Project description:Oxaliplatin resistance frequently leads to therapeutic failure in colorectal cancer (CRC). Increasing evidence has shown that noncoding RNAs (ncRNAs) play pivotal roles in chemoresistance of CRC. However, the roles and mechanisms of ncRNAs in oxaliplatin resistance are not well understood. In this study, to identify the ncRNAs induced by oxaliplatin, we profile the expression of ncRNAs in oxaliplatin-resistant HCT116 CRC cells (HCT116oxR) and parental HCT116 cells using next-generation sequencing technology.

Project description:Gene expression between DLD1 and DLD1 derived oxaliplatin resistant clones (DLD/OHP1, DLD/OHP4, and DLD/OHP5) was assessed Gene expression between HCT116 and HCT116 derived oxaliplatin resistant clones (HCT/OHP1, HCT/OHP3, and HCT/OHP5) was assessed

Project description:Oxaliplatin resistance was induced in 2 colorectal cancer cell lines (LoVo-92, wt-p53 and LoVo-Li, functionally inactive p53) and one ovarian cancer cell line (A2780, wt-p53). Resistance was induced by weekly exposure to oxaliplatin for 4 hrs or 72 hrs with increasing concentrations for a period of 7 months Genomic DNA of oxaliplatin and cisplatin resistant colorectal cancer and ovarian cancer cell lines as well as the parental cell lines were labeled and subsequently hybridized against pooled reference DNA of healthy volunteers of the opposite gender using across array hybridization. Extracted raw-data were normalised and smoothend using the R-script NOWAVE resulting in normalised log2 ratio profiles of resistant cell line versus parental cell line and parental cell line versus reference DNA.

Project description:HCT116 parental, HCT116 5-FU resistant and HCT116 oxaliplatin resistant cells have been transiently treated with with their respective drug (5-FU or oxaliplatin) for 0, 6 12 or 24h in 3 independent experiments.

Project description:To explore the mechanisms associated with oxaliplatin resistance, we compared gene expression in xenograft tumors derived from human colorectal cancer tumor cells HCT116 and its oxaliplatin resistant clones (HCT/OHP1 and HCT/OHP5).

Project description:Aim: mRNA profile of HCT116 human colon cancer cells to study the early response of cells to oxaliplatin exposure at low doses (0.5µM) Results: After treatment with oxaliplatin for 24h at 0.5µM, only a very small fraction of genes were mis-regulated. They fall mainly include P53-response genes, genes regulating inflammation, or genes regulating cytoskeleton.

Project description:cDNA microarray study of unirradiated X-radiation (XR) resistant HCT116-Clone2 cells versus unirradiated HCT116-Clone10 cells. HCT116-Clone10 cells have similar XR response with parental HCT116 cells. Keywords: repeat sample

Project description:cDNA microarray study of unirradiated X-radiation (XR) sensitive HCT116-CloneK cells versus unirradiated HCT116-Clone10 cells. HCT116-Clone10 cells have similar XR response with parental HCT116 cells. Keywords = X-radiation (XR), XR sensitive, colorectal cancer cells, HCT1116 Keywords: repeat sample

Project description:HCT116 cells were treated with with increasing concentrations of trametinib over 2 months. Drug-resistant clones emerged and were cultured in the presence of 30 nmol/L trametinib. These cells exhibited a greater than 10-fold increase in the GI50 for trametinib compared to the parental cell line. RNA-seq of the resistant clone HCT116_R4 versus the parental cells identified differentially expressed genes potentially involved in resistance.

Project description:RNA-Seq of Oxaliplatin-treated HCT116 human colon cancer cells