UMLS:C0029463 - FACTA Search

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

We previously reported the Wnt receptor low-density lipoprotein receptor-related protein 5 (LRP5) was frequently expressed in osteosarcoma (OS) tissue and correlated with metastasis and a lower disease-free survival. Subsequent in vitro analysis revealed that dominant-negative, soluble LRP5 (sLRP5) can reduce in vitro cellular invasion. In the current study, we examined the molecular mechanisms of blocking canonical Wnt signaling by sLRP5 in Saos-2 osteosarcoma cells. Transfection of sLRP5 caused a marked up-regulation of E-cadherin in this cell line. This increase in E-cadherin, seen primarily at the cell-cell contact borders, was associated with down-regulation of Slug and Twist, transcriptional repressors which mediate cancer invasion and metastasis. In contrast, N-cadherin, a mesenchymal marker, was reduced by sLRP5. In addition, blocking Wnt signaling by sLRP5 modulated other epithelial and mesenchymal markers (keratin 8 and 18, fibronectin), suggesting a reversal of epithelial-mesenchymal transition (EMT) seen during cancer progression. SLRP5 also reduced the expression of matrix metalloproteinase (MMP) 2 and 14, consistent with a decrease in invasive capacity. SLRP5 transfection decreased both Met expression and hepatocyte growth factor (HGF)-induced cell motility. Taken together, these results support a role for Wnt/LRP5 signaling in invasiveness of a subset of OS cells.
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PMID:Blocking Wnt/LRP5 signaling by a soluble receptor modulates the epithelial to mesenchymal transition and suppresses met and metalloproteinases in osteosarcoma Saos-2 cells. 1731

The inflammatory microenvironment of tumors is characterized by the presence of cytokines and growth factor's network both in the supporting stroma and in tumor areas. These molecules may contribute to tumoral growth and progression, facilitating metastatic process. Therefore, cancer susceptibility and severity may be associated with the functional polymorphisms of inflammatory genes. We hypothesized that inflammatory gene polymorphisms may have important role for osteosarcoma patients. We studied -308G>A TNF-alpha, +252A>G TNF-beta, -174G>C IL-6, -1082A>G IL-10, +125C>G PECAM-1, and the -463A>G MPO inflammatory gene polymorphisms in 80 osteosarcoma patients and 160 control individuals using polymerase chain reaction-restriction-fragment length polymorphism method. We found that the patients with variant genotype (GG) of the +252A>G TNF-beta gene showed an event-free survival rate of 20% at 100 months. We suggest that the presence of the variant genotype (GG) of the +252A>G TNF-beta polymorphism, which leads to higher level of cytokine production, could be a facilitator mechanism in tumor progression leading to a poor event-free survival.
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PMID:TNF-alpha, TNF-beta, IL-6, IL-10, PECAM-1 and the MPO inflammatory gene polymorphisms in osteosarcoma. 1748 4

Osteosarcoma is the most frequent primary bone tumor that develops mainly in the young, the median age of diagnosis being 18 years. Despite improvement in osteosarcoma treatment, survival rate is only 30% at 5 years for patients with pulmonary metastases at diagnosis. This warrants exploration of new therapeutic options, and among them, osteoprotegerin (OPG), a naturally occurring protein that inhibits bone resorption, is very promising in blocking the vicious cycle between bone resorption and tumor proliferation that takes place during tumor development in bone site. As OPG binds and inhibits the activity of tumor necrosis factor-related apoptosis-inducing ligand, the truncated form of murine OPG 1-194 was used. The cDNA encoding OPG was administered by gene transfer using replication-defective adenoviral vector or was associated with an amphiphilic polymer in two models of rodent osteosarcoma. In both models, OPG gene transfer was effective in preventing the formation of osteolytic lesions associated with osteosarcoma development, in reducing the tumor incidence and the local tumor growth, leading to a 4-fold augmentation of mice survival 28 days postimplantation. On the contrary, OPG did not prevent the development of pulmonary metastasis alone, suggesting that bone environment is necessary for OPG therapeutic efficacy. Because OPG has no direct activity on osteosarcoma cells in vitro (cell binding, cell proliferation, apoptosis, or cell cycle distribution), we show that OPG exerts indirect inhibitory effect on tumor progression through the inhibition of RANKL whose production is enhanced in bone tumor environment, leading to osteolysis inhibition as reflected by osteoclast number decrease.
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PMID:Therapeutic relevance of osteoprotegerin gene therapy in osteosarcoma: blockade of the vicious cycle between tumor cell proliferation and bone resorption. 1767 Dec

