Molecular Therapy: Methods & Clinical Development (Jun 2020)

Cross-Packaging and Capsid Mosaic Formation in Multiplexed AAV Libraries

  • Pauline F. Schmit,
  • Simon Pacouret,
  • Eric Zinn,
  • Elizabeth Telford,
  • Fotini Nicolaou,
  • Frédéric Broucque,
  • Eva Andres-Mateos,
  • Ru Xiao,
  • Magalie Penaud-Budloo,
  • Mohammed Bouzelha,
  • Nicolas Jaulin,
  • Oumeya Adjali,
  • Eduard Ayuso,
  • Luk H. Vandenberghe

Journal volume & issue
Vol. 17
pp. 107 – 121

Abstract

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Generation and screening of libraries of adeno-associated virus (AAV) variants have emerged as a powerful method for identifying novel capsids for gene therapy applications. For the majority of libraries, vast population diversity requires multiplexed production, in which a library of inverted terminal repeat (ITR)-containing plasmid variants is transfected together into cells to generate the viral library. This process has the potential to be confounded by cross-packaging and mosaicism, in which particles are comprised of genomes and capsid monomers derived from different library members. Here, we investigate the prevalence of cross-packaging and mosaicism in simplified, minimal libraries using novel assays designed to assess capsid composition and packaging fidelity. We show that AAV library variants are prone to cross-packaging and capsid mosaic formation when produced at high plasmid levels, although to a lesser extent than in a recombinant context. We also provide experimental evidence that dilution of input library DNA significantly increases capsid monomer homogeneity and increases capsid:genome correlation in AAV libraries. Lastly, we determine that similar dilution methods yield higher-quality libraries when used for in vivo screens. Together, these findings quantitatively characterized the prevalence of cross-packaging and mosaicism in AAV libraries and established conditions that minimize related noise in subsequent screens.

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