Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C1522084 (Osteosarcoma)
 2,200 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We previously reported that the recombinant adenovirus (Ad) vector containing the thymidine kinase (TK) gene driven by the osteocalcin (OC) promoter (Ad-OC-TK), when delivered concurrently with acyclovir (ACV), is highly selective in blocking the growth of osteosarcoma in experimental models (Cancer Res. 1996;56:4614-4619). To investigate the possible additive effects of the combined treatment of gene therapy and conventional chemotherapy (chemogene therapy), we compared the effect of low dose (IC10) methotrexate (MTX) and OC promoter-based toxic gene therapy with either of these single modalities alone. We choose low dose MTX with the intent of determining whether chemosensitization of the osteosarcoma may be possible in combination with gene therapy with an overall reduced toxicity profile and enhanced therapeutic efficacy when compared to a single agent alone. In vitro, the combined treatments of MTX (3 ng/mL) and Ad-OC-TK (20 multiplicity of infection (MOI)/target cell) plus ACV (10 mg/mL) had an additive therapeutic effect over that of either MTX (P < 0.05) or Ad-OC-TK plus ACV treatment alone (P < 0.05). In vivo, nude mice with subcutaneous tumors of either human osteosarcoma (MG-63) or rat osteosarcoma (ROS) received three intratumoral injections of Ad-OC-TK (5 x 10(8) PFU) plus daily intraperitoneal ACV (40 mg/kg body weight) for 2 weeks in combination with five weekly bolus intraperitoneal MTX (87.5 mg/kg). Osteosarcoma tumor growth was inhibited more efficiently than by either Ad-OC-TK plus ACV (P < 0.05) or MTX treatment (P < 0.005) alone. At day 45 in the ROS group, 100% of the animals survived when treated with chemogene therapy, whereas 80% survived with gene therapy and no animals survived in the MTX-treated or untreated controls. In summary, we developed a novel therapeutic strategy for the treatment of osteosarcoma employing both chemotherapy and gene therapy. Chemogene therapy could potentially achieve better antitumor effects with reduced toxicity than the conventional chemotherapy or gene therapy protocols alone.
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PMID:Chemogene therapy: osteocalcin promoter-based suicide gene therapy in combination with methotrexate in a murine osteosarcoma model. 940 6

The objective of this study was to determine the effect of alendronate on the viability of canine osteosarcoma cells and nonneoplastic canine cells. The sample population was composed of canine osteosarcoma tumor cells. Osteosarcoma cells and canine fibroblasts were maintained in culture under standard conditions. The MTT assay for cell viability was performed after 24, 48, and 72 h of incubation with alendronate (0.001 to 1000 microM) or no drug (control). Plates were set up so that each concentration and the control had a sample number of 8. The optical density (OD) of each well was measured at 540 nm using an enzyme-linked immunosorbent assay microplate reader. The percent viability was determined for each concentration and for each incubation time. After 24 h of incubation of POS (parent osteosarcoma) and HMPOS cells with alendronate, there was no significant difference in mean OD at any drug concentration when compared with control samples. A significant concentration- and time-dependent reduction in mean OD of osteosarcoma cells was observed after 48 and 72 h of incubation, with alendronate concentrations ranging from 10 to 1000 microM. The lowest percent cell viability observed in treated cells was 35%. Conversely, alendronate did not significantly affect mean OD in fibroblasts, and the lowest percent cell viability observed was 76%. Our data indicate that alendronate may have the potential to inhibit canine osteosarcoma tumor growth. It will be important to determine the clinical relevance of these in vitro findings. If similar findings are observed in vivo, use of alendronate may also be indicated as an adjuvant to existing chemotherapeutic protocols.
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PMID:The effect of the bisphosphonate alendronate on viability of canine osteosarcoma cells in vitro. 1531 69

