James Angelo  Srinivas Chollangi  Thomas Müller-Späth  Simona Jusyte  Xuankuo Xu  Sanchayita Ghose  Zhengjian Li 《Biotechnology and bioengineering》2019,116(9):2275-2284

Multicolumn capture chromatography is gaining increased attention lately due to the significant economic and process advantages it offers compared with traditional batch mode chromatography. However, for wide adoption of this technology in clinical and commercial space, it requires scalable models for executing viral validation studies. In this study, viral validation studies were conducted under cGLP guidelines to assess retro- (X-MuLV) and parvo-virus (MVM) clearance across twin-column continuous capture chromatography (CaptureSMB). A surrogate model was also developed using standard batch mode chromatography based on flow path modifications to mimic the loading strategy used in CaptureSMB. The results show that a steady state was achieved by the second cycle for both antibody binding and virus clearance and that the surrogate model using batch mode chromatography equipment provided impurity clearance that was comparable to that obtained during cyclical operation of CaptureSMB. Further, the log reduction values (LRVs) achieved during CaptureSMB were also comparable to the LRVs obtained using standard batch capture chromatography. This was expected since the mode of virus separation during protein A chromatography is primarily based on removal during the flow through and wash steps. Finally, this study also presents assessments on the resin cleaning strategy during continuous chromatography and how the duration of clean-in-place solution exposure impacts virus carryover.  相似文献   

    

Bin Yang  Hua Wang  Kimberly Kaleas  Michelle Butler  Jayme Franklin  Amber Bill  Sally A. Baylis  Qi Chen  Johannes Blümel 《Biotechnology progress》2020,36(4):e2968

The contamination of oral rotavirus vaccines by porcine circovirus (PCV) raised questions about potential PCV contamination of other biological products when porcine trypsin or pepsin is used in production process. Several methods can be potentially implemented as a safety barrier when animal derived trypsin or pepsin is used. Removal of PCV is difficult by the commonly used viral filters with the pore size cutoff of approximately 20 nm because of the smaller size of PCV particles that are around 17 nm. It was speculated that operating the chromatography step at a pH higher than pepsin's low pI, but lower than pIs, of most viruses would allow the pepsin to flow through the resin and be recovered from the flow through pool whilst the viruses would be retained on the resin. In this study, we investigated low pH inactivation of viruses including PCV Type 1 (PCV1) and PCV1 removal by cation exchange chromatography (CEX) in the presence of pepsin. Both parvovirus and PCV1 could be effectively inactivated by low pH and PCV1 could be removed by POROS 50HS CEX. The POROS 50HS method presented in this article is helpful for designing other CEX methods for the same purpose and not much difference would be expected for similar product intermediates and same process parameters. While the effectiveness needs to be confirmed for specific applications, the results demonstrate that both low pH (pH 1.7) and CEX methods were successful in eliminating PCV1 and thus either can be considered as an effective virus barrier.  相似文献   

    

Rachel Dyer  Yuanli Song  Jie Chen  Elizabeth Bigelow  Jennifer McGinnis  Lauren Jenkins  Sanchayita Ghose  Zheng Jian Li 《Biotechnology progress》2020,36(6):e3057

Viral safety is required for biological products to treat human diseases, and the burden of inactivation and or virus removal lies on the downstream purification process. Minute virus of mice (MVM) is a nonenveloped parvovirus commonly used as the worst-case model virus in validation studies because of its small size and high chemical stability. In this study, we investigated the use of MVM-mock virus particle (MVP) and bacteriophage ΦX174 as surrogates for MVM to mimic viral clearance studies, with a focus on chromatography operations. Based on structural models and comparison of log reduction value among MVM, MVP, and ΦX174, it was demonstrated that MVP can be used as a noninfectious surrogate to assess viral clearance during process development in multiple chromatography systems in a biosafety level one (BSL-1) laboratory. Protein A (ProA) chromatography was investigated to strategically assess the impact of the resin, impurities, and the monoclonal antibody product on virus removal.  相似文献