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)

The insulin-like growth factor-I receptor (IGF-IR) plays a critical role in transformation. The expression of the IGF-IR gene is negatively regulated by a number of transcription factors, including the WT1 and p53 tumor suppressors. Previous studies have suggested both physical and functional interactions between the WT1 and p53 proteins. The potential functional interactions between WT1 and p53 in control of IGF-IR promoter activity were addressed by transient coexpression of vectors encoding different isoforms of WT1, together with IGF-IR promoter-luciferase reporter constructs, in p53-null osteosarcoma-derived Saos-2 cells, wild-type p53-expressing kidney tumor-derived G401 cells, and mutant p53-expressing, rhabdomyosarcoma-derived RD cells. Similar studies were also performed to compare p53-expressing Balb/c-3T3 and clonally derived p53-null, (10)1 fibroblasts and the colorectal cancer cell line HCT116 +/+, which expresses a wild-type p53 gene, and its HCT116 -/- derivative, in which the p53 gene has been disrupted by homologous recombination. WT1 splice variants lacking a KTS insert between zinc fingers 3 and 4 suppressed IGF-IR promoter activity in the absence of p53 or in the presence of wild-type p53. WT1 variants that contain the KTS insert are impaired in their ability to bind to the IGF-IR promoter and are unable to suppress IGF-IR promoter. In the presence of mutant p53, WT1 cannot repress the IGF-IR promoter. Coimmunoprecipitation experiments showed that p53 and WT1 physically interact, whereas electrophoretic mobility shift assay studies revealed that p53 modulates the ability of WT1 to bind to the IGF-IR promoter. In summary, the transcriptional activity of WT1 proteins and their ability to function as tumor suppressors or oncogenes depends on the cellular status of p53.
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PMID:WT1-p53 interactions in insulin-like growth factor-I receptor gene regulation. 1244 79

Pre-therapeutic evaluation of p53 gene is very important for treating patients with head and neck cancer. However, the analysis for p53 gene has generally been done by immunohistochemistry, polymerase chain reaction (PCR)-single strand conformation polymorphism (SSCP) and direct sequencing. Functional analysis system for p53 transcriptional activity in mammalian cells is now required. We developed a functional analysis system for p53 transcriptional activity in cancer cells. We used two human head and neck cancer cell lines harboring mutated p53 gene, HSG (Asn30Ser) and TYS (Asp281His), and a human osteosarcoma cell line, Saos-2 as a control. We transfected these cells with luciferase reporter plasmids containing promoter sequence of p53 target genes (p21waf1, BAX, MDM2, p53AIP1 or PUMA). After treating the cells with chemotherapeutic drugs, alteration of the luciferase activity was measured. In HSG cells, none of the target gene promoters was activated by treatment with chemotherapeutic drugs. In TYS cells, p21waf1 promoter was markedly activated by treatment with chemotherapeutic drugs, but Bax and p53AIP1 promoter was not activated. This type of mutated-p53 in TYS cells prevents cell death from DNA damage, and probably accumulates genetic alterations and accelerates the malignant progression of the cells by DNA damaging therapy. Thus, analysis for the diverse function of mutated-p53 may help to determine the therapeutic strategy, especially for chemotherapy and radiation in the individual patients with head and neck cancer.
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PMID:Evaluation of the chemosensitivity of head and neck cancer cells based on the diverse function of mutated-p53. 1252 38

