ABSTRACT
Discovery of off-target CRISPR-Cas genome editing activity in patient-derived cells and animal models is crucial for therapeutic applications, but currently exhibits low sensitivity. We demonstrate that inhibition of DNA-dependent protein kinase catalytic subunit (DNA-PKcs) accumulates repair protein MRE11 at CRISPR-targeted sites, enabling high-sensitivity mapping of off-target sites to positions of MRE11 binding using chromatin immunoprecipitation sequencing (ChIP-seq). This technique, termed DISCOVER-Seq+, discovered up to 5-fold more CRISPR off-target sites in immortalized cell lines, primary human cells, and mice compared to previous methods. We demonstrated applicability to ex vivo knock-in of a cancer-directed transgenic T-cell receptor in primary human T cells and in vivo adenovirus knock-out of cardiovascular risk gene PCSK9 in mice. DISCOVER-Seq+ is the most sensitive method to-date for discovering off-target genome editing in vivo.
Competing Interest Statement
Johns Hopkins University has submitted a patent application on the method for off-target detection used in this study.
