Dual pH-responsive CRISPR/Cas9 ribonucleoprotein xenopeptide complexes for genome editing.

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Clustered regularly interspaced short palindromic repeat (CRISPR)/CRISPR associated (Cas) protein has been proved as a powerful tool for the treatment of genetic diseases. The Cas9 protein, when combined with single-guide RNA (sgRNA), forms a Cas9/sgRNA ribonucleoprotein (RNP) capable of targeting and editing the genome. However, the limited availability of effective carriers has restricted the broader application of CRISPR/Cas9 RNP. In this study, we evaluated dual pH-responsive amphiphilic xenopeptides (XPs) for delivering CRISPR/Cas9 RNP. These artificial lipo-XPs contain apolar cationizable lipoamino fatty acid (LAF) and polar cationizable oligoaminoethylene acid units such as succinoyl-tetraethylenepentamine (Stp) in various ratios and U-shaped topologies. The carriers were screened for functional Cas9/sgRNA RNP delivery in four different reporter cell lines, including a Duchenne muscular dystrophy (DMD) exon skipping reporter cell model. Significantly enhanced cellular uptake into HeLa cells, effective endosomal disruption in HeLa gal8-mRuby3 cells, and potent genome editing by several Cas9/sgRNA RNP complexes was observed in four different cell lines in the 5 nM sgRNA range. Comparing Cas9/sgRNA RNP complexes with Cas9 mRNA/sgRNA polyplexes in the DMD reporter cell model demonstrated similar splice site editing and high exon skipping of the two different molecular Cas9 modalities. Based on these studies, analogues of two potent U1 LAF2-Stp and LAF4-Stp2 structures were deployed, tuning the amphiphilicity of the polar Stp group by replacement with the six oligoamino acids dmGtp, chGtp, dGtp, Htp, Stt, or GEIPA. The most potent LAF2-Stp analogues (containing dGtp, chGtp or GEIPA) demonstrated further enhanced gene editing efficiency with EC50 values of 1 nM in the DMD exon skipping reporter cell line. Notably, the EC50 of LAF2-dGtp reached 0.51 nM even upon serum incubation. Another carrier (LAF4-GEIPA2) complexing Cas9/sgRNA RNP and donor DNA, facilitated up to 43% of homology-directed repair (HDR) in HeLa eGFPd2 cells visualized by the switch from green fluorescent protein (eGFP) to blue fluorescent protein (BFP). This study presents a delivery system tunable for Cas9 RNP complexes or Cas9 RNP/donor DNA polyplexes, offering an effective and easily applicable strategy for gene editing.