Adeno-associated virus (AAV) vectors continue to hold immense promise as gene transfer vehicles for a variety of gene therapy applications. Numerous pre-clinical and human clinical studies have been undertaken with rAAV, employing several of the identified serotypes to leverage their differing tissue tropism to correct a broad spectrum of genetic diseases. Despite the advantageous characteristics of rAAV and the extensive research into pre-clinical applications, production and purification scale-up continues to limit recombinant AAV (rAAV) use in large clinical trials that require even moderate vector doses. Therefore, AGTC has developed a high-yielding, scalable rAAV production system in suspension BHK cells that employs co-infection with two hybrid rHSV-rAAV vectors to provide all cis and trans-acting rAAV elements and the requisite helper virus functions for rAAV manufacturing.
In contrast to traditional, resin-based chromatography methods for rAAV purification, we have developed a two-step chromatographic process that employs a novel anion exchange Convective Interaction Media® monolithic column (CIM® monolith, BIA Separations) capture step followed by affinity chromatography (AVB Sepharose™, GE Healthcare), which yields rAAV vector stocks in very high purity. This scalable process allows significant reduction in processing time due to the high capture step dynamic binding capacity, flow rates and resolution. The resulting overall chromatography recovery compares favorably to our first and second generation processes which used three-step, resin-based column chromatography and membrane-based two step chromatography, respectively.
The CIM QA-AVB process was scaled to accommodate 10 L suspension production runs and was successful at recovering as much as 1 × 1015 purified AAV1 DRP in a single day. The process is highly reproducible and it is applicable for the purification of multiple AAV serotypes with over 95% purity and overall yield of > 30%.