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Enhancing prime editor flexibility with coiled-coil heterodimers

Shuangshuang Mu, Huangyao Chen, Qianru Li, Shixue Gou, Xiaoyi Liu, Junwei Wang, Wei Zheng, Menglong Chen, Qin Jin, Liangxue Lai, Kepin Wang, Hui Shi

2024Genome biology11 citationsDOIOpen Access PDF

Abstract

BACKGROUND: Prime editing enables precise base substitutions, insertions, and deletions at targeted sites without the involvement of double-strand DNA breaks or exogenous donor DNA templates. However, the large size of prime editors (PEs) hampers their delivery in vivo via adeno-associated virus (AAV) due to the viral packaging limit. Previously reported split PE versions provide a size reduction, but they require intricate engineering and potentially compromise editing efficiency. RESULTS: Herein, we present a simplified split PE named as CC-PE, created through non-covalent recruitment of reverse transcriptase to the Cas9 nickase via coiled-coil heterodimers, which are widely used in protein design due to their modularity and well-understood sequence-structure relationship. We demonstrate that the CC-PE maintains or even surpasses the efficiency of unsplit PE in installing intended edits, with no increase in the levels of undesired byproducts within tested loci amongst a variety of cell types (HEK293T, A549, HCT116, and U2OS). Furthermore, coiled-coil heterodimers are used to engineer SpCas9-NG-PE and SpRY-PE, two Cas9 variants with more flexible editing scope. Similarly, the resulting NG-CC-PE and SpRY-CC-PE also achieve equivalent or enhanced efficiency of precise editing compared to the intact PE. When the dual AAV vectors carrying CC-PE are delivered into mice to target the Pcsk9 gene in the liver, CC-PE enables highly efficient precise editing, resulting in a significant reduction of plasma low-density lipoprotein cholesterol and total cholesterol. CONCLUSIONS: Our innovative, modular system enhances flexibility, thus potentially facilitating the in vivo applicability of prime editing.

Topics & Concepts

BiologyCoiled coilFlexibility (engineering)Genome BiologyHuman geneticsPrime (order theory)Computational biologyEvolutionary biologyGeneticsCell biologyBioinformaticsGenomicsGenomeCombinatoricsGeneMathematicsStatisticsCRISPR and Genetic EngineeringVirus-based gene therapy researchRNA regulation and disease
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