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)

GRP78 is a stress-inducible chaperone protein with antiapoptotic properties that is overexpressed in transformed cells and cells under glucose starvation, acidosis, and hypoxic conditions that persist in poorly vascularized tumors. Previously we demonstrated that the Grp78 promoter is able to eradicate tumors using murine cells in immunocompetent models by driving expression of the HSV-tk suicide gene. Here, through the use of positron emission tomography (PET) imaging, we provide direct evidence of spontaneous in vivo activation of the HSV-tk suicide gene driven by the Grp78 promoter in growing tumors and its activation by photodynamic therapy (PDT) in a controlled manner. In this report, we evaluated whether this promoter can be applied to human cancer therapy. We observed that the Grp78 promoter, in the context of a retroviral vector, was highly activated by stress and PDT in three different types of human breast carcinomas independent of estrogen receptor and p53. Complete regression of sizable human tumors was observed after prodrug ganciclovir treatment of the xenografts in immunodeficient mice. In addition, the Grp78 promoter-driven suicide gene is strongly expressed in a variety of human tumors, including human osteosarcoma. In contrast, the activity of the murine leukemia virus (MuLV) long-terminal repeat (LTR) promoter varied greatly in different human breast carcinoma cell lines, and in some cases, stress resulted in partial suppression of the LTR promoter activity. In transgenic mouse models, the Grp78 promoter-driven transgene is largely quiescent in major adult organs but highly active in cancer cells and cancer-associated macrophages, which can diffuse to tumor necrotic sites devoid of vascular supply and facilitate cell-based therapy. Thus, transcriptional control through the use of the Grp78 promoter offers multiple novel approaches for human cancer gene therapy.
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PMID:Spontaneous and controllable activation of suicide gene expression driven by the stress-inducible grp78 promoter resulting in eradication of sizable human tumors. 1521 14

The hypothesis that glucose deprivation-induced cytotoxicity in transformed human cells is mediated by mitochondrial O2*- and H2O2 was first tested by exposing glucose-deprived SV40-transformed human fibroblasts (GM00637G) to electron transport chain blockers (ETCBs) known to increase mitochondrial O2*- and H2O2 production (antimycin A (AntA), myxothiazol (Myx), or rotenone (Rot)). Glucose deprivation (2-8 h) in the presence of ETCBs enhanced parameters indicative of oxidative stress (i.e. GSSG and steady-state levels of oxygen-centered radicals) as well as cytotoxicity. Glucose deprivation in the presence of AntA also significantly enhanced cytotoxicity and parameters indicative of oxidative stress in several different human cancer cell lines (PC-3, DU145, MDA-MB231, and HT-29). In addition, human osteosarcoma cells lacking functional mitochondrial electron transport chains (rho0) were resistant to glucose deprivation-induced cytotoxicity and oxidative stress in the presence of AntA. In the absence of ETCBs, aminotriazole-mediated inactivation of catalase in PC-3 cells demonstrated increases in intracellular steady-state levels of H2O2 during glucose deprivation. Finally, in the absence of ETCBs, overexpression of manganese containing superoxide dismutase and/or mitochondrial targeted catalase using adenoviral vectors significantly protected PC-3 cells from toxicity and oxidative stress induced by glucose deprivation with expression of both enzymes providing greater protection than was seen with either alone. Overall, these findings strongly support the hypothesis that mitochondrial O2*- and H2O2 significantly contribute to glucose deprivation-induced cytotoxicity and metabolic oxidative stress in human cancer cells.
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PMID:Mitochondrial O2*- and H2O2 mediate glucose deprivation-induced stress in human cancer cells. 1556 20

