期刊论文详细信息
BMC Biotechnology
Interference chromatography: a novel approach to optimizing chromatographic selectivity and separation performance for virus purification
Jake M. Domm1  Sarah K. Wootton1  Thomas M. McAusland1  Lisa A. Santry1  Pierre M. Major2  Mochao Zhao3  Melissa Vandersluis3  Xiaojiao Shang3  Renaud Jacquemart3  James G. Stout3 
[1] Department of Pathobiology, University of Guelph;Juravinski Cancer Centre;MilliporeSigma;
关键词: Interference chromatography;    Anion exchange membrane;    Single-use bioprocessing;    Oncolytic virotherapy;    Newcastle disease virus;    Virus purification;   
DOI  :  10.1186/s12896-020-00627-w
来源: DOAJ
【 摘 要 】

Abstract Background Oncolytic viruses are playing an increasingly important role in cancer immunotherapy applications. Given the preclinical and clinical efficacy of these virus-based therapeutics, there is a need for fast, simple, and inexpensive downstream processing methodologies to purify biologically active viral agents that meet the increasingly higher safety standards stipulated by regulatory authorities like the Food and Drug Administration and the European Agency for the Evaluation of Medicinal Products. However, the production of virus materials for clinical dosing of oncolytic virotherapies is currently limited—in quantity, quality, and timeliness—by current purification technologies. Adsorption of virus particles to solid phases provides a convenient and practical choice for large-scale fractionation and recovery of viruses from cell and media contaminants. Indeed, chromatography has been deemed the most promising technology for large-scale purification of viruses for biomedical applications. The implementation of new chromatography media has improved process performance, but low yields and long processing times required to reach the desired purity are still limiting. Results Here we report the development of an interference chromatography-based process for purifying high titer, clinical grade oncolytic Newcastle disease virus using NatriFlo® HD-Q membrane technology. This novel approach to optimizing chromatographic performance utilizes differences in molecular bonding interactions to achieve high purity in a single ion exchange step. Conclusions When used in conjunction with membrane chromatography, this high yield method based on interference chromatography has the potential to deliver efficient, scalable processes to enable viable production of oncolytic virotherapies.

【 授权许可】

Unknown   

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