CHO-derived recombinant proteins for human therapeutic are used commonly. There are noninfectious endogenous retroviruses in CHO cells. Validation study for inactivation process is required. Murine xenotropic gamma retrovirus (X-MulV) is a model virus in validation study. In our previous study, optimum conditions for X-MulV inactivation were sifted. In this study, we performed a further research on low pH inactivation for evaluation of X-MulV clearance in manufacturing of recombinant human TNF-α receptor immunoglobulin G fusion proteins (rhTNF-α) for injection. Cell-based infectivity assay was used for the evaluation of X-MulV clearance. RhTNF-α were spiked with X-MulV and were inactivated at pH 3.60 ∼ 3.90, 25 ± 2 °C, and 0 ∼ 240 min, respectively. Samples incubated at the conditions for 15 ∼ 180 min were not inactivated effectively. For 4 h incubation, log10 reductions were achieved 5.0 log10. Biological activity of rhTNF-α incubated at pH 3.60, 25 °C for 4 h, which was assayed on murine L929 fibroblasts cells, was not affected by low pH. Env gene of X-MulV, which was detected by conventional PCR method for the first time, was not detected after incubation at pH 3.60, and it may be the mechanism of low pH inactivation.
Keywords: CHO; CHO cells; Chinese hamster ovary; Env; Envelope; Envelope gene; L929 cells; Low pH; Murine xenotropic gamma retrovirus; PCR; PG-4 cells S + L-; Polymerase chain reaction; Recombinant human TNF receptor immunoglobulin G fusion proteins; X-MulV; rhTNF-α.
Copyright © 2013. Published by Elsevier Ltd.