Oxidative stress and imbalance between free radical generation and detoxification may play a pivotal role in the pathogenesis of Leber's hereditary optic neuropathy (LHON). Mitochondria, carrying the homoplasmic 11778/ND4, 3460/ND1 and 14484/ND6 mtDNA point mutations associated with LHON, were used to generate osteosarcoma-derived cybrids. Enhanced mitochondrial production of reactive oxygen species has recently been demonstrated in these cybrids [Beretta S, Mattavelli L, Sala G, Tremolizzo L, Schapira AHV, Martinuzzi A, Carelli V & Ferrarese C (2004) Brain 127, 2183-2192]. The aim of this study was to characterize the antioxidant defences of these LHON-affected cells. The activities of glutathione peroxidase (GPx), glutathione reductase (GR), superoxide dismutases (SOD) and catalase, and the amounts of glutathione (GSH) and oxidized glutathione (GSSG) were measured in cybrids cultured both in glucose-rich medium and galactose-rich medium. The latter is known to cause oxidative stress and to trigger apoptotic death in these cells. In spite of reduced SOD activities in all LHON cybrids, and of low GPx and GR activities in cells with the most severe 3460/ND1 and 11778/ND4 mutations, GSH and GSSG content were not significantly modified in LHON cybrids cultured in glucose medium. In contrast, in galactose, GSSG concentrations increased significantly in all cells, indicating severe oxidative stress, whereas GR and MnSOD activities further decreased in all LHON cybrids. These data suggest that, in cells carrying LHON mutations, there is a decrease in antioxidant defences, which is especially evident in cells with mutations associated with the most severe clinical phenotype. This is magnified by stressful conditions such as exposure to galactose.
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PMID:Antioxidant defences in cybrids harboring mtDNA mutations associated with Leber's hereditary optic neuropathy. 1572 Mar 87

Oxovanadium(IV) complexes of the polyalcohols sorbitol, galactitol, and mannitol, of stoichiometry Na(2)[VO(L)(2)].H(2)O, were obtained from aqueous alkaline solutions. They were characterized by elemental analysis, infrared and UV-vis spectroscopies, thermoanalytical (thermogravimetric and differential thermal analysis) data, and magnetic susceptibility measurements. The biological activities of the complexes on the proliferation, differentiation, and glucose consumption were tested on osteoblast-like cells (MC3T3E1 osteoblastic mouse calvaria-derived cells and UMR106 rat osteosarcoma-derived cells) in culture. The three complexes exerted a biphasic effect on cell proliferation, being slight stimulating agents at low concentrations and inhibitory in the range of 25-100 microM. All the complexes inhibited cell differentiation in tumor osteoblasts. Their effects on glucose consumption were also discussed. The free ligands did not show any effect on the studied biological parameters.
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PMID:Synthesis, characterization, and biological activity of oxovanadium(IV) complexes with polyalcohols. 1645 76

1. It has previously been demonstrated that nuclei isolated from normal and neoplastic lymphoid cells are capable of oxygen-dependent ATP synthesis. In this paper it is shown that also the corresponding intact cells can synthesize ATP under those conditions in which nuclei can synthesize ATP. 2. In nuclei isolated from liver, kidney, rhabdomyosarcoma and osteosarcoma, oxygen-dependent ATP synthesis could not be demonstrated. The cells isolated from these tissues or tumours could not synthesize ATP either. The alternatives that such nuclei lost their ability for oxidative phosphorylation during the isolation procedure or that the process does not occur in these nuclei were explored. 3. Janus Green B, a vital stain for mitochondria, was used as a differential inhibitor of mitochondrial and nuclear ATP synthesis in intact cells. 4. Oxidative phosphorylation in mitochondria isolated from cells that had been incubated with various concentrations of Janus Green B (1-10mum) was seriously uncoupled, whereas at these concentrations oxygen-dependent ATP synthesis in isolated nuclei and in isolated cells were only inhibited to a small extent. 5. The results suggest that oxygen-dependent ATP synthesis in isolated cells measured under ;nuclear' conditions and in the presence of Janus Green B and Ca(2+) is mainly due to nuclear oxygen-dependent ATP synthesis. The stimulation of cellular ATP synthesis by glucose was completely inhibited by Janus Green B. 6. It is tentatively concluded that the stimulation of ATP synthesis in isolated cells by glucose, which is not found in isolated nuclei, represents mitochondrial ATP synthesis, and nuclear and mitochondrial ATP synthesis can then be studied differentially in the intact cell. The possibility is considered that oxygen-dependent nuclear ATP synthesis is not a general property of cell nuclei.
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PMID:Synthesis of adenosine triphosphate in isolated nuclei and intact cells. 1674 5

