Project description:Human glioma cell line Raw sequence reads

Project description:Knockdown of Sox2 in LN229 gliomal cancer cells decrease their growth rates in vitro. We used microarrays to detail the global programme of gene expression in Sox2 Knockdown LN229 cells compared with mock knockdown LN229 cells Sox2 knockdown LN229 cells and and mock knockdown LN229 cells were cultured in DMEM cell culture media for RNA extraction and hybridization on Applied Biosystems Human Genome Survey Microarrays . We sought to obtain the genes regulated by Sox2 in glioma cell line.

Project description:BackgroundEnvironment inside even a small tumor is characterized by total (anoxia) or partial oxygen deprivation, (hypoxia). It has been shown that radiotherapy and some conventional chemotherapies may be less effective in hypoxia, and therefore it is important to investigate how different drugs act in different microenvironments. In this study we perform a large screening of the effects of 19 clinically used or experimental chemotherapeutic drugs on five different cell lines in conditions of normoxia, hypoxia and anoxia.MethodsA panel of 19 commercially available drugs: 5-fluorouracil, acriflavine, bortezomib, cisplatin, digitoxin, digoxin, docetaxel, doxorubicin, etoposide, gemcitabine, irinotecan, melphalan, mitomycin c, rapamycin, sorafenib, thalidomide, tirapazamine, topotecan and vincristine were tested for cytotoxic activity on the cancer cell lines A2780 (ovarian), ACHN (renal), MCF-7 (breast), H69 (SCLC) and U-937 (lymphoma). Parallel aliquots of the cells were grown at different oxygen pressures and after 72 hours of drug exposure viability was measured with the fluorometric microculture cytotoxicity assay (FMCA).ResultsSorafenib, irinotecan and docetaxel were in general more effective in an oxygenated environment, while cisplatin, mitomycin c and tirapazamine were more effective in a low oxygen environment. Surprisingly, hypoxia in H69 and MCF-7 cells mostly rendered higher drug sensitivity. In contrast ACHN appeared more sensitive to hypoxia, giving slower proliferating cells, and consequently, was more resistant to most drugs.ConclusionsA panel of standard cytotoxic agents was tested against five different human cancer cell lines cultivated at normoxic, hypoxic and anoxic conditions. Results show that impaired chemosensitivity is not universal, in contrast different cell lines behave different and some drugs appear even less effective in normoxia than hypoxia.

Project description:The goal of this study was to investigate the regulatory events underlying post-transcriptional changes in gene expression, and more specifically in mRNA stability, in cancer. We observed that the stability of RBFOX1 targets was decreased in glioblastoma and, given that RBFOX1 is known to stabilize its targets mRNAs, we hypothesized that RBFOX1 down-regulation is responsible at least in part for alterations in the glioblastoma transcriptome. We overexpressed RBFOX1 in the A172 human glioblastoma cell line and performed RNA-sequencing on extracted RNA. We computed differential gene expression in the cell line overexpressing RBFOX1, compared to the control samples. We confirmed that RBFOX1 overexpression leads to an upregulation of the RBFOX1 regulon, including the majority of RBFOX1 targets that are destabilized in tumors. The results suggest that RBFOX1 downregulation in glioblastoma leads to the destabilization of its targets, which can be partially rescused through overexpression of RBFOX1.

Project description:Glioma, as the most common and lethal intracranial tumor, is a serious disease that causes many deaths every year. Good comprehension of the mechanism underlying this disease is very helpful to design effective treatments. However, up to now, the knowledge of this disease is still limited. It is an important step to understand the mechanism underlying this disease by uncovering its related genes. In this study, a graphic method was proposed to identify novel glioma related genes based on known glioma related genes. A weighted graph was constructed according to the protein-protein interaction information retrieved from STRING and the well-known shortest path algorithm was employed to discover novel genes. The following analysis suggests that some of them are related to the biological process of glioma, proving that our method was effective in identifying novel glioma related genes. We hope that the proposed method would be applied to study other diseases and provide useful information to medical workers, thereby designing effective treatments of different diseases.

Project description:Panc-1GLI1ER and Panc-1ER were established from human pancreatic cancer cell line Panc-1. Panc-1GLI1ER cells express a chimeric transgene composed of an enhanced green fluorescent protein (EGFP)-tagged version of the amino-terminal half of GLI1, fused to the AF2 domain of the mouse estrogen receptor 1(Esr1) cDNA. On the other hand, Panc-1ER harbor only EGFP-tagged AF2 domain. To identify GLI1 direct target genes, total RNAs were purified from the cells before and 3 hours after the beta-estradiol (E2) treatment. Gene expression profiles were analyzed by AGILENT human 4x44 cDNA microarray. Keywords: Expression profiling by genome tiling array GLI1 direct target genes were identified in Panc-1 cells. Gene expression profiles of Panc-1GLI1ER and Panc-1ER cells were analyzed by AGILENT human 4x44 cDNA microarray before and 3 hours after treatment of beta-estradiol (E2) at doses of 10nM.

