Designs and Characterization of Subunit Ebola GP Vaccine Candidates: Implications for Immunogenicity

The humoral responses of Ebola virus (EBOV) survivors mainly target the surface glycoprotein GP, and anti-GP neutralizing antibodies have been associated with protection against EBOV infection. In order to elicit protective neutralizing antibodies through vaccination a native-like conformation of the antigen is required. We therefore engineered and expressed in CHO cells several GP variants from EBOV (species Zaire ebolavirus, Mayinga variant), including a soluble GP Delta TM, a mucin-like domain-deleted GP Delta TM-Delta MUC, as well as two GP Delta TM-Delta MUC variants with C-terminal trimerization motifs in order to favor their native trimeric conformation. Inclusion of the trimerization motifs resulted in proteins mimicking GP metastable trimer and showing increased stability. The mucin-like domain appeared not to be critical for the retention of the native conformation of the GP protein, and its removal unmasked several neutralizing epitopes, especially in the trimers. The soluble GP variants inhibited mAbs neutralizing activity in a pseudotype transduction assay, further confirming the proteins' structural integrity. Interestingly, the trimeric GPs, a native-like GP complex, showed stronger affinity for antibodies raised by natural infection in EBOV disease survivors rather than for antibodies raised in volunteers that received the ChAd3-EBOZ vaccine. These results support our hypothesis that neutralizing antibodies are preferentially induced when using a native-like conformation of the GP antigen. The soluble trimeric recombinant GP proteins we developed represent a novel and promising strategy to develop prophylactic vaccines against EBOV and other filoviruses.

Scalable transient gene expression in Chinese hamster ovary cells in instrumented and non-instrumented cultivation systems

Madiha Derouazi, David Hacker, Martin Jordan, Natalie Muller, Sarah Wulhfard, Florian Maria Wurm

Cell expansion, gene transfer and protein production were all executed with a single serum-free, animal protein-free commercial medium designed for suspension-adapted Chinese hamster ovary cells (CHO DG44). This is a most important process to consider for clinical production of recombinant proteins. The transfection with polyethylenimine (PEI) was shown here to be scalable using both stirred-tank bioreactors of 3- and 150-l and novel agitated cultivation vessels (50 ml ventilated centrifuge tubes and 1-l square-shaped glass bottles) that lack any instrumentation. The transient transfections spanned a range of working volumes from 2 ml to 80 l. The maximum transient recombinant antibody yield was 22 mg/l, the highest ever reported for a multiliter transfection in CHO. The transiently expressed protein had the same extent of glycosylation as the same antibody produced from a stably transfected recombinant CHO cell line.

Kluwer Academic Publishers, Springer2007

Transient recombinant protein expression in mammalian cells

Sarah Wulhfard

Transient gene expression (TGE) is a rapid method for generating recombinant proteins in mammalian cells, but the volumetric productivities for secreted proteins in transiently transfected CHO DG44 cells are typically more than an order of magnitude lower than the yields achieved with recombinant CHO-derived cell lines. The goals of the thesis are to identify the limitations to higher TGE yields in CHO DG44 cells and to find possible solutions to overcome the problems. Initially an attempt was made to enhance TGE production by increasing the amount of transfected plasmid DNA. However, this approach did not result in increased recombinant protein levels; on the contrary, transfection with an excess of plasmid DNA (> 1.25 μg/ml) had a negative impact on transgene mRNA levels and protein production. Moreover, it was also observed that recombinant protein yield was strongly dependent on the mRNA level. Therefore, three strategies aimed at increasing the amount of transgene mRNA were investigated. For the first approach, transfected cells were exposed to hypothermic conditions during the production phase. It was already known that lower temperatures increase protein production several fold in recombinant CHO DG44-derived cell lines. The second strategy involved the treatment of transfected cells with valproic acid, a histone deacetylase inhibitor that reduces the effects of gene silencing. The third approach aimed to increase transgene mRNA levels by overexpressing transcription factors and growth factors. With the first two strategies recombinant antibody yields of 60-80 mg/L were achieved whereas the untreated control transfections produced only 5-10 mg/L. Combination of the two strategies led to the production of 90 mg/L of antibody. Moreover, in the treated cultures, the steady-state level of transgene mRNA was 3-5 times higher than in the untreated cultures and remained stable up to 6 days post-transfection. Using the third approach, the increase in recombinant protein production was moderate and transgene mRNA amounts were only 2-fold higher in treated samples compared to the control. When specific proteins such as c-fos, c-jun, NF-kB, and acidic fibroblast growth factor (aFGF) were overexpressed the recombinant antibody production was 20 mg/L compared to 5 mg/L for the control transfection. Overexpression of either a transcription factor or a growth factor in combination with treatment with valproic acid allowed the recombinant protein yield to reach 90 mg/L. However, the benefit of the overexpressed factors was minimal compared to the effect of valproic acid alone. In conclusion, it was demonstrated that the level and stability of transgene mRNA are important factors for increasing volumetric yields in transiently transfected CHO DG44 cells. Furthermore, three approaches aimed to increase mRNA amounts were tested. Exposure to hypothermic conditions and treatment with valproic acid were the two best strategies tested. Both are simple, cost-effective, and scalable making transient gene expression in CHO DG44 cells a feasible alternative for rapid production of gram amounts of recombinant protein.

EPFL2009

Nonneutralizing antibodies binding to the surface glycoprotein of lymphocytic choriomeningitis virus reduce early virus spread

Nicola Harris

The biological relevance of nonneutralizing antibodies elicited early after infection with noncytopathic persistence-prone viruses is unclear. We demonstrate that cytotoxic T lymphocyte-deficient TgH(KL25) mice, which are transgenic for the heavy chain of the lymphocytic choriomeningitis virus (LCMV)-neutralizing monoclonal antibody KL25, mount a focused neutralizing antibody response following LCMV infection, and that this results in the emergence of neutralization escape virus variants. Further investigation revealed that some of the escape variants that arose early after infection could still bind to the selecting antibody. In contrast, no antibody binding could be detected for late isolates, indicating that binding, but nonneutralizing, antibodies exerted a selective pressure on the virus. Infection of naive TgH(KL25) mice with distinct escape viruses differing in their antibody-binding properties revealed that nonneutralizing antibodies accelerated clearance of antibody-binding virus variants in a partly complement-dependent manner. Virus variants that did not bind antibodies were not affected. We therefore conclude that nonneutralizing antibodies binding to the same antigenic site as neutralizing antibodies are biologically relevant by limiting early viral spread.

2006

Transient recombinant protein expression in mammalian cells

Sarah Wulhfard

EPFL2009