Nonwoven fibrous matrices have been widely used in cell and tissue cultures because their three-dimensional (3-D) structures with large surface areas and pore spaces can support high-density cell growth. Although cell adherence and growth on 2-D surfaces have been thoroughly investigated, very little is known for cells cultured in 3-D matrices. The effects of mixing intensity on cell seeding, adherence, and growth in fibrous matrices were thus investigated. Chinese Hamster Ovary and osteosarcoma cells were inoculated into nonwoven polyethylene terephthalate matrices by dynamic and static seeding methods, of which the former was found to be superior in seeding efficiency and cell distribution in the matrices. Dynamic seeding increased seeding efficiency from approximately 40% to more than 90%. When higher mixing intensities were applied, both cell attachment and detachment rates increased. Cell attachment was transport limited, as indicated by the increased attachment rate with increasing the mass transfer coefficient of the cells. Meanwhile, cell detachment from the 3-D matrix can be described by the Bell model. The effects of matrix pore size on cell adherence and proliferation were also investigated. In general, the smaller pore size is favorable to cell attachment and proliferation. Further analysis revealed that the interaction between mixing intensity and pore size played a vital role in hydrodynamic damage to cells, which was found to be significant when the Kolomogorov eddy size was smaller than the matrix pores. Increasing mixing intensity also increased oxygen transfer, decreased the lactate yield from glucose, and improved cell growth.
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PMID:Effects of mixing intensity on cell seeding and proliferation in three-dimensional fibrous matrices. 1686 27

Hypoxia-inducible factor-1 (HIF-1) is an important tumor-selective therapeutic target for solid tumors. Icariside II was isolated from Epimedium koreanum through successive fractionation with ethyl acetate, n-butanol, chloroform and hexane, followed by gel column chromatography. Icariside II attenuated the protein level of HIF-1alpha induced by hypoxia in human osteosarcoma (HOS) cells in a concentration-dependent manner, probably by enhancing the interaction rate between von Hippel-Lindau (VHL) and HIF-1alpha. Furthermore, Icariside II down-regulated the levels of HIF-inducible genes involved in angiogenesis, metastasis, and glucose metabolism, such as vascular endothelial growth factor (VEGF), urokinase plasminogen activator receptor (uPAR), adrenomedullin (ADM), matrix metalloproteinase 2 (MMP2), aldolase A, and enolase 1 in HOS cells. Icariside II also inhibited the migration rate in HOS cells and tube formation rate in human umbilical vein endothelium cells (HUVECs). Overall, these results suggest the potential use of Icariside II as a therapeutic candidate against various diseases that involve overexpression of HIF-1alpha.
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PMID:Icariside II from Epimedium koreanum inhibits hypoxia-inducible factor-1alpha in human osteosarcoma cells. 1798 Mar 59

Tumor suppressor p53-dependent stress response pathways play an important role in cell fate determination. In this study, we have found that glucose depletion promotes the phosphorylation of AMP-activated protein kinase catalytic subunit alpha (AMPKalpha) in association with a significant up-regulation of p53, thereby inducing p53-dependent apoptosis in vivo and in vitro. Thymocytes prepared from glucose-depleted wild-type mice but not from p53-deficient mice underwent apoptosis, which was accompanied by a remarkable phosphorylation of AMPKalpha and a significant induction of p53 as well as pro-apoptotic Bax. Similar results were also obtained in human osteosarcoma-derived U2OS cells bearing wild-type p53 following glucose starvation. Of note, glucose deprivation led to a significant accumulation of p53 phosphorylated at Ser-46, but not at Ser-15 and Ser-20, and a transcriptional induction of p53 as well as proapoptotic p53 AIP1. Small interference RNA-mediated knockdown of p53 caused an inhibition of apoptosis following glucose depletion. Additionally, apoptosis triggered by glucose deprivation was markedly impaired by small interference RNA-mediated depletion of AMPKalpha. Under our experimental conditions, down-regulation of AMPKalpha caused an attenuation of p53 accumulation and its phosphorylation at Ser-46. In support of these observations, enforced expression of AMPKalpha led to apoptosis and resulted in an induction of p53 at protein and mRNA levels. Furthermore, p53 promoter region responded to AMPKalpha and glucose deprivation as judged by luciferase reporter assay. Taken together, our present findings suggest that AMPK-dependent transcriptional induction and phosphorylation of p53 at Ser-46 play a crucial role in the induction of apoptosis under carbon source depletion.
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PMID:Activation of AMP-activated protein kinase induces p53-dependent apoptotic cell death in response to energetic stress. 1805 5

