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Distinct and Common Features of Numerical and Structural Chromosomal Instability across Different Cancer Types

Xiaoxiao Zhang, Maik Kschischo

2022Cancers19 citationsDOIOpen Access PDF

Abstract

A large proportion of tumours is characterised by numerical or structural chromosomal instability (CIN), defined as an increased rate of gaining or losing whole chromosomes (W-CIN) or of accumulating structural aberrations (S-CIN). Both W-CIN and S-CIN are associated with tumourigenesis, cancer progression, treatment resistance and clinical outcome. Although W-CIN and S-CIN can co-occur, they are initiated by different molecular events. By analysing tumour genomic data from 33 cancer types, we show that the majority of tumours with high levels of W-CIN underwent whole genome doubling, whereas S-CIN levels are strongly associated with homologous recombination deficiency. Both CIN phenotypes are prognostic in several cancer types. Most drugs are less efficient in high-CIN cell lines, but we also report compounds and drugs which should be investigated as targets for W-CIN or S-CIN. By analysing associations between CIN and bio-molecular entities with pathway and gene expression levels, we complement gene signatures of CIN and report that the drug resistance gene CKS1B is strongly associated with S-CIN. Finally, we propose a potential copy number-dependent mechanism to activate the PI3K pathway in high-S-CIN tumours.

Topics & Concepts

Chromosome instabilityCancerGeneGenome instabilityGene dosageCancer researchPhenotypeBiologyDrug resistanceHomologous recombinationGeneticsGene expressionDNAChromosomeDNA damageDNA Repair MechanismsCancer Genomics and DiagnosticsRNA modifications and cancer
Distinct and Common Features of Numerical and Structural Chromosomal Instability across Different Cancer Types | Litcius