Chemogenetic System Demonstrates That Cas9 Longevity Impacts Genome Editing Outcomes

Prolonged Cas9 activity can hinder genome engineering as it causes off-target effects, genotoxicity, heterogeneous genome-editing outcomes, immunogenicity, and mosaicism in embryonic editingissues which could be addressed by controlling the longevity of Cas9. Though some temporal controls of Cas9 a...

Full description

Saved in:
Bibliographic Details
Published in:ACS central science 2020-12, Vol.6 (12), p.2228-2237
Main Authors: Sreekanth, Vedagopuram, Zhou, Qingxuan, Kokkonda, Praveen, Bermudez-Cabrera, Heysol C, Lim, Donghyun, Law, Benjamin K, Holmes, Benjamin R, Chaudhary, Santosh K, Pergu, Rajaiah, Leger, Brittany S, Walker, James A, Gifford, David K, Sherwood, Richard I, Choudhary, Amit
Format: Article
Language:English
Citations: Items that this one cites
Items that cite this one
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:Prolonged Cas9 activity can hinder genome engineering as it causes off-target effects, genotoxicity, heterogeneous genome-editing outcomes, immunogenicity, and mosaicism in embryonic editingissues which could be addressed by controlling the longevity of Cas9. Though some temporal controls of Cas9 activity have been developed, only cumbersome systems exist for modifying the lifetime. Here, we have developed a chemogenetic system that brings Cas9 in proximity to a ubiquitin ligase, enabling rapid ubiquitination and degradation of Cas9 by the proteasome. Despite the large size of Cas9, we were able to demonstrate efficient degradation in cells from multiple species. Furthermore, by controlling the Cas9 lifetime, we were able to bias the DNA repair pathways and the genotypic outcome for both templated and nontemplated genome editing. Finally, we were able to dosably control the Cas9 activity and specificity to ameliorate the off-target effects. The ability of this system to change the Cas9 lifetime and, therefore, bias repair pathways and specificity in the desired direction allows precision control of the genome editing outcome.
ISSN:2374-7943
2374-7951
DOI:10.1021/acscentsci.0c00129