Infection and Immunity, School of Medicine, Cardiff University, Cardiff, United Kingdom.
Hum Gene Ther. 2022 Sep;33(17-18):990-1001. doi: 10.1089/hum.2021.120. Epub 2022 Apr 18.
Recombinant adenovirus vectors enable highly efficient gene delivery and As a result, they are widely used in gene therapy, vaccination, and anticancer applications. We have previously developed the AdZ vector system, which uses recombineering to permit high-throughput cloning of transgenes into Adenovirus vectors, simplifies alteration of the vector backbone, and enables rapid recovery of infectious virus, even if a transgene is incompatible with vector replication. In this study, we adapt this vector system to enable high-throughput cloning of sequences for CRISPR/Cas9 editing. Vectors were optimized to ensure efficient cloning, and high editing efficiency using spCas9 and single guide RNA (sgRNA) sequences in a single vector. Using a multiplicity of infection of 50, knockout efficiencies of up to 80% could be achieved with a single sgRNA. Vectors were further enhanced by altering the spCas9 sequence to match that of SniperCas9, which has reduced off-target activity, but maintains on-target efficiency, and by applying modifications to the sgRNA sequence that significantly enhance editing efficiency. Thus, the AdZ-CRISPR vectors offer highly efficient knockout, even in hard to transfect cells, and enables large-scale CRISPR/Cas9 projects to be undertaken easily and quickly.
重组腺病毒载体能够实现高效的基因传递,因此被广泛应用于基因治疗、疫苗接种和抗癌等领域。我们之前开发了 AdZ 载体系统,该系统利用重组酶技术实现了将转基因高效克隆到腺病毒载体中,简化了载体骨架的修饰,并能够快速恢复有感染性的病毒,即使转基因与载体复制不兼容。在本研究中,我们对该载体系统进行了适应性改造,使其能够高效克隆 CRISPR/Cas9 编辑所需的序列。我们对载体进行了优化,以确保在单个载体中高效克隆和使用 spCas9 和单指导 RNA(sgRNA)序列实现高编辑效率。在感染复数为 50 的情况下,使用单个 sgRNA 可实现高达 80%的敲除效率。我们进一步通过改变 spCas9 序列来增强载体,使其与具有较低脱靶活性但保持靶标效率的 SniperCas9 匹配,并通过对 sgRNA 序列进行修饰,显著提高编辑效率。因此,AdZ-CRISPR 载体可实现高效的敲除,即使在难以转染的细胞中也是如此,并且能够轻松、快速地开展大规模的 CRISPR/Cas9 项目。
