BioTech (Oct 2021)

Highly Efficient Purification of Recombinant VSV-∆G-Spike Vaccine against SARS-CoV-2 by Flow-Through Chromatography

  • Elad Lerer,
  • Ziv Oren,
  • Yaron Kafri,
  • Yaakov Adar,
  • Einat Toister,
  • Lilach Cherry,
  • Edith Lupu,
  • Arik Monash,
  • Rona Levy,
  • Eyal Dor,
  • Eyal Epstein,
  • Lilach Levin,
  • Meni Girshengorn,
  • Niva Natan,
  • Ran Zichel,
  • Arik Makovitzki

DOI
https://doi.org/10.3390/biotech10040022
Journal volume & issue
Vol. 10, no. 4
p. 22

Abstract

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This study reports a highly efficient, rapid one-step purification process for the production of the recombinant vesicular stomatitis virus-based vaccine, rVSV-∆G-spike (rVSV-S), recently developed by the Israel Institute for Biological Research (IIBR) for the prevention of COVID-19. Several purification strategies are evaluated using a variety of chromatography methods, including membrane adsorbers and packed-bed ion-exchange chromatography. Cell harvest is initially treated with endonuclease, clarified, and further concentrated by ultrafiltration before chromatography purification. The use of anion-exchange chromatography in all forms results in strong binding of the virus to the media, necessitating a high salt concentration for elution. The large virus and spike protein binds very strongly to the high surface area of the membrane adsorbents, resulting in poor virus recovery (TM Core 700 resin, which does not require binding and the elution of the virus, is described. rVSV-S cannot enter the inner pores of the resin and is collected in the flow-through eluent. Purification of the rVSV-S virus with CaptoTM Core 700 resulted in viral infectivity above 85% for this step, with the efficient removal of host cell proteins, consistent with regulatory requirements. Similar results were obtained without an initial ultrafiltration step.

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