Review
doi: 10.1016/j.gde.2019.03.002.
Epub 2019 Apr 8.
Genetic interaction networks in cancer cells
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- PMID: 30974317
- PMCID: PMC6820710
- DOI: 10.1016/j.gde.2019.03.002
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Review
Genetic interaction networks in cancer cells
Curr Opin Genet Dev.
2019 Feb.
Abstract
The genotype-to-phenotype relationship in health and disease is complex and influenced by both an individual's environment and their unique genome. Personal genetic variants can modulate gene function to generate a phenotype either through a single gene effect or through genetic interactions involving two or more genes. The relevance of genetic interactions to disease phenotypes has been particularly clear in cancer research, where an extreme genetic interaction, synthetic lethality, has been exploited as a therapeutic strategy. The obvious benefits of unmasking genetic background-specific vulnerabilities, coupled with the power of systematic genome editing, have fueled efforts to translate genetic interaction mapping from model organisms to human cells. Here, we review recent developments in genetic interaction mapping, with a focus on CRISPR-based genome editing technologies and cancer.
Copyright © 2019 Elsevier Ltd. All rights reserved.
Figures
(A) Schematic illustration of genetic interactions as measured by single mutant and double mutant fitness. Negative genetic interactions result in lower double mutant fitness than expected (synthetic sick, synthetic lethal), positive genetic interactions in greater fitness than expected (masking or suppressive). (B) Global pairwise genetic interaction network in yeast reveals functional clustering of genes with similar genetic interaction profiles and allows annotation of uncharacterized genes. (C) Expansion of the yeast functional genomics landscape by conditional and trigenic interactions. (D) CRISPR-mediated genetic interaction screens in mammalian cells. Top, gRNA representation in a cell line harbouring a cancer mutation is compared to a wild type cell line to identify synthetic lethal or suppressive interactions. Second, a limited number of defined mutants are generated in an isogenic cell line background and subjected to genome-scale CRISPR screening. Clustering by genetic interaction profile similarity reveals functional information. Third, instead of isogenic mutants, patient-derived cancer cell lines are used. In addition to CRISPR screening, genomic profiling is required to infer the “single mutant state” in those cell lines. Bottom, Direct assessment of pairwise genetic interactions between a limited set of genes by simultaneous delivery of two gRNAs into the same cell.
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