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Purification of cell culture-derived influenza A virus via continuous anion exchange chromatography on monoliths

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  • Purification of cell culture-derived influenza A virus via continuous anion exchange chromatography on monoliths

    Vaccine. 2017 Jul 17. pii: S0264-410X(17)30894-0. doi: 10.1016/j.vaccine.2017.06.086. [Epub ahead of print]
    Purification of cell culture-derived influenza A virus via continuous anion exchange chromatography on monoliths.

    Fischer LM1, Wolff MW2, Reichl U3.
    Author information

    Abstract

    The continuously increasing demand for potent and safe vaccines and the intensifying economic pressure on health care systems underlines the need for further optimization of vaccine manufacturing. Here, we focus on downstream processing of human influenza vaccines, investigating the purification of serum-free cell culture-derived influenza virus (A/PR/8/34 H1N1) using continuous chromatography. Therefore, quaternary amine anion exchange monoliths (CIM? QA) were characterized for their capacity to capture virus particles from animal cells cultivated in different media and their ability to separate virions from contaminating host cell proteins and DNA. The continuous chromatography was implemented as simulated moving bed chromatography (SMB) in a three zone open loop configuration with a detached high salt zone for regeneration. SMBs exploiting 10% and 50% of the monoliths' dynamic binding capacity, respectively, allowed the depletion of >98% of the DNA and >52% of the total protein. Based on the hemagglutination assay (HA assay), the virus yield was higher at 10% capacity use (89% vs. 45%). Both SMB separations resulted in a ratio of total protein to hemagglutinin antigen (based on single radial diffusion assay, SRID assay) below the required levels for manufacturing of human vaccines (less than 100?g of protein per virus strain per dose). The level of contaminating DNA was five-times lower for the 10% loading, but still exceeded the required limit for human vaccines. A subsequent Benzonase? treatment step, however, reduced the DNA contamination below 10ng per dose. Coupled to continuous cultivations for virus propagation, the establishment of integrated processes for fully continuous production of vaccines seems to be feasible.
    Copyright ? 2017 Elsevier Ltd. All rights reserved.


    KEYWORDS:

    Anion exchange chromatography; Continuous chromatography (simulated moving bed); Downstream processing; Influenza virus; Monolith; Vaccine purification

    PMID: 28729020 DOI: 10.1016/j.vaccine.2017.06.086
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