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Mapping the Human Kinome in Response to DNA Damage

Research output: Contribution to journalArticle

Michel Owusu, Peter Bannauer, Joana Ferreira da Silva, Thanos P Mourikis, Alistair Jones, Peter Májek, Michael Caldera, Marc Wiedner, Charles-Hugues Lardeau, André C Mueller, Jörg Menche, Stefan Kubicek, Francesca D Ciccarelli, Joanna I Loizou

Original languageEnglish
Pages (from-to)555-563.e6
JournalCell Reports
Volume26
Issue number3
Early online date15 Jan 2019
DOIs
Publication statusE-pub ahead of print - 15 Jan 2019

King's Authors

Abstract

We provide a catalog for the effects of the human kinome on cell survival in response to DNA-damaging agents, covering all major DNA repair pathways. By treating 313 kinase-deficient cell lines with ten diverse DNA-damaging agents, including seven commonly used chemotherapeutics, we identified examples of vulnerability and resistance that are kinase specific. To investigate synthetic lethal interactions, we tested the response to carmustine for 25 cell lines by establishing a phenotypic fluorescence-activated cell sorting (FACS) assay designed to validate gene-drug interactions. We show apoptosis, cell cycle changes, and DNA damage and proliferation after alkylation- or crosslink-induced damage. In addition, we reconstitute the cellular sensitivity of DYRK4, EPHB6, MARK3, and PNCK as a proof of principle for our study. Furthermore, using global phosphoproteomics on cells lacking MARK3, we provide evidence for its role in the DNA damage response. Our data suggest that cancers with inactivating mutations in kinases, including MARK3, are particularly vulnerable to alkylating chemotherapeutic agents.

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