127. Lentiviral Protein Transduction for Tailored Genome Editing and Site-Directed Gene Insertion

Abstract

Therapeutic use of site-directed endonucleases relies on safe and effective cellular delivery, preferentially resulting in short-term enzymatic activity. Based on the packaging of Gag/GagPol-fused heterologous proteins into VSV-G-pseudotyped lentivirus-derived particles, we have established lentiviral protein transduction for delivery of DNA transposases and custom-made endonucleases. Up to 24% of targeted CCR5 and AAVS1 alleles were disrupted in primary cells, including normal human dermal fibroblasts and primary keratinocytes, exposed to lentiviral particles loaded with zinc-finger nucleases (ZFNs). By exposing human 293 cells to ‘all-in-one’ integrase-defective lentiviral vectors (IDLVs) containing a complete gene repair kit consisting of ZFNs and viral RNA carrying the donor sequence for homology-directed repair, correction of genomic mutations was obtained in more than 8% of treated cells. As shown by confocal microscopy, ZFN proteins were abundant within transduced cells one hour after initial virus exposure, but were short-lived and gone after 24 hours. In accordance, under conditions supporting comparable CCR5 indel rates, disruption of the nearby CCR2 off-target site was reduced by lentiviral delivery of ZFNs targeting CCR5 relative to a conventional transfection-based approach. As biased and uncontrolled integration into genes remains a key challenge for gene therapies based on lentiviral vector technologies, we engineered ZFN-loaded IDLVs with the capacity to insert transgenes into the human CCR5 and AAVS1 loci by a homology-driven mechanism. Targeted gene integration into safe genomic loci was observed in human cell lines (85% of analyzed clones) and in human stem cells, including CD34+ hematopoietic progenitors and induced pluripotent stem cells (iPSCs). Notably, targeted transgene insertion into safe harbors was identified in all of 23 analyzed iPSC clones. Altogether, our findings generate a new platform for targeted genome engineering based on lentiviral delivery of complete gene repair or gene insertion kits.