Engineered Cas9 extracellular vesicles as a novel gene editing tool

Xabier Osteikoetxea; Andreia Silva; Elisa Lázaro‐Ibáñez; Nikki Salmond; Olga Shatnyeva; Josia Stein; Jan Schick; Stephen Wren; Julia Lindgren; Mike Firth; Alexandra Madsen; Lorenz M. Mayr; Ross Overman; Rick Davies; Niek Dekker

doi:10.1002/jev2.12225

Journal of Extracellular Vesicles (May 2022)

Engineered Cas9 extracellular vesicles as a novel gene editing tool

Xabier Osteikoetxea,
Andreia Silva,
Elisa Lázaro‐Ibáñez,
Nikki Salmond,
Olga Shatnyeva,
Josia Stein,
Jan Schick,
Stephen Wren,
Julia Lindgren,
Mike Firth,
Alexandra Madsen,
Lorenz M. Mayr,
Ross Overman,
Rick Davies,
Niek Dekker

Affiliations

Xabier Osteikoetxea: Discovery Biology Discovery Sciences BioPharmaceuticals R&D AstraZeneca Alderley Park UK
Andreia Silva: Discovery Biology Discovery Sciences BioPharmaceuticals R&D AstraZeneca Gothenburg Sweden
Elisa Lázaro‐Ibáñez: Discovery Biology Discovery Sciences BioPharmaceuticals R&D AstraZeneca Gothenburg Sweden
Nikki Salmond: Discovery Biology Discovery Sciences BioPharmaceuticals R&D AstraZeneca Alderley Park UK
Olga Shatnyeva: Discovery Biology Discovery Sciences BioPharmaceuticals R&D AstraZeneca Gothenburg Sweden
Josia Stein: Discovery Biology Discovery Sciences BioPharmaceuticals R&D AstraZeneca Alderley Park UK
Jan Schick: Discovery Biology Discovery Sciences BioPharmaceuticals R&D AstraZeneca Alderley Park UK
Stephen Wren: Global Product Development Pharmaceutical Technology & Development AstraZeneca Macclesfield UK
Julia Lindgren: Translational Genomics Discovery Biology Discovery Sciences BioPharmaceuticals R&D AstraZeneca Gothenburg Sweden
Mike Firth: Quantitative Biology Discovery Sciences BioPharmaceuticals R&D AstraZeneca Cambridge UK
Alexandra Madsen: Genome Engineering Discovery Biology Discovery Sciences BioPharmaceuticals R&D AstraZeneca Gothenburg Sweden
Lorenz M. Mayr: Discovery Biology Discovery Sciences BioPharmaceuticals R&D AstraZeneca Cambridge UK
Ross Overman: Discovery Biology Discovery Sciences BioPharmaceuticals R&D AstraZeneca Alderley Park UK
Rick Davies: Discovery Biology Discovery Sciences BioPharmaceuticals R&D AstraZeneca Alderley Park UK
Niek Dekker: Discovery Biology Discovery Sciences BioPharmaceuticals R&D AstraZeneca Gothenburg Sweden

DOI: https://doi.org/10.1002/jev2.12225
Journal volume & issue: Vol. 11, no. 5
pp. n/a – n/a

Abstract

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Abstract Extracellular vesicles (EVs) have shown promise as biological delivery vehicles, but therapeutic applications require efficient cargo loading. Here, we developed new methods for CRISPR/Cas9 loading into EVs through reversible heterodimerization of Cas9‐fusions with EV sorting partners. Cas9‐loaded EVs were collected from engineered Expi293F cells using standard methodology, characterized using nanoparticle tracking analysis, western blotting, and transmission electron microscopy and analysed for CRISPR/Cas9‐mediated functional gene editing in a Cre‐reporter cellular assay. Light‐induced dimerization using Cryptochrome 2 combined with CD9 or a Myristoylation‐Palmitoylation‐Palmitoylation lipid modification resulted in efficient loading with approximately 25 Cas9 molecules per EV and high functional delivery with 51% gene editing of the Cre reporter cassette in HEK293 and 25% in HepG2 cells, respectively. This approach was also effective for targeting knock‐down of the therapeutically relevant PCSK9 gene with 6% indel efficiency in HEK293. Cas9 transfer was detergent‐sensitive and associated with the EV fractions after size exclusion chromatography, indicative of EV‐mediated transfer. Considering the advantages of EVs over other delivery vectors we envision that this study will prove useful for a range of therapeutic applications, including CRISPR/Cas9 mediated genome editing.

Published in Journal of Extracellular Vesicles

ISSN: 2001-3078 (Online)
Publisher: Wiley
Country of publisher: United States
LCC subjects: Science: Biology (General): Cytology
Website: https://onlinelibrary.wiley.com/journal/20013078

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Abstract

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