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Development of Large-Scale Downstream Processing for Lentiviral Vectors

Anniina J. Valkama, Igor Oruetxebarria, Eevi M. Lipponen, Hanna Leinonen, Piia Käyhty, Heidi Hynynen, Vesa Turkki, Joonas Malinen, Tuukka Miinalainen, Tommi Heikura, Nigel Parker, Seppo Ylä‐Herttuala, Hanna P. Lesch

2020Molecular Therapy — Methods & Clinical Development68 citationsDOIOpen Access PDF

Abstract

The interest in lentiviral vectors (LVs) has increased prominently for gene therapy applications, but few have reached the later stages of clinical trials. The main challenge has remained in scaling up the manufacturing process for the fragile vector to obtain high titers for in vivo usage. We have previously scaled up the LV production to iCELLis 500, being able to produce up to 180 L of harvest material in one run with perfusion. The following challenge considers the purification and concentration of the product to meet titer and purity requirements for clinical use. We have developed a downstream process, beginning with clarification, buffer exchange, and concentration, by tangential flow filtration. This is followed by a purification step using single membrane-based anion exchange chromatography and final formulation with tangential flow filtration. Different materials and conditions were compared to optimize the process, especially for the chromatography step that has been the bottleneck in lentiviral vector purification scale-up. The final infectious titer of the lentiviral vector product manufactured using the optimized scale-up process was determined to be 1.97 × 109 transducing units (TU)/mL, which can be considered as a high titer for lentiviral vectors. The interest in lentiviral vectors (LVs) has increased prominently for gene therapy applications, but few have reached the later stages of clinical trials. The main challenge has remained in scaling up the manufacturing process for the fragile vector to obtain high titers for in vivo usage. We have previously scaled up the LV production to iCELLis 500, being able to produce up to 180 L of harvest material in one run with perfusion. The following challenge considers the purification and concentration of the product to meet titer and purity requirements for clinical use. We have developed a downstream process, beginning with clarification, buffer exchange, and concentration, by tangential flow filtration. This is followed by a purification step using single membrane-based anion exchange chromatography and final formulation with tangential flow filtration. Different materials and conditions were compared to optimize the process, especially for the chromatography step that has been the bottleneck in lentiviral vector purification scale-up. The final infectious titer of the lentiviral vector product manufactured using the optimized scale-up process was determined to be 1.97 × 109 transducing units (TU)/mL, which can be considered as a high titer for lentiviral vectors.

Topics & Concepts

Downstream processingViral vectorTiterCross-flow filtrationBottleneckChromatographyFiltration (mathematics)In vivoDownstream (manufacturing)ChemistryBiologyComputer scienceMembraneVirologyRecombinant DNAMathematicsEngineeringBiotechnologyBiochemistryGeneStatisticsOperations managementEmbedded systemVirusVirus-based gene therapy researchViral gastroenteritis research and epidemiologyRNA Interference and Gene Delivery