Project description:Copy number profiling of 36 ovarian tumors on Affymetrix 100K SNP arrays Thirty-six ovarian tumors were profiled for copy-number alterations with the Affymetrix 100K Mapping Array. Copy number profiling of 36 ovarian tumors on Affymetrix 500K SNP arrays Sixteen ovary tumors were profiled for copy-number alterations with the high-resolution Affymetrix 500K Mapping Array. Affymetrix 100K Mapping Array intensity signal CEL files were processed by dChip 2005 (Build date Nov 30, 2005) using the PM/MM difference model and invariant set normalization. Each probe set was mapped to the genome, NCBI assembly version 36, using annotation provided by the Affymetrix web site. The log2 ratios were centered to a median of zero and segmented using the GLAD package for the R statistical environment. Copy number was calculated as power(2,log2ratio + 1). Affymetrix 500K Mapping Array intensity signal CEL files were processed by dChip 2005 (Build date Nov 30, 2005) using the PM/MM difference model and invariant set normalization. Forty-eight normal samples were downloaded from the Affymetrix website (http://www.affymetrix.com/support/technical/byproduct.affx?product=500k) and analyzed at the same time. One CEL file for each set (Sty and Nsp) with the median signal intensity across the set was selected as the reference array. The dChip-normalized signal intensities were converted to log2 ratios and segmented as follows. For each autosomal probe set, the log2 tumor/normal ratio of each tumor sample was calculated using the average intensity for each probe set in the normal set. For Chromosome X, the average of the 20 normal female samples was used. Each probe set was mapped to the genome, NCBI assembly version 36, using annotation provided by the Affymetrix web site. The log2 ratios were centered to a median of zero and segmented using the GLAD package for the R statistical environment. Copy number was calculated as power(2,log2ratio + 1).

Project description:Frequent mutations in the regulatory p85a subunit (PIK3R1 gene) were identified in colon cancer and shown to promote cell survival, Akt activation, anchorage independent cell growth and oncogenesis. A number of tumor samples including colon, breast, NSCLC and gastric were also profiled for co-occurrence of chromosomal copy number changes including gene amplifications in PI3K pathway on Affymterix 100K SNP arrays. Experiment Overall Design: Analysis of copy number changes in several different tumor types

Project description:Frozen, whole tissue was dissociated and sorted into to tumor and stromal fractions via FACS Keywords: Mapping Array Profiling of tumor and stromal fractions from whole tissue

Project description:Copy number profiling of 92 human lung tumors on Affymetrix 100K SNP arrays was conducted in order to assess the interaction of common genomic alterations with response to targeted anti-cancer therapeutics. Class 1 phosphatidylinositol 3' kinase (PI3K) plays a major role in cell proliferation and survival in a wide variety of human cancers. Here we investigate biomarker strategies for PI3K pathway inhibitors in non-small-cell lung cancer (NSCLC). Molecular profiling of NSCLC tumor samples showed that copy number gains in PIK3CA and total loss of PTEN protein were common in squamous cell carcinoma samples, whereas LKB1 loss and mutations in KRAS and EGFR were common in adenocarcinomas. A panel of NSCLC cell lines characterized for alterations in the PI3K pathway was screened with PI3K and dual PI3K/mTOR inhibitors to assess the preclinical predictive value of candidate biomarkers. Cell lines harboring pathway alterations (RTK activation, PI3K mutation or amplification, PTEN loss) were exquisitely sensitive to the PI3K inhibitor GDC-0941. A dual PI3K/mTOR inhibitor had broader activity across the cell line panel and in tumor xenografts. The combination of GDC-0941 with paclitaxel, erlotinib, or a MEK inhibitor had greater effects on cell viability than PI3K inhibition alone. CONCLUSIONS: Candidate biomarkers for PI3K inhibitors have predictive value in preclinical models and show histology-specific alterations in primary tumors, suggesting that distinct biomarker strategies may be required in squamous compared with non-squamous NSCLC patient populations.

Project description:Hepatocellular carcinoma tumor samples were profiled for chromsomal copy number changes on Affymterix 100K SNP arrays Analysis of copy number changes in Hepatocellular Carcinoma

Project description:Fresh frozen Melanoma patient samples were profiled on Affymetrix GeneChip Mapping 100K Set Arrays Profiling of 36 melanoma tumors

Project description:373 tumors were profiled for copy-number alterations with the high-resolution Agilent 244A aCGH Array. Tumor samples were assayed on Agilent Human Genome CGH 244A Microarrays with the intent of surveying the landscape of genomic alterations in 5 tumor types. Human male genomic DNA (Promega P/N G1471) was used as reference. Individual log2 ratios of background subtracted signal intensities were obtained from the Agilent Feature Extraction software version 9.5. The log2 ratios were centered to a median of zero and the resulting log2 ratio values for each probe were segmented using GLAD. All probes within the genomic bounds of a given GLAD-derived segment were given the mean copy number value of probes within that segment.

Project description:1 lung tumor was profiled for copy-number alterations with the high-resolution Agilent 244A aCGH Array. One lung tumor sample were assayed on the Agilent Human Genome CGH 244A Microarrays with the intent of comparing the genomic alterations reported by the array platform with those reported by high-thoughput sequencing. Human male genomic DNA (Promega P/N G1471) was used as reference. Individual log2 ratios of background subtracted signal intensities were obtained from the Agilent Feature Extraction software version 9.5. The log2 ratios were centered to a median of zero and the resulting log2 ratio values for each probe were segmented using GLAD. All probes within the genomic bounds of a given GLAD-derived segment were given the mean copy number value of probes within that segment.

Project description:Anaemia negatively affects the prognosis of patients with head and neck squamous cell carcinoma (HNSCC). This study investigates whether anaemia is associated to genetic changes and whether these changes predict the clinical outcome.

Project description:Metastatic urothelial carcinoma (UC) of the bladder is associated with multiple somatic copy number alterations (SCNAs). We evaluated SCNAs to identify predictors of poor survival in patients with metastatic UC treated with platinum chemotherapy. We obtained overall survival (OS) and DNA copy number data from UC patients in a Spanish discovery cohort and three validation cohorts. GISTIC was used to identify altered regions, and associations between copy number gains/losses and OS were determined by a Cox proportional hazard model adjusting for performance status and visceral disease The output files of the GISTIC 2.0 software are linked as supplementary files on Series record along with readme.txt file describing the contents of each file/column.