Identification of oncogenic driver mutations by genome-wide CRISPR-Cas9 dropout screeningReport as inadecuate

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BMC Genomics

, 17:723

Human and rodent genomics


BackgroundGenome-wide CRISPR-Cas9 dropout screens can identify genes whose knockout affects cell viability. Recent CRISPR screens detected thousands of essential genes required for cellular survival and key cellular processes; however discovering novel lineage-specific genetic dependencies from the many hits still remains a challenge.

ResultsTo assess whether CRISPR-Cas9 dropout screens can help identify cancer dependencies, we screened two human cancer cell lines carrying known and distinct oncogenic mutations using a genome-wide sgRNA library. We found that the gRNA targeting the driver mutation EGFR was one of the highest-ranking candidates in the EGFR-mutant HCC-827 lung adenocarcinoma cell line. Likewise, sgRNAs for NRAS and MAP2K1 MEK1, a downstream kinase of mutant NRAS, were identified among the top hits in the NRAS-mutant neuroblastoma cell line CHP-212. Depletion of these genes targeted by the sgRNAs strongly correlated with the sensitivity to specific kinase inhibitors of the EGFR or RAS pathway in cell viability assays. In addition, we describe other dependencies such as TBK1 in HCC-827 cells and TRIB2 in CHP-212 cells which merit further investigation.

ConclusionsWe show that genome-wide CRISPR dropout screens are suitable for the identification of oncogenic drivers and other essential genes.

KeywordsWhole genome CRISPR screen Dropout Negative selection Driver mutations EGFR NRAS Kinase AbbreviationsCRISPRClustered regularly interspaced short palindrome repeats

sgRNASingle guide RNA

DSBDouble-strand breaks

NHEJNonhomologous end-joining

indelsInsertions and deletions

EGFREpidermal growth factor receptor

Electronic supplementary materialThe online version of this article doi:10.1186-s12864-016-3042-2 contains supplementary material, which is available to authorized users.

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Author: Michael K. Kiessling - Sven Schuierer - Silke Stertz - Martin Beibel - Sebastian Bergling - Judith Knehr - Walter Carbone


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