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Literature DB >> 32463358

Integrative analysis of large-scale loss-of-function screens identifies robust cancer-associated genetic interactions.

Christopher J Lord¹, Niall Quinn², Colm J Ryan².

Abstract

Genetic interactions, including synthetic lethal effects, can now be systematically identified in cancer cell lines using high-throughput genetic perturbation screens. Despite this advance, few genetic interactions have been reproduced across multiple studies and many appear highly context-specific. Here, by developing a new computational approach, we identified 220 robust driver-gene associated genetic interactions that can be reproduced across independent experiments and across non-overlapping cell line panels. Analysis of these interactions demonstrated that: (i) oncogene addiction effects are more robust than oncogene-related synthetic lethal effects; and (ii) robust genetic interactions are enriched among gene pairs whose protein products physically interact. Exploiting the latter observation, we used a protein-protein interaction network to identify robust synthetic lethal effects associated with passenger gene alterations and validated two new synthetic lethal effects. Our results suggest that protein-protein interaction networks can be used to prioritise therapeutic targets that will be more robust to tumour heterogeneity.

Entities: CellLine Chemical Disease Gene Species

Keywords: cancer; cancer biology; computational biology; genetic heterogeneity; genetic interactions; protein-protein interactions; synthetic lethality; systems biology

Mesh：

Year: 2020 PMID： 32463358 PMCID： PMC7289598 DOI： 10.7554/eLife.58925

Source DB: PubMed Journal: Elife ISSN： 2050-084X Impact factor: 8.140

73 in total

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