Optimization of recombinant adeno-associated virus (rAAV) production has important clinical implications, as manufacturing is one of the major challenges for rAAV gene therapy. In this study, we optimized upstream and downstream processing of the rAAV production platform created by an earlier design-of-experiment approach. Our results showed that adding peptones (yeastolate, Trypton N1 or both) increased production yield by 2.8- to 3.4-folds. For downstream processing, a variety of wash buffers for an affinity resin, POROS™ CaptureSelect™ (PCS)-AAVX, were tested for their effects on rAAV8 purity, including NaCl, MgCl2, arginine, Triton X-100, CHAPS, Tween 20, octyl β-d-1-thioglucopyranoside (OTG), and low pH. The results showed that the OTG wash significantly improved the rAAV purity to 97% and reduced endotoxins to an undetectable level (<0.5 EU/mL), while retaining the yield at 92.3% of the phosphate-buffered saline (PBS) wash. The OTG wash was successfully applied to purifications of rAAV1, rAAV2, and rAAV5 using PCS-AAVX, and rAAV9 using PCS-AAV9. rAAV8 purified with OTG wash showed comparable transduction efficiency in HEK 293T cells to the rAAV8 purified with PBS wash. The optimized rAAV production process yielded 5.5-6.0 × 1014 and 7.6 × 1014 vector genome per liter of HEK 293T cells for purified rAAV8- and rAAV5-EF1α-EGFP (enhanced green fluorescent protein), respectively. The platform described in this study is simple with high yields and purity, which will be beneficial to both research and clinical gene therapy.
Keywords: affinity chromatography; endotoxin; octyl β-d-1-thioglucopyranoside; peptone; rAAV.