Osteopontin (OPN) is a secreted, non-collagenous, sialic acid-rich protein which functions by mediating cell-matrix interactions and cellular signaling via binding with integrins and CD44 receptors. An increasing number of studies have shown that OPN plays an important role in controlling cancer progression and metastasis. OPN was found to be expressed in many human cancer types, and in some cases, its over-expression was shown to be directly associated with poor patient prognosis. In vitro cancer cell line and animal model studies have clearly indicated that OPN can function in regulating the cell signaling that ultimately controls the oncogenic potential of various cancers. Previous studies in our laboratory demonstrated that OPN is highly expressed in human osteosarcoma (OS) cell line OS-732. In this study, we successfully reduced the tumorigenecity of OS-732 cells xenotransplanted into nude mice, using the antisense human OPN (hOPN) RNA expression vector.
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PMID:The inhibition of in vivo tumorigenesis of osteosarcoma (OS)-732 cells by antisense human osteopontin RNA. 1795 79

Tumor progression depends on the angiogenic switch. In this review, we recapitulate the molecular mechanisms involved in this angiogenic switch. The rat osteosarcoma model employed would permit further studies in the sequential events leading to initial recruitment of blood vessels and could lead to development of an angiogenesis-based panel of circulating blood cells (endothelial cells, endothelial progenitor cells and accessory cells) that can be quantified and used to detect microscopic tumors or to follow the efficacy of antiangiogenic therapy. Such a result would lead to the possibility of early therapy in cancer progression.
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PMID:Molecular mechanisms regulating the angiogenic phenotype in tumors: clinical impact in the future. 1797 51

The cellular and molecular mechanisms of tumor progression following chemotherapy are largely unknown. Here, we demonstrate that cisplatin (CDDP) treatment upregulates VEGF and Flt1 expression leading to the survival and expansion of a highly tumorigenic fraction of side-population (SP) cells in osteosarcoma (HOS), neuroblastoma (SK-N-BE2) and rhabdomyosarcoma (RH-4) cell lines. In all three lines, we show that CDDP treatment increases levels of VEGF and Flt1 expression, and induces enhanced clonogenic capacity and increased expression of the 'stemness'-associated genes Nanog, Bmi-1 and Oct-4 in the SP fraction. In HOS, these changes are associated with the transformation of a non-tumorigenic osteosarcoma SP fraction to a highly tumorigenic phenotype. Inhibition of Flt1 led to complete reduction of tumorigenicity in the HOS SP fraction, and reduction of clonogenic capacity and expression of stemness genes in the SK-N-BE(2) and RH-4 SP fractions. Treatment with U0126, a specific inhibitor of MAPK/ERK1,2 completely downregulates CDDP-induced VEGF and Flt1 expression and induction/expansion of SP fraction in all three cell lines, indicating that these effects are mediated through MAPK/ERK1,2 signaling. In conclusion, we report a novel mechanism of CDDP-induced tumor progression, whereby the activation of VEGF/Flt1 autocrine signaling leads to the survival and expansion of a highly tumorigenic SP fraction.
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PMID:Cisplatin treatment increases survival and expansion of a highly tumorigenic side-population fraction by upregulating VEGF/Flt1 autocrine signaling. 1833 70

Previous studies from our laboratory have demonstrated that thyroid hormones play a key role in cancer progression. In addition, a deaminated form, tetraiodothyroacetic acid (tetrac), that antagonizes the proliferative action of these hormones was found to possess anti-cancer functions through its ability to inhibit cellular proliferation and angiogenesis. The present study was undertaken to investigate whether tetrac could also suppress the development of drug resistance, known as a causative factor of disease relapse. Tetrac was shown to enhance cellular response in vitro to doxorubicin, etoposide, cisplatin, and trichostatin A in resistant tumor cell lines derived from neuroblastoma, osteosarcoma, and breast cancer. The mechanism of action of tetrac did not involve expression of classical drug resistance genes. However, radiolabeled doxorubicin uptake in cells was enhanced by tetrac, suggesting that one or more export mechanisms for chemotherapeutic agents are inhibited. Tetrac was also found to enhance cellular susceptibility to senescence and apoptosis, suggesting that the agent may target multiple drug resistance mechanisms. Tetrac has previously been shown to inhibit tumor cell proliferation in vitro. In vivo studies reported here revealed that tetrac in a pulsed-dose regimen was effective in suppressing the growth of a doxorubicin-resistant human breast tumor in the nude mouse. In this paradigm, doxorubicin-sensitivity was not restored, indicating that (1) the in vitro restoration of drug sensitivity by tetrac may not correlate with in vivo resistance phenomena and (2) tetrac is an effective chemotherapeutic agent in doxorubicin-resistant cells.
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PMID:Novel function of the thyroid hormone analog tetraiodothyroacetic acid: a cancer chemosensitizing and anti-cancer agent. 1838 42

