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Abstract
Vemurafenib is a BRAF kinase inhibitor (BRAFi) that is used to treat melanoma patients harboring the constitutively active BRAF-V600E mutation. However, after a few months of treatment patients often develop resistance to vemurafenib leading to disease progression. Sequence analysis of drug-resistant tumor cells and functional genomic screens has identified several genes that regulate vemurafenib resistance. Reactivation of mitogen-activated protein kinase (MAPK) pathway is a recurrent feature of cells that develop resistance to vemurafenib. We performed a genome-scale CRISPR-based knockout screen to identify modulators of vemurafenib resistance in melanoma cells with a highly improved CRISPR sgRNA library called Brunello. We identified 33 genes that regulate resistance to vemurafenib out of which 14 genes have not been reported before. Gene ontology enrichment analysis showed that the hit genes regulate histone modification, transcription and cell cycle. We discuss how inactivation of hit genes might confer resistance to vemurafenib and provide a framework for follow-up investigations.
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Details
1 Bioinformatics Institute (BII), A*STAR, Singapore 138671, Singapore
2 Epigenetics and Cell Fates Laboratory, A*STAR Institute of Molecular and Cell Biology, Singapore 138673, Singapore
3 Experimental Drug Development Centre, A*STAR, Singapore 138670, Singapore
4 p53Lab, A*STAR, Singapore 138648, Singapore
5 Bioinformatics Institute (BII), A*STAR, Singapore 138671, Singapore; Singapore Institute for Food and Biotechnology Innovation, Singapore 138632, Singapore