Project description:Genome and transcriptome analysis of lung cancer cell lines

Project description:Microarray analysis of lung cancer cell lines

Project description:Expression data from lung cancer cell lines

Project description:Unbiased genomic analysis of murine lung cancer cell lines

Project description:RNAseq analysis of small cell lung cancer (SCLC) cell lines

Project description:Non-small cell lung cancer (NSCLC) cell lines are widely used model systems to study molecular aspects of lung cancer. Comparative and in-depth proteome expression data across many NSCLC cell lines has not been generated yet, but would be of utility for the investigation of candidate targets and markers in oncogenesis. We employed a SILAC reference approach to perform replicate proteome quantifications across 23 distinct NSCLC cell lines. On average, close to 4000 distinct proteins were identified and quantified per cell line. These included many known targets and diagnostic markers, indicating that our proteome expression data represents a useful resource for NSCLC pre-clinical research. To assess proteome diversity within the NSCLC cell line panel, we performed hierarchical clustering and principal component analysis of proteome expression data. Our results indicate that general proteome diversity among NSCLC cell lines supersedes potential effects common to K-Ras or epidermal growth factor receptor (EGFR) oncoprotein expression. However, we observed partial segregation of EGFR or KRAS mutant cell lines for certain principal components, which reflected biological differences according to gene ontology enrichment analyses. Moreover, statistical analysis revealed several proteins that were significantly overexpressed in KRAS or EGFR mutant cell lines. Biological significance Despite enormous progress in molecular characterization and targeted therapy NSCLC represents a major cause for cancer-related deaths. While pre-clinical models such as NSCLC cell lines have been studied on the genomic and transcriptional level, proteome composition is poorly characterized. We conducted quantitative profiling across 23 NSCLC cell lines and studied global proteome diversity in relation to the presence of oncogenic KRAS or EGFR mutations. Notably, in-depth bioinformatics analysis pointed to prominent biological processes as well as up-regulated proteins in KRAS and EGFR mutant cells, highlighting the utility of cancer cell proteomics to identify target or biomarker candidates in the context of specific oncogenic mechanisms.

Project description:Long-read transcriptome profiling of human lung cancer cell lines

Project description:microRNA Expression data from Lung cancer cell lines

Project description:Genome-wide DNA-methylation profiles of human lung cancer cell lines and normal lung cells were generated by Infinium bead chip technology DNA methylation patterns of over 480,000 CpG sites were analyzed in normal human bronchial epithelial cells (NHBEC) and three non small cell lung cancer cell lines (NSCLC: A427, A549 and H322) using bisulfite-based Illumina 450K BeadChip arrays

Project description:Gene expression and Comparative genomic hybridization (CGH) microarrays performed in a set of 8 Lung cancer Cell lines. The search for oncogenes is becoming increasingly important in cancer genetics because they constitute suitable targets for therapeutic intervention. To identify novel oncogenes, activated by gene amplification, we performed high-resolution CGH (Comparative Genome Hybridization) analysis on cDNA microarrays and compared DNA copy number and mRNA expression levels in lung cancer cell lines. We have performed both microarrays (expression and CGH) in a set of 8 human lung cancer cell lines: Calu3, H23, H441, A427, H522, A549, H1299, H2126.