Osteosarcoma (OS) is a cancer which afflicts the bone, ending in usually fatal lung metastasis mainly in teenagers and adolescents. We have recently shown that PEDF is one biological that has multiple anti-OS activity. In parallel, we have also shown using rodent cells, the beneficial effects of downregulation of uPAR against OS. Here, we provide further proof of such effects of uPAR downregulation using human OS cells and combine this with PEDF treatment. We describe the involvement of uPAR with activity of PEDF. In silico, PEDF did not bind to uPA and thus did not attenuate its activity. In the presence of exogenous PEDF, both uPA, its receptor and FAK localize intracellularly. Blocking of uPA and uPAR on the cell surface increased the binding of PEDF, whether endogenous or exogenous. In clinical specimens of OS, there was mutually exclusive expression of PEDF and uPAR at the growing edge of the tumor. Incubation of cells with PEDF and a uPAR antibody led to an increased reduction in invasion of cells through Matrigel, and a heightened apoptotic signal. In vivo, treatment of human OS cells with both PEDF and uPAR DNAzyme resulted in greater primary tumor growth, pulmonary metastasis inhibition and decreased osteolysis. Areas of necrosis were noted in the PEDF-administered group of animals. This study shows an association between two very important systems involved in tumor progression and highlights the possibility that a combined approach of PEDF exposure and uPAR knockdown may lead to a better targeted outcome against OS.
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PMID:uPAR mediates anticancer activity of PEDF. 1848 55

Genomic imprinting, a heritable form of epigenetic information, is thought to play an important role in tumor progression. DNA methylation is a common mechanism of genomic imprinting. To evaluate the genome-wide effects of malignant transformation on osteosarcoma progression, we examined multiple biological properties, including DNA methylation, in human osteoblast hFOB1.19 cells (ATCC Catalog No. CRL-11372) transformed by treatment with carcinogenic agent N-Methyl-N'-nitro-N-nitrosoguanidine (MNNG, 1.0 microg/ml) and carcinogenic promoting agent 12-O-tetradecanoyl phorbol-13-acetate (TPA, 200 ng/ml). We also examined global changes in expression of imprinted genes during transformation using microarray analysis. Ten imprinted genes, including H19, MKRN3, NDN, CDKN1C, PHLDA2, MEST, CD81, GRB10, SLC22A18, and SLC22A3 were aberrantly regulated in transformed cells, suggesting roles in tumorigenesis. Moreover, we analyzed the methylation state of the promoter regions of H19, PHLDA2, and SLC22A18 genes by bisulfite sequencing array and observed a correlation between upregulated expression of H19 and PHLDA2 genes and hypomethylation of their promoter regions, although this was not observed for SLC22A18. Our results suggest that changes in expression of imprinted genes caused by changes in methylation are involved, and are among the earliest events, in neoplastic progression.
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PMID:Changes in genomic imprinting and gene expression associated with transformation in a model of human osteosarcoma. 1850 91

The retinoblastoma tumor suppressor protein (Rb) is mutated or expressed at very low levels in several tumor types, including retinoblastoma and osteosarcoma, as well as small cell lung, colon, prostate, bladder, and breast carcinomas. Loss or reduction of Rb expression is seen most commonly in high-grade breast adenocarcinomas, suggesting that a relationship may exist between loss of Rb function and a less-differentiated state, increased proliferation, and high metastatic potential. In this study, we found that knockdown of Rb by small interfering RNA in MCF7 breast cancer cells disrupts cell-cell adhesion and induces a mesenchymal-like phenotype. The epithelial-to-mesenchymal transition (EMT), a key event in embryonic morphogenesis, is implicated in the metastasis of primary tumors. Additionally, Rb is decreased during growth factor- and cytokine-induced EMT and overexpression of Rb inhibits the EMT in MCF10A human mammary epithelial cells. Ectopic expression and knockdown of Rb resulted in increased or reduced expression of E-cadherin, which is specifically involved in epithelial cell-cell adhesion. Other EMT-related transcriptional factors, including Slug and Zeb-1, are also induced by Rb depletion. Furthermore, we confirmed that Rb binds to an E-cadherin promoter sequence in association with the transcription factor activator protein-2alpha. Finally, in breast cancer specimens, we observed a concurrent down-regulation of Rb and E-cadherin expression in mesenchymal-like invasive cancers. These findings suggest that Rb inactivation contributes to tumor progression due to not only loss of cell proliferation control but also conversion to an invasive phenotype and that the inhibition of EMT is a novel tumor suppressor function of Rb.
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PMID:Rb depletion results in deregulation of E-cadherin and induction of cellular phenotypic changes that are characteristic of the epithelial-to-mesenchymal transition. 1859 9

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