Shuttle Peptide Delivers Base Editor RNPs to Rhesus Monkey Airway Epithelial Cells In Vivo.

Gene editing strategies for cystic fibrosis are challenged by the complex barrier properties of airway epithelia. We previously reported that the amphiphilic S10 shuttle peptide non-covalently combined with CRISPR-associated (Cas) ribonucleoprotein (RNP) enabled editing of human and mouse airway epithelial cells. Here, to improve base editor RNP delivery, we optimized S10 to derive the S315 peptide. Following intratracheal aerosol of Cy5-labeled peptide cargo in rhesus macaques, we confirmed delivery throughout the respiratory tract. Subsequently, we targeted CCR5 with co-administration of ABE8e-Cas9 RNP and S315. We achieved editing efficiencies of up to 5.3% in rhesus airway epithelia. Moreover, we documented persistence of edited epithelia for up to 12 months in mice. Finally, delivery of ABE8e-Cas9 targeting the CFTR R553X mutation restored anion channel function in cultured human airway epithelial cells. These results demonstrate the therapeutic potential of base editor delivery with S315 to functionally correct the CFTR R553X mutation in respiratory epithelia.