Statins such as simvastatin are 3-hydroxy-3-methylglutaryl-coenzyme A reductase inhibitors that inhibit cholesterol synthesis. We presently investigated statin effects on vascular endothelial growth factor (VEGF) expression in osteoblastic cells. Hydrophobic statins including simvastatin, atorvastatin, and cerivastatin-but not a hydrophilic statin, pravastatin-markedly increased VEGF mRNA abundance in nontransformed osteoblastic cells (MC3T3-E1). Simvastatin (10(-6) M) time-dependently augmented VEGF mRNA expression in MC3T3-E1 cells, mouse stromal cells (ST2), and rat osteosarcoma cells (UMR-106). According to heterogeneous nuclear RNA and Northern analyses, 10(-6) M simvastatin stimulated gene expression for VEGF in MC3T3-E1 cells without altering mRNA stability. Transcriptional activation of a VEGF promoter-luciferase construct (-1128 to +827), significantly increased by simvastatin administration. As demonstrated by gel mobility shift assay, simvastatin markedly enhanced the binding of hypoxia-responsive element-protein complexes. These results indicate that the stimulation of the VEGF gene by simvastatin in MC3T3-E1 cells is transcriptional in nature. VEGF secretion into medium was increased in MC3T3-E1 by 10(-6) M simvastatin. Pretreating MC3T3-E1 cells with mevalonate or geranylgeranyl pyrophosphate, a mevalonate metabolite, abolished simvastatin-induced VEGF mRNA expression; manumycin A, a protein prenylation inhibitor, mimicked statin effects on VEGF expression. The effect of simvastatin was blocked by pretreatment with wortmannin and LY294002, specific phosphatidylinositide-3 kinase inhibitors. Simvastatin enhanced mineralized nodule formation in culture, whereas coincubation with mevalonate, geranylgeranyl pyrophosphate, LY294002, or VEGF receptor 2 inhibitor (SU1498) abrogated statin-induced mineralization. Thus, statins stimulate VEGF expression in osteoblasts via reduced protein prenylation and the phosphatidylinositide-3 kinase pathway, promoting osteoblastic differentiation.
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PMID:Statins augment vascular endothelial growth factor expression in osteoblastic cells via inhibition of protein prenylation. 1253 31

The 230-kDa bullous pemphigoid antigen gene is expressed primarily, if not exclusively, in basal keratinocytes of the epidermis. Keratinocyte responsive element 3, a cis-element at position -216 to -197 of the human 230-kDa bullous pemphigoid antigen gene promoter, confers tissue-specific expression to this gene (Tamai et al: J Biol Chem 270:7609-7614, 1995). In this study, we investigated the functional characteristics of keratinocyte responsive element 3 on the 230-kDa bullous pemphigoid antigen gene core promoter by transient transfections of cultured normal human keratinocytes and normal human fibroblasts, as well as of lung carcinoma (A549), osteosarcoma (OST), and gastric adenocarcinoma (GT3TKB) cell lines. A 230-kDa bullous pemphigoid antigen gene core promoter/luciferase reporter gene plasmid construct, pBPL, was modified to develop a series of constructs (pKBPL-p4KBPL), which have insertions of one, two, three, or four tandem repeats of keratinocyte responsive element 3, and these plasmids were used in transient transfections of the cultured cells. The promoter activities of pKBPL-p4KBPL constructs, relative to pBPL, in normal human keratinocytes were 7.6-, 15.5-, 4.6-, and 2.7-fold higher, respectively, whereas no upregulatory effect by keratinocyte responsive element 3 insertion was observed in other cell lines tested. prKBPL, a plasmid constructed with keratinocyte responsive element 3 in reverse orientation, showed essentially no activity in normal human keratinocytes. Insertion of a random 20 bp sequence between keratinocyte responsive element 3 and the 230-kDa bullous pemphigoid antigen gene core promoter resulted in about 40% reduction of luciferase activity in normal human keratinocytes. These data suggest that keratinocyte responsive element 3 functions as a position-, copy number-, and orientation-dependent cis-element contributing to tissue-specific regulation of the 230-kDa bullous pemphigoid antigen gene.
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PMID:Keratinocyte responsive element 3: analysis of a keratinocyte-specific regulatory sequence in the 230-kDa bullous pemphigoid antigen gene promoter. 1254 37

The Cbfa1/Runx2 (referred to herein as Cbfa1) transcription factor has been shown to be essential for osteoblast differentiation and bone formation during embryogenesis. PTH given intermittently is a proven bone anabolic agent. Here, we investigated whether PTH regulates the expression and/or activity of Cbfa1 in osteoblastic cells and in a rat metatarsal organ culture assay. PTH was found to regulate Cbfa1 mRNA in the rat osteosarcoma cell line UMR106 in a concentration-dependent manner. The effect of PTH was mimicked by forskolin, an activator of adenylate cyclase leading to the protein kinase A pathway. PTH administered intermittently for 5 d in vivo was found to stimulate Cbfa1 protein in the rat proximal tibiae metaphysis. To demonstrate PTH regulation of Cbfa1 activity, a construct containing six tandem Cbfa1 binding elements fused to luciferase was shown to be rapidly stimulated in response to PTH. This stimulation preceded the effects on mRNA regulation and resulted from a protein kinase A-mediated increase in Cbfa1 activity. Finally, using a neonate rat metatarsal organ culture system, we demonstrated dose-dependent anabolic responsiveness to PTH and to Cbfa1 overexpression from an adenoviral construct. We further showed that Cbfa1 antisense oligonucleotides that blocked adenoviral Cbfa1-induced anabolic effects in this organ culture model also abolished the PTH-mediated anabolic increase. These findings suggest a requirement for Cbfa1 in mediating the anabolic effects of PTH. Thus, regulation of Cbfa1 expression or activity is an important mechanism by which PTH controls osteoblast function.
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PMID:Parathyroid hormone bone anabolic action requires Cbfa1/Runx2-dependent signaling. 1255 94

