Abstract
B18R protein of Vaccinia virus binds to type I interferons and inhibits activation of interferon-mediated signal transduction. Cells which have unimpaired interferon signaling such as primary cell cultures or some industrially important cell lines are capable of development of an antiviral state. An establishment of the antiviral state limits replication of RNA-viruses and can suppress replication of RNA vectors. The interferon inhibitor B18R effectively prevents the establishment of the antiviral state. For this reason, B18R has become a ubiquitous component of protocols for epigenetic reprogramming which use transfections of RNA replicons or mRNA. Despite wide practical applicability, commercially available B18R is predominantly produced in cell cultures and little information has been published on a production and use of bacterially expressed B18R. Objectives of this study were to produce B18R in an E.coli expression system and to confirm the product’s biological activity by using it to maintain RNA-vectors in cell cultures capable of the antiviral state. The described method allows the expression and efficient refolding to obtain 10–100 mg of B18R from a small-scale culture and the production process is economically attractive compared to a use of an eukaryotic expression. To check