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Targeting synthetic lethal paralogs in cancer

Colm J. Ryan, Ishan Mehta, Narod Kebabci, David J. Adams

2023Trends in cancer58 citationsDOIOpen Access PDF

Abstract

Synthetic lethal interactions, where mutation of one gene renders cells sensitive to inhibition of another gene, can be exploited for the development of targeted therapeutics in cancer. Pairs of duplicate genes (paralogs) often share common functionality and hence are a potentially rich source of synthetic lethal interactions. Because the majority of human genes have paralogs, exploiting such interactions could be a widely applicable approach for targeting gene loss in cancer. Moreover, existing small-molecule drugs may exploit synthetic lethal interactions by inhibiting multiple paralogs simultaneously. Consequently, the identification of synthetic lethal interactions between paralogs could be extremely informative for drug development. Here we review approaches to identify such interactions and discuss some of the challenges of exploiting them.

Topics & Concepts

BiologySynthetic lethalityComputational biologyGeneLethal alleleIdentification (biology)Drug discoveryCancerGeneticsBioinformaticsDNA repairBotanyProtein Degradation and InhibitorsCRISPR and Genetic EngineeringUbiquitin and proteasome pathways
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