkappaB (Saos2-mIkappaB) exhibit higher expression of osteoblast phenotypic genes such as alkaline phosphatase, Runx2 and osteocalcin and are more responsive to BMP2 in comparison to wild-type cells (Saos2-wt) or empty vector infected controls (Saos2-EV). Furthermore, BMP-2 signaling and Smad phosphorylation are significantly increased in Saos2-mIkappaB cells in comparison to Saos2-EV cells. Inhibition of NFkappaB signaling in Saos2-mIkappaB cells is associated with decreased expression of the BMP signaling inhibitor Smad7. While gain of Smad7 function in Saos2-mIkappaB cells results in inhibition of BMP signaling, anti-sense knockdown of Smad7 in Saos2-EV cells leads to upregulation of BMP signaling. We therefore conclude that in osteosarcoma Saos2 cells, NFkappaB represses BMP/Smad signaling and BMP2-induced differentiation through Smad7.
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PMID:Smad7 mediates inhibition of Saos2 osteosarcoma cell differentiation by NFkappaB. 1625 79

The POS-1 murine model of osteolytic osteosarcoma was used to elucidate the molecular and cellular mechanisms involved in the development of primary bone tumors and associated lung metastasis. The POS-1 cell line is derived from an osteosarcoma tumor which develops spontaneously in C3H mice. The POS-1 cell line was characterized in vitro by mineralization capacity and expression of bone markers by semi-quantitative RT-PCR, compared to primary osteoblasts and bone marrow cells. POS-1 cells showed no mineralization capacity and exhibited an undifferentiated phenotype, expressing both osteoblastic and unexpected osteoclastic markers (TRAP, cathepsin K and RANK). Thereby, experiments were performed to determine whether RANK was functional, by studying the biological activity of murine RANKL through the receptor RANK expressed on POS-1 cells. Results revealed a RANKL-induced increase in ERK phosphorylation, as well as BMP-2 induction at the mRNA and protein levels, and a decrease of POS-1 cell proliferation in the presence of 10 ng/ml RANKL. BMP-2 induction is dependent on the ERK 1/2 signal transduction pathway, as its expression is abolished in the presence of UO126, a specific synthetic inhibitor of the ERK 1/2 pathway. Moreover, a 2-fold molar excess of soluble RANK blocks the RANKL-induced BMP-2 expression, demonstrating that the biological effects of RANKL observed in POS-1 cells are mediated by RANK. This is the first report describing a functional RANK expressed on osteosarcoma cells, as shown by its ability to induce signal transduction pathways and biological activity when stimulated by RANKL.
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PMID:RANKL directly induces bone morphogenetic protein-2 expression in RANK-expressing POS-1 osteosarcoma cells. 1632 4


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