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Comprehensive analysis of structural genomic alterations in cancer

Författare Babak Alaei-Mahabadi
ISBN 978-91-629-0423-4 (PDF)
Publiceringsår 2018
Publicerad vid Institutionen för biomedicin
Språk en
Länkar hdl.handle.net/2077/54530
Ämnesord Somatic structural variations, viral integrations, gene fusions, somatic genomic alterations
Ämneskategorier Medicinsk cellbiologi


The transformation of a normal cell into a cancer cell involves the accumulation of somatic DNA alterations that confer growth and survival advantages. These genomic alterations can be different in terms of pattern and size, comprising single nucleotide variants (SNVs), small insertions or deletions (indels), structural variations (SVs) or foreign DNA insertions such as viral DNA. Cancer genomes typically harbor numerous such changes, of which only small fractions are driver events that are positively selected for during the evolution of the tumor. High throughput sequencing has enabled systematic mapping of somatic DNA alterations across thousands of tumor genomes. Mutations in particular have been thoroughly explored in this type of data, and this has implicated many new genes in tumor development. However, our knowledge remains more limited when it comes to the contribution of SVs to cancer. In the present thesis, we made use of publicly available cancer genomics data to gain further insight into the role of structural genomic alterations in tumor development. Viruses cause 10-15% of all human cancers through multiple mechanisms, one of which is structural genomic changes due to viral DNA being integrated into the human genome. Thus, in the first study, we performed an unbiased screen for viral genomic integrations into cancer genomes. We developed a computational pipeline using RNA-Seq data from ~4500 tumors across 19 different cancer types to detect viral integrations. We found that recurrent events typically involved known cancer genes, and were associated with altered gene expression. SVs can lead to copy number amplification of specific cancer driver genes, as well as the formation of fusion oncogenes, but their importance in cancer beyond these types of events is underexplored. We mapped SVs to the human genome using whole genome sequencing data from 600 tumors across 18 different cancer types and investigated the global relationship between SVs and mRNA changes. We found that such events often contribute to altered gene expression in human tumors, but we were not able to detect novel recurrent driver events. To increase the cohort size, we used a larger but lower resolution and more limited dataset, comprising of microarray based DNA copy number profiles from ~10,000 tumors across 32 cancer types, with the aim of identifying recurrent SV driver events in tumors. Specifically, we investigated SVs predicted to result in promoter substitution events, a known mechanism for gene activation in cancer, and found several recurrent activating events with potential cancer driver roles. Notable among our findings in all the studies were human papillomavirus integrations in RAD51B and ERBB2 and gene fusions involving NFE2L2, TIAM2 and SCARB1, all being known cancer genes. Taken together, massive amounts of genomic and transcriptomic sequencing data allowed us to comprehensively map viral integrations and structural variations in cancer, which led to the identification of several genes with potential roles in tumor development.

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