Osteosarcoma is the most common primary malignancy of bone and patients often develop pulmonary metastases. In order to investigate the pathogenesis of human osteosarcoma, there is a great need to develop a clinically relevant animal model. Here we report the development of an osteosarcoma animal model using three related human osteosarcoma lines, the parental TE-85 and two derivative lines MNNG/HOS and 143B. In vitro characterization demonstrated that the 143B line had the greatest cell migration and the least cell adhesion activities among the three lines. The 143B line also exhibited the greatest ability for anchorage independent growth. When GFP-tagged osteosarcoma cells were injected into the proximal tibia of athymic mice, we found that 143B cells were highly tumorigenic and metastatic, and MNNG/HOS cells were tumorigenic but significantly less metastatic. TE85 cells were neither tumorigenic nor metastatic. The number of pulmonary metastases was found 50-fold higher in 143B injected animals than that in MNNG/HOS injected mice. No pulmonary metastases were detected in TE85 injected animals for up to 8 weeks. Primary tumors formed by MNNG/HOS and 143B cells could be visualized by whole body fluorescence imaging, while the pulmonary metastases were visualized on the necropsied samples. The GFP tagged 143B cells (and to a lesser extent, MNNG/HOS cells) were readily recovered from lung metastases. This clinically relevant model of human osteosarcoma provides varying degrees of tumor growth at the primary site and metastatic potential. Thus, this orthotopic model should be a valuable tool to investigate factors that promote or inhibit osteosarcoma growth and/or metastasis.
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PMID:An orthotopic model of human osteosarcoma growth and spontaneous pulmonary metastasis. 1617 Jun 68

Osteosarcoma is a primary bone malignancy generally affecting the young, with 60% of cases occurring before the age of 25 years and the peak incidence at 15 years. Survival has improved over the past several decades, with non- metastatic disease having an approximately 70% chance of long-term survival. Unfortunately, patients with metastatic disease at diagnosis or those who have recurrent disease have a dismal prognosis, with approximately 20% surviving long term. In this review article we describe several new therapies in development for osteosarcoma. These include immune-based therapies, strategies to inhibit tumor growth, radiotherapy, and the introduction of new chemotherapies and targets.
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PMID:New paradigms for therapy for osteosarcoma. 1622 77

Osteosarcoma (OS) is one of the most common malignancies of the bone. Although prognosis of OS has improved significantly during the past several years due to more intensive chemotherapy and radiotherapy regimens, new therapeutic approaches are needed for recurrent and inoperable cases, p73 and p63, like their homologue, the tumor suppressor p53, are able to induce apoptosis in several cell types. Here, we evaluated the antitumor effects of p73 and p63 on eleven different human OS cell lines. In vitro, adenovirus-mediated transduction of p63gamma induced apoptosis in OS cells that are resistant to p53-mediated apoptosis, while less effect was observed following transduction of p73alpha or p63alpha. Interestingly, the apoptotic effects of p63gamma were greater than those of wild-type p53 in OS cells carrying MDM2-amplification. We then determined the in vivo therapeutic effect of intratumoral injection of adenovirus-vector expressing p53 family members on xenografts derived from Saos-2 cells implanted in nude mice, and showed that infection with p63y significantly suppressed tumor growth compared with p53. In addition, exogenous p73beta and p63gamma significantly increased the chemosensitivity of OS cells to doxorubicin and cisplatin, chemotherapeutic agents commonly used in the treatment of OS. Our results suggest that adenovirus-mediated transduction of p53 family members may have utility in gene therapy for OS, particularly in combination with chemotherapeutic agents.
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PMID:Antitumor effect of adenovirus-mediated p53 family gene transfer on osteosarcoma cell lines. 1756 87

Osteosarcoma is the most frequent type of primary bone cancer in children and adolescents. These malignant osteoid forming tumors are characterized by their uncontrolled hyperproliferation. Here, we investigate the role of Ca(2+)/calmodulin-dependent protein kinase II (CaMKII) in the growth of human osteosarcoma. We show that alpha-CaMKII is expressed in human osteosarcoma cell lines and in primary osteosarcoma tissue derived from patients. The pharmacologic inhibition of CaMKII in MG-63 and 143B human osteosarcoma cells by KN-93 resulted in an 80 and 70% decrease in proliferation, respectively, and induced cell cycle arrest in the G(0)/G(1) phase. The in vivo administration of KN-93 to mice xenografted with human osteosarcoma cells significantly decreased intratibial and subcutaneous tumor growth. Mechanistically, KN-93 and alpha-CaMKII siRNA increased p21((CIP/KIP)) gene expression, protein levels, and decreased the phosphorylation of retinoblastoma protein and E2F transactivation. Furthermore, the inhibition of CaMKII decreased membrane-bound Tiam1 and GTP-bound Rac1, which are known to be involved in p21 expression and tumor growth in a variety of solid malignant neoplasms. Our results suggest that CaMKII plays a critical role in the growth of osteosarcoma, and its inhibition could be an attractive therapeutic target to combat conventional high-grade osteosarcoma in children.
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PMID:alpha-CaMKII controls the growth of human osteosarcoma by regulating cell cycle progression. 1763 40