Hypoxia-inducible factor1 (HIF-1) is an essential transcription factor for cellular adaptation to decreased oxygen availability. In normoxia the oxygen-sensitive alpha-subunit of HIF-1 is hydroxylated on Pro564 and Pro402 and thus targeted for proteasomal degradation. Three human oxygen-dependent HIF-1 alpha prolyl hydroxylases (PHD1, PHD2, and PHD3) function as oxygen sensors in vivo. Furthermore, the asparagine hydroxylase FIH-1 (factor inhibiting HIF) has been found to hydroxylate Asp803 of the HIF-1 C-terminal transactivation domain, which results in the decreased ability of HIF-1 to bind to the transcriptional coactivator p300/CBP. We have fused these enzymes to the N-terminus of fluorescent proteins and transiently transfected the fusion proteins into human osteosarcoma cells (U2OS). Three-dimensional 2-photon confocal fluorescence microscopy showed that PHD1 was exclusively present in the nucleus, PHD2 and FIH-1 were mainly located in the cytoplasm and PHD3 was homogeneously distributed in cytoplasm and nucleus. Hypoxia did not influence the localisation of any enzyme under investigation. In contrast to FIH-1, each PHD inhibited nuclear HIF-1 alpha accumulation in hypoxia. All hydroxylases suppressed activation of a cotransfected hypoxia-responsive luciferase reporter gene. Endogenous PHD2mRNA and PHD3mRNA were hypoxia-inducible, whereas expression of PHD1mRNA and FIH-1mRNA was oxygen independent. We propose that PHDs and FIH-1 form an oxygen sensor cascade of distinct subcellular localisation.
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PMID:Intracellular localisation of human HIF-1 alpha hydroxylases: implications for oxygen sensing. 1261 73

Gene delivery using cationic liposomes results in relatively low transfection, especially under in vivo conditions. This system, however, can overcome some of the problems associated with viral delivery systems. The present study was carried out in order to improve the transfection efficiency of cationic liposomes by preparing magnetic cationic liposomes (MCL). Small MCL approximately 40 nm in diameter and incorporating one or two magnetite particles were prepared with phosphatidylethanolamine and 3beta-[N-(N', N'-dimethylaminoethane)-carbamoyl] cholesterol. The efficiency of MCL in gene delivery was evaluated by using plasmid DNA containing a luciferase reporter gene and human osteosarcoma Saos-2 cells. Without a magnetic field, maximum luciferase activity was observed when DNA was mixed with MCL at a 1:5 ratio and incubated with cells for 6 h. Under a magnetic field, maximum luciferase activity was achieved by 30-min magnetic induction. This improvement in transfection efficiency by magnetic induction was approximately 3.5-fold. The feasibility of this active transgenic system was further shown by measuring apoptosis rates after transfection of the p53 gene to Saos-2 cells. Apoptosis rates increased to 18.9% from 2.4% by magnetic induction. In conclusion, a gene delivery system including MCL and magnetic induction was found to achieve rapid and enhanced gene delivery in vitro. Such a gene delivery system may be applicable under in vivo conditions, and is expected to offer numerous clinical advantages.
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PMID:Targeted gene delivery to human osteosarcoma cells with magnetic cationic liposomes under a magnetic field. 1268 73

