BMC Research Notes (Dec 2017)

Divergent susceptibilities to AAV-SaCas9-gRNA vector-mediated genome-editing in a single-cell-derived cell population

  • Salma G. Morsy,
  • Jason M. Tonne,
  • Yaxi Zhu,
  • Brian Lu,
  • Karol Budzik,
  • James W. Krempski,
  • Sherine A. Ali,
  • Mohamed A. El-Feky,
  • Yasuhiro Ikeda

DOI
https://doi.org/10.1186/s13104-017-3028-4
Journal volume & issue
Vol. 10, no. 1
pp. 1 – 7

Abstract

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Abstract Objective Recombinant adeno-associated virus (AAV)-based vectors are characterized by their robust and safe transgene delivery. The CRISPR/Cas9 and guide RNA (gRNA) system present a promising genome-editing platform, and a recent development of a shorter Cas9 enzyme from Staphylococcus aureus (SaCas9) allows generation of high titer single AAV vectors which carry both saCas9- and gRNA-expression cassettes. Here, we used two AAV-SaCas9 vectors with distinct GFP-targeted gRNA sequences and determined the impact of AAV-SaCas9-gRNA vector treatment in a single cell clone carrying a GFP-expression cassette. Results Our results showed comparable GFP knockout efficiencies (40–50%) upon a single low-dose infection. Three consecutive transductions of 25-fold higher doses of vectors showed 80% GFP knockout efficiency. To analyze the “AAV-SaCas9-resistant cell population”, we sorted the residual GFP-positive cells and assessed their permissiveness to super-infection with two AAV-Cas9-GFP vectors. We found the sorted cells were significantly more resistant to the GFP knockout mediated by the same AAV vector, but not by the other GFP-targeted AAV vector. Our data therefore demonstrate highly efficient genome-editing by the AAV-SaCas9-gRNA vector system. Differential susceptibilities of single cell-derived cells to the AAV-SaCas9-gRNA-mediated genome editing may represent a formidable barrier to achieve 100% genome editing efficiency by this vector system.

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