A highly efficient transgene knock-in technology in clinically relevant cell types

Alexander G Allen; Samia Q Khan; Carrie M Margulies; Ramya Viswanathan; Swarali Lele; Laura Blaha; Sean N Scott; Kaitlyn M Izzo; Alexandra Gerew; Rithu Pattali; Nadire R Cochran; Carl S Holland; Amy H Zhao; Stephen E Sherman; Michael C Jaskolka; Meng Wu; Aaron C Wilson; Xiaoqi Sun; Dawn M Ciulla; Deric Zhang; Jacqueline D Nelson; Peisheng Zhang; Patrizia Mazzucato; Yan Huang; Georgia Giannoukos; Eugenio Marco; Michael Nehil; John A Follit; Kai-Hsin Chang; Mark S Shearman; Christopher J Wilson; John A Zuris

doi:10.1038/s41587-023-01779-8

A highly efficient transgene knock-in technology in clinically relevant cell types

Nat Biotechnol. 2024 Mar;42(3):458-469. doi: 10.1038/s41587-023-01779-8. Epub 2023 May 1.

Authors

Alexander G Allen^#¹, Samia Q Khan^#¹, Carrie M Margulies^#¹, Ramya Viswanathan^#¹, Swarali Lele¹, Laura Blaha¹, Sean N Scott¹, Kaitlyn M Izzo¹, Alexandra Gerew¹, Rithu Pattali¹, Nadire R Cochran¹, Carl S Holland¹, Amy H Zhao¹, Stephen E Sherman¹, Michael C Jaskolka¹, Meng Wu¹, Aaron C Wilson¹, Xiaoqi Sun¹, Dawn M Ciulla¹, Deric Zhang¹, Jacqueline D Nelson¹, Peisheng Zhang¹, Patrizia Mazzucato¹, Yan Huang¹, Georgia Giannoukos¹, Eugenio Marco¹, Michael Nehil¹, John A Follit¹, Kai-Hsin Chang¹, Mark S Shearman¹, Christopher J Wilson¹, John A Zuris²

Affiliations

¹ Editas Medicine, Cambridge, MA, USA.
² Editas Medicine, Cambridge, MA, USA. john.zuris@editasmed.com.

^# Contributed equally.

PMID: 37127662
DOI: 10.1038/s41587-023-01779-8

Abstract

Inefficient knock-in of transgene cargos limits the potential of cell-based medicines. In this study, we used a CRISPR nuclease that targets a site within an exon of an essential gene and designed a cargo template so that correct knock-in would retain essential gene function while also integrating the transgene(s) of interest. Cells with non-productive insertions and deletions would undergo negative selection. This technology, called SLEEK (SeLection by Essential-gene Exon Knock-in), achieved knock-in efficiencies of more than 90% in clinically relevant cell types without impacting long-term viability or expansion. SLEEK knock-in rates in T cells are more efficient than state-of-the-art TRAC knock-in with AAV6 and surpass more than 90% efficiency even with non-viral DNA cargos. As a clinical application, natural killer cells generated from induced pluripotent stem cells containing SLEEK knock-in of CD16 and mbIL-15 show substantially improved tumor killing and persistence in vivo.

MeSH terms

CRISPR-Cas Systems* / genetics
Gene Editing*
Gene Knock-In Techniques
Transgenes / genetics