The Wilms' tumor gene Wt1 is unique among tumor suppressors because of its requirement for the development of certain organs. We recently described de novo expression of Wt1 in myocardial blood vessels of ischemic rat hearts. The purpose of this study was to analyze the mechanism(s) of hypoxic/ischemic induction of Wt1. We show here that Wt1 mRNA and protein is up-regulated in the heart and kidneys of rats exposed to normobaric hypoxia (8% O2). Ectopic Wt1 immunoreactivity was detected in renal tubules of hypoxic rats, which also expressed the antiapoptotic protein Bcl-2 and contained significantly fewer TUNEL-positive cells than in normoxic kidneys. Wt1 expression was enhanced in the osteosarcoma line U-2OS and in Reh lymphoblast cells that were grown either at 1% O2 or in the presence of CoCl2 and desferrioxamine, respectively. The promoter of the Wt1 gene was capable of mediating expression of a luciferase reporter in response to hypoxia. We identified a hypoxia-responsive element in the Wt1 sequence that bound to hypoxia-inducible factor-1 (HIF-1) and was required for activation of the Wt1 promoter by CoCl2 and HIF-1. These findings demonstrate that Wt1 expression can be stimulated by hypoxia, which involves activation of the Wt1 promoter by HIF-1.
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PMID:Oxygen-regulated expression of the Wilms' tumor suppressor Wt1 involves hypoxia-inducible factor-1 (HIF-1). 1273 1

Bone sialoprotein (BSP), an early marker of osteoblast differentiation, has been implicated in the nucleation of hydroxyapatite during de novo bone formation. Basic fibroblast growth factor (FGF2) is recognized as a potent mitogen for a variety of mesenchymal cells. In skeletal tissues, FGF2 produced by osteoblasts accumulates in the bone matrix and acts as an autocrine/paracrine regulator of bone cells. To determine the molecular mechanism of FGF2 regulation of osteogenesis, we have analyzed the effects of FGF2 on the expression of BSP in the rat osteosarcoma cell line ROS 17/2.8. FGF2 at 10 ng/ml, increased BSP mRNA levels approximately 4-fold; the stimulation was first evident at 3 hr, reached maximal levels at 6 hr. The stability of the BSP mRNA was not significantly affected by FGF2, suggesting that the increased mRNA was due to increased transcription. From transient transfection analyses using various BSP promoter-luciferase constructs, a FGF2 response element (FRE) (nts -92 to -85, "GGTGAGAA") was identified as a target of transcriptional activation by FGF2. Ligation of two copies of the FRE 5' to an SV40 promoter was sufficient to confer FGF responsive transcription. A sequence-specific protein-DNA complex, formed with a double-stranded oligonucleotide encompassing the FRE and nuclear extracts from ROS 17/2.8 cells, but not from fibroblasts, was increased following FGF2 stimulation. Several point mutations within the critical FRE sequence abrogated the formation of this complex and suppressed both basal and FGF2-mediated promoter activity. Thus, we have identified a novel FRE within the proximal promoter of the BSP gene that mediates both constitutive and FGF2-induced BSP transcription.
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PMID:Identification of FGF2-response element in the rat bone sialoprotein gene promoter. 1295 82

The initial event by which M-tropic HIV strains gain access to cells is via interaction of the viral envelope protein gp120 with the host cell CCR5 coreceptor and CD4. Inhibition of this event reduces viral fusion and entry into cells in vitro. The authors have employed BacMam baculovirus-mediated gene transduction to develop a cell/cell fusion assay that mimics the HIV viral/cell fusion process and allows high-throughput quantification of this fusion event. The assay design uses human osteosarcoma (HOS) cells stably transfected with cDNAs expressing CCR5, CD4, and long terminal repeat (LTR)-luciferase as the recipient host cell. An HEK-293 cell line transduced with BacMam viral constructs to express the viral proteins gp120, gp41, tat, and rev represents the virus. Interaction of gp120 with CCR5/CD4 results in the fusion of the 2 cells and transfer of tat to the HOS cell cytosol; tat, in turn, binds to the LTR region on the luciferase reporter and activates transcription, resulting in an increase in cellular luciferase activity. In conclusion, the cell/cell fusion assay developed has been demonstrated to be a robust and reproducible high-throughput surrogate assay that can be used to assess the effects of compounds on gp120/CCR5/CD4-mediated viral fusion into host cells.
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PMID:Development of a novel high-throughput surrogate assay to measure HIV envelope/CCR5/CD4-mediated viral/cell fusion using BacMam baculovirus technology. 1456 99


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