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Most cancers carry a substantial deleterious load due to Hill-Robertson interference

Susanne Tilk, Svyatoslav Tkachenko, Christina Curtis, Dmitri A. Petrov, Christopher D. McFarland

2022eLife32 citationsDOIOpen Access PDF

Abstract

Cancer genomes exhibit surprisingly weak signatures of negative selection (Martincorena et al., 2017; Weghorn, 2017). This may be because selective pressures are relaxed or because genome-wide linkage prevents deleterious mutations from being removed (Hill-Robertson interference; Hill and Robertson, 1966). By stratifying tumors by their genome-wide mutational burden, we observe negative selection ( dN / dS ~ 0.56) in low mutational burden tumors, while remaining cancers exhibit dN / dS ratios ~1. This suggests that most tumors do not remove deleterious passengers. To buffer against deleterious passengers, tumors upregulate heat shock pathways as their mutational burden increases. Finally, evolutionary modeling finds that Hill-Robertson interference alone can reproduce patterns of attenuated selection and estimates the total fitness cost of passengers to be 46% per cell on average. Collectively, our findings suggest that the lack of observed negative selection in most tumors is not due to relaxed selective pressures, but rather the inability of selection to remove deleterious mutations in the presence of genome-wide linkage.

Topics & Concepts

GenomeBiologySelection (genetic algorithm)Negative selectionGeneticsLinkage (software)MutationMutation AccumulationCancerComputational biologyEvolutionary biologyGeneComputer scienceArtificial intelligenceEvolution and Genetic DynamicsCancer Genomics and DiagnosticsGenetic Associations and Epidemiology
Most cancers carry a substantial deleterious load due to Hill-Robertson interference | Litcius