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Transcriptional effects of copy number alterations in a large set of human cancers

Arkajyoti Bhattacharya, Rico D. Bense, Carlos G. Urzúa-Traslaviña, Elisabeth G.E. de Vries, Marcel A.T.M. van Vugt, Rudolf S.N. Fehrmann

2020Nature Communications115 citationsDOIOpen Access PDF

Abstract

Copy number alterations (CNAs) can promote tumor progression by altering gene expression levels. Due to transcriptional adaptive mechanisms, however, CNAs do not always translate proportionally into altered expression levels. By reanalyzing >34,000 gene expression profiles, we reveal the degree of transcriptional adaptation to CNAs in a genome-wide fashion, which strongly associate with distinct biological processes. We then develop a platform-independent method-transcriptional adaptation to CNA profiling (TACNA profiling)-that extracts the transcriptional effects of CNAs from gene expression profiles without requiring paired CNA profiles. By applying TACNA profiling to >28,000 patient-derived tumor samples we define the landscape of transcriptional effects of CNAs. The utility of this landscape is demonstrated by the identification of four genes that are predicted to be involved in tumor immune evasion when transcriptionally affected by CNAs. In conclusion, we provide a novel tool to gain insight into how CNAs drive tumor behavior via altered expression levels.

Topics & Concepts

GeneGene expression profilingComputational biologyTranscriptional regulationBiologyCopy-number variationGene expressionRegulation of gene expressionGenomeHuman genomeGeneticsCancer Genomics and DiagnosticsGenomic variations and chromosomal abnormalitiesGenomics and Chromatin Dynamics
Transcriptional effects of copy number alterations in a large set of human cancers | Litcius