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

Osteosarcoma is the most common primary bone tumor, but the pathogenesis is not well understood. While cyclooxygeanse-2 (COX-2) is known to be closely associated with tumor growth and metastasis in several kinds of human tumors, the function of COX-2 in osteosarcoma is unclear. Therefore, to investigate the function of COX-2 in osteosarcoma, we established stable cell lines overexpressing COX-2 in U2OS human osteosarcoma cells. COX-2 overexpression as well as prostaglandin E2 treatment promoted proliferation of U2OS cells. In addition, COX-2 overexpression enhanced mobility and invasiveness of U2OS cells, which was accompanied by increases of matrix metalloproteinase-2 and -9 (MMP-2 and -9) activities. Selective COX-2 inhibitors, NS-398 and celecoxib, inhibited cell proliferation and abrogated the enhanced mobility, invasiveness and MMP activities induced by COX-2 overexpression. These results suggest that COX-2 is directly associated with cell proliferation, migration and invasion in human osteosarcoma cells, and the therapeutic value of COX-2 inhibitors should be evaluated continuously.
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PMID:Cyclooxygenase-2 promotes cell proliferation, migration and invasion in U2OS human osteosarcoma cells. 1793 34

Osteosarcoma (OS) is a primary malignant bone tumor with a high propensity for local recurrence and distant metastasis. We previously showed a secreted, dominant-negative LRP5 receptor (DNLRP5) suppressed in vitro migration and invasion of the OS cell line SaOS-2. Therefore, we hypothesized DNLRP5 also has in vivo antitumor activity against OS. We used the 143B cell line as a model to study the effect of DNLRP5 by stable transfection. Inhibition of Wnt signaling by DNLRP5 was verified by a reduction in TOPFLASH luciferase activity. In soft agar, DNLRP5-transfected 143B cells formed fewer and smaller colonies than control transfected cells. DNLRP5 transfection reduced in vivo tumor growth of 143B cells in nude mice. DNLRP5 also decreased in vitro cellular motility in a scratch wound assay. In a spontaneous pulmonary metastasis model, DNLRP5 reduced both the size and number of lung metastatic nodules. The reduction in cellular invasiveness by DNLRP5 was associated with decreased expression of matrix metalloproteinase-2, N-cadherin, and Snail. Our data suggest canonical Wnt/LRP5 signaling reflects an important underlying mechanism of OS progression. Therefore, strategies to suppress LRP5-mediated signaling in OS cells may lead to a reduction in local or systemic disease burden.
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PMID:Dominant negative LRP5 decreases tumorigenicity and metastasis of osteosarcoma in an animal model. 1856 75

Osteosarcoma is the most common primary malignant bone tumor, with high rates of metastasis. Here, we examined the expression of human epidermal growth factor receptor-2 (HER-2) in osteosarcoma cell lines with different metastatic potential, finding that the expression was correlated with metastasis of implanted tumors. We then introduced an expression vector encoding the e23sFv-PEA II-Bid Delta1-60 gene, composed of a HER2-specific single-chain antibody fused with domain II of Pseudomonas exotoxin A (PEA) and the carboxy end of truncated active Bid. We demonstrated that the e23sFv-PEA II-Bid Delta1-60 molecule selectively recognized and killed HER2-overexpressing osteosarcoma cells in vitro. Subsequently, we introduced the e23sFv-PEA II-bid Delta1-60 gene into BALB/c athymic mice bearing HER2-positive osteosarcomas using i.m. injections of liposome-encapsulated vector. Expression of the e23sFv-PEA II-Bid Delta1-60 gene suppressed tumor growth, significantly prolonged animal survival and inhibited metastasis, thereby suggesting it may represent a competitive approach to treating HER2/neu-positive osteosarcoma.
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PMID:scFv-mediated delivery of truncated BID suppresses HER2-positive osteosarcoma growth and metastasis. 1902 93


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