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Engineering an adenine base editor in human embryonic stem cells with minimal DNA and RNA off-target activities

Zhenwu Zhang, Wanyu Tao, Shisheng Huang, Wenjun Sun, Yue Wang, Wen G. Jiang, Xingxu Huang, Chao‐Po Lin

2022Molecular Therapy — Nucleic Acids11 citationsDOIOpen Access PDF

Abstract

Genome editing in pluripotent stem cells (PSCs) using CRISPR technology holds great promise for therapeutic applications. Yet, it has been reported that Cas9-mediated cleavage could cause large deletions or rearrangements of DNA, and the selection of edited PSCs could acquire p53 mutations. Adenine base editors (ABEs) do not introduce DNA double-strand breaks and thus have been proposed as alternatives to circumvent those problems, but their off-target effects still limit their applications. Here, we tested different combinations of off-target reduction methods to further diminish off-target effects of ABEs without compromising their on-target editing efficiencies. We subsequently chose the best editor, CE-8e-dV, which contains V106W substitution, R153 deletion, and Cas-embedding strategy, to establish a single-cell-derived human embryonic stem cell (hESC) line expressing tetracycline-inducible CE-8e-dV. By performing RNA and whole-genome sequencing, we demonstrated that the expression of CE-8e-dV did not produce nearly any DNA or RNA off-target effects in hESCs. Our results provide stringent proof of the safety of ABEs in PSCs and suggest that CE-8e-dV could be suitable for related therapeutic strategies, such as generation of engineered stem cells in vitro and gene therapy in vivo. Genome editing in pluripotent stem cells (PSCs) using CRISPR technology holds great promise for therapeutic applications. Yet, it has been reported that Cas9-mediated cleavage could cause large deletions or rearrangements of DNA, and the selection of edited PSCs could acquire p53 mutations. Adenine base editors (ABEs) do not introduce DNA double-strand breaks and thus have been proposed as alternatives to circumvent those problems, but their off-target effects still limit their applications. Here, we tested different combinations of off-target reduction methods to further diminish off-target effects of ABEs without compromising their on-target editing efficiencies. We subsequently chose the best editor, CE-8e-dV, which contains V106W substitution, R153 deletion, and Cas-embedding strategy, to establish a single-cell-derived human embryonic stem cell (hESC) line expressing tetracycline-inducible CE-8e-dV. By performing RNA and whole-genome sequencing, we demonstrated that the expression of CE-8e-dV did not produce nearly any DNA or RNA off-target effects in hESCs. Our results provide stringent proof of the safety of ABEs in PSCs and suggest that CE-8e-dV could be suitable for related therapeutic strategies, such as generation of engineered stem cells in vitro and gene therapy in vivo.

Topics & Concepts

CRISPREmbryonic stem cellInduced pluripotent stem cellGenome editingGenome engineeringRNADNABiologyCas9Computational biologyStem cellGeneGeneticsMolecular biologyCell biologyCRISPR and Genetic EngineeringAdvanced biosensing and bioanalysis techniquesRNA Interference and Gene Delivery