Project description:Pituitary adenoma tissues are hypovascular, and have a lower partial oxygen pressure compared with neighboring normal organs. In this study, we investigated whether hypoxia influences the cell invasiveness of the human pituitary adenoma cell line, HP-75. HP-75 cells were exposed to hypoxic (1-10% oxygen) or normoxic (21% oxygen) conditions for 24 hours. Gelatin and reverse zymogram assays were used to determine the enzyme activities of matrix metalloproteinases (MMP) and tissue inhibitor of metalloproteinases (TIMP). Cell adhesion and Matrigel cell invasion were examined with a Boiden chamber. Finally, the mRNA gene expression profiles of cells exposed to hypoxia or normoxia were examined by cDNA microarray and confirmed with real-time RT-PCR and flow cytometry. The gelatin and reverse zymograms revealed that the activities of MMP and TIMP were not significantly altered by hypoxia. Matrigel cell invasion and cell adhesion to Matrigel or collagen type IV were increased by hypoxia (3.8- and 4.8-fold, respectively). The cDNA microarray analysis revealed that laminin beta2 chain mRNA was specifically up-regulated under hypoxic conditions (4.96-fold). Finally, real-time RT-PCR and flow cytometry verified the elevated expression of laminin beta2 chain at the mRNA and protein levels under hypoxic conditions. RNA interference with siRNA targeting laminin beta2 inhibited Matrigel invasion and adhesion to collagen type IV in a dose-dependent manner. Collectively, these results suggested that hypoxia (1% oxygen) enhanced the cell invasion properties of a pituitary adenoma cell line in association with elevated expression of laminin beta2 and enhanced binding to collagen type IV.

Project description:BackgroundNerve growth factor (NGF) is a potent growth factor that plays a key role in neuronal cell differentiation and may also play a role in hematopoietic differentiation. It has been shown that NGF induced synergistic action for the colony formation of CD34 positive hematopoietic progenitor cells treated with macrophage-colony stimulating factor (M-CSF or CSF-1), or stem cell factor (SCF). However, the exact role of NGF in hematopoietic system is unclear. It is also not clear whether NGF mediated signals in hematopoietic cells are identical to those in neuronal cells.ResultsTo study the signal transduction pathways induced by NGF treatment in hematopoietic cells, we utilized the mastocytoma cell line HMC-1(V560G c-Kit) which expresses the NGF receptor, tropomyosin-receptor-kinase (Trk)A, as well as the constitutively activated SCF receptor, V560G c-Kit, which can be inhibited completely by treatment with the potent tyrosine kinase inhibitor imatinib mesylate (imatinib). NGF rescues HMC-1(V560G c-Kit) cells from imatinib mediated cell death and promotes proliferation. To examine the NGF mediated proliferation and survival in these cells, we compared the NGF mediated upregulated genes (30 and 120 min after stimulation) to the downregulated genes by imatinib treatment (downregulation of c-Kit activity for 4 h) by transcriptome analysis. The following conclusions can be drawn from the microarray data: Firstly, gene expression profiling reveals 50% overlap of genes induced by NGF-TrkA with genes expressed downstream of V560G c-Kit. Secondly, NGF treatment does not enhance expression of genes involved in immune related functions that were down regulated by imatinib treatment. Thirdly, more than 55% of common upregulated genes are involved in cell proliferation and survival. Fourthly, we found Kruppel-like factor (KLF) 2 and Smad family member 7 (SMAD7) as the NGF mediated novel downstream genes in hematopoietic cells. Finally, the downregulation of KLF2 gene enhanced imatinib induced apoptosis.ConclusionNGF does not induce genes which are involved in immune related functions, but induces proliferation and survival signals in HMC-1(V560G c-Kit) cells. Furthermore, the current data provide novel candidate genes, KLF2 and SMAD7 which are induced by NGF/TrkA activation in hematopoietic cells. Since the depletion of KLF2 causes enhanced apoptosis of HMC-1(V560G c-Kit), KLF2 may play a role in the NGF mediated survival signal.

Project description:A mixed-oligonucleotide probe was used to identify four ras-like coding sequences in a human teratocarcinoma cDNA library. Two of these sequences resembled the rho genes, one was closely related to H-, K-, and N-ras, and one shared only the four sequence domains that define the ras gene superfamily. Homologs of the four genes were found in genomic DNA from a variety of mammals and from chicken. The genes were transcriptionally active in a range of human cell types.

Project description:RBFOX1 overexpression in the human glioblastoma cell line A172