Molecular karyotyping and gene expression analysis in childhood cancer patients

AbstractThe genetic etiology of sporadic childhood cancer cases remains unclear. We recruited a cohort of 20 patients who survived a childhood malignancy and then developed a second primary cancer (2N), and 20 carefully matched patients who survived a childhood cancer without developing a second malignancy (1N). Twenty matched cancer-free (0N) and additional 1000 (0N) GHS participants served as controls. Aiming to identify new candidate loci for cancer predisposition, we compared the genome-wide DNA copy number variations (CNV) with the RNA-expression data obtained after in vitro irradiation of primary fibroblasts. In 2N patients, we detected a total of 142 genes affected by CNV. A total of 53 genes of these were not altered in controls. Six genes (POLR3F,SEC23B,ZNF133,C16orf45,RRN3, andNTAN1) that we found to be overexpressed after irradiation were also duplicated in the genome of the 2N patients. For the 1N collective, 185 genes were affected by CNV and 38 of these genes were not altered in controls. Five genes (ZCWPW2,SYNCRIP,DHX30,DHRS4L2, andTHSD1) were located in duplicated genomic regions and exhibited altered RNA expression after irradiation. One gene (ABCC6) was partially duplicated in one 1N and one 2N patient. Analysis of methylation levels ofTHSD1 andGSTT2 genes which were detected in duplicated regions and are frequently aberrantly methylated in cancer showed no changes in patient ’s fibroblasts. In summary, we describe rare and radiation-sensitive genes affect...
Source: Journal of Molecular Medicine - Category: Molecular Biology Source Type: research