Response to neoadjuvant chemotherapy is a significant prognostic factor for osteosarcoma (OS). 18-F-fluorodeoxy-D: -glucose (FDG) positron emission tomography (PET) is a noninvasive imaging modality that correlates with histological grading in musculoskeletal sarcomas. To determine the prognostic value of FDG PET in patients receiving chemotherapy, 13 patients were evaluated by FDG-PET, and followed for more than 4 years. FDG PET standardized uptake values before (SUV1) and after (SUV2) chemotherapy were analyzed and correlated with the expression of metastasis-related glycolytic enzyme, autocrine motility factor (AMF)/phosphoglucose isomerase (PGI) by immunohistochemical examination in surgically excised tumors. Although mean SUV1 for OS patients with metastatic lesions were similar to those in the completely disease-free (CDF) group (6.5 vs. 6.6, respectively, P = 0.975), mean SUV2 for OS with metastatic lesions were significantly higher than those in the CDF group (5.1 vs. 2.5, respectively, P = 0.0445). Interestingly, immunohistochemical analysis using anti-AMF/PGI antibody revealed that SUV2 correlated significantly with the AMF/PGI staining titers (P = 0.0303), while no correlation between SUV1 and the AMF/PGI staining titers existed (P = 0.964). The present study suggests that FDG PET after chemotherapy may provide information for AMF/PGI-related metastatic potentiality of residual tumors located out side of the area surgically resected afterward, and then lead to a useful prediction of the patients' prognosis.
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PMID:Prognostic significance of 18F-FDG uptake in primary osteosarcoma after but not before chemotherapy: a possible association with autocrine motility factor/phosphoglucose isomerase expression. 1830 93

Nitric Oxide (NO) releasing agents can serve as potent cytotoxic agents. However at present there are no effective ways to target delivery of NO donors like S-nitroso-N-acetyl-penicillamine (SNAP). SNAP conjugated to glucose (2-gluSNAP) can be readily transported across the membrane by GLUT 1 transporters. Therefore, sensitivity of cells to 2-gluSNAP may depend on glucose-transporter GLUT 1. We evaluated the cytotoxicity of SNAP and 2-gluSNAP on a GLUT 1 rich glioblastoma cell line T98G and GLUT 1 deficient osteoblastoma cell line 143B and its mitochondria-deficient variant rhoo (cell line 206). The cytotoxity of SNAP and 2-gluSNAP was assessed by clonogenic assay performed in the above cell lines in vitro. Immunoblotting and semi-quantitative real-time PCR assays were used to evaluate the expression of GLUT 1 transporter at protein and mRNA levels. The glioblastoma cell line T98G was more sensitive to 2-gluSNAP than unconjugated SNAP. SNAP and 2-gluSNAP affected the osteosarcoma cell lines 143B and rhoo poorly. Immunoblot analysis detected GLUT 1 protein in T98G cells and not in 143B or rhoo. There was about a 10-fold difference in GLUT 1 mRNA level in T98G cells compared to 143B and rhoo cell lines. This is consistent with our cytotoxicity studies and immunoblot analysis. Our results give credence to our hypothesis that the sensitivity to NO donors can be increased by glyco-conjugation and the cytotoxicity of the glyco-conjugated NO donors depends on the expression of GLUT 1 mRNA and protein.
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PMID:Differential expression of Glut 1 mRNA and protein levels correlates with increased sensitivity to the glyco-conjugated nitric oxide donor (2-glu-SNAP) in different tumor cell types. 1834 52


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