Molecular Therapy: Methods & Clinical Development (Sep 2023)

Combined clarification and affinity capture using magnetic resin enables efficient separation of rAAV5 from cell lysate

  • Federico Turco,
  • Adam Wegelius,
  • Ola Lind,
  • Nils Norrman,
  • Ann-Christin Magnusson,
  • Christine Sund-Lundström,
  • Björn Norén,
  • Jesper Hedberg,
  • Ronnie Palmgren

Journal volume & issue
Vol. 30
pp. 394 – 402

Abstract

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Recombinant adeno-associated virus (rAAV) vectors have displayed enormous potential as a platform for delivery of gene therapies. Purification of rAAV at industrial scale involves a series of elaborate, material, and time-consuming midstream steps, such as clarification by depth filtration and concentration/buffer exchange by tangential flow filtration. In this study, we developed a filter-less flow capture method for purification of rAAV serotype 5, using a high-gradient magnetic separator and magnetic Mag Sepharose beads coupled to an AVB affinity ligand. In under 2 h, we captured and eluted rAAV5 directly from ∼5 L of cell lysate with a recovery yield of 63% (±5%, n = 3). Compared to cell lysate, the eluate showed a 3-log reduction of host cell DNA and host cell proteins. The process developed eliminates the need for filtration and column chromatography in the early steps of industrial rAAV purification. This will be of high value for industrial-scale manufacturing of rAAVs by reducing time and material in the purification process, without compromising product recovery and purity.

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