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nCas9 Engineering for Improved Target Interaction Presents an Effective Strategy to Enhance Base Editing.

Guiquan ZhangZiguo SongShisheng HuangYafeng WangJiayuan SunLu QiaoGuanglei LiYuanyuan FengWei HanJin TangYulin ChenXingxu HuangFurui LiuXiaolong WangJianghuai Liu
Published in: Advanced science (Weinheim, Baden-Wurttemberg, Germany) (2024)
Base editors (BEs) are a recent generation of genome editing tools that couple a cytidine or adenosine deaminase activity to a catalytically impaired Cas9 moiety (nCas9) to enable specific base conversions at the targeted genomic loci. Given their strong application potential, BEs are under active developments toward greater levels of efficiency and safety. Here, a previously overlooked nCas9-centric strategy is explored for enhancement of BE. Based on a cytosine BE (CBE), 20 point mutations associated with nCas9-target interaction are tested. Subsequently, from the initial positive X-to-arginine hits, combinatorial modifications are applied to establish further enhanced CBE variants (1.1-1.3). Parallel nCas9 modifications in other versions of CBEs including A3A-Y130F-BE4max, YEE-BE4max, CGBE, and split-AncBE4max, as well as in the context of two adenine BEs (ABE), likewise enhance their respective activities. The same strategy also substantially improves the efficiencies of high-fidelity nCas9/BEs. Further evidence confirms that the stabilization of nCas9-substrate interactions underlies the enhanced BE activities. In support of their translational potential, the engineered CBE and ABE variants respectively enable 82% and 25% higher rates of editing than the controls in primary human T-cells. This study thus demonstrates a highly adaptable strategy for enhancing BE, and for optimizing other forms of Cas9-derived tools.
Keyphrases
  • crispr cas
  • genome editing
  • copy number
  • endothelial cells
  • nitric oxide
  • genome wide
  • cancer therapy
  • human health
  • dna methylation