Process intensification for lentiviral vector manufacturing using tangential flow depth filtration

Abstract

For gene therapies to become more accessible and affordable treatment options, process intensification is one possible strategy to increase the number of doses generated per batch of viral vector. Process intensification for lentiviral vector manufacturing can be achieved by enabling perfusion in the production bioreactor when applied in tandem with a stable producer cell line, allowing for significant expansion of cells and production of lentiviral vectors without the need for transfer plasmids. Tangential flow depth filtration was used to achieve an intensified lentiviral vector production by enabling perfusion to expand cell density and allow for continuous separation of lentiviral vectors from producer cells. Hollow-fiber depth filters made of polypropylene with 2- to 4-μm channels demonstrated high filter capacity, extended functional life, and efficient separation of lentiviral vectors from producer cells and debris when used for this intensified process. We anticipate that process intensification with tangential flow depth filtration at 200-L scale from a suspension culture can produce on the order of magnitude of 10,000 doses per batch of lentiviral vectors required for CAR T or TCR cell and gene therapy that would require approximately 2×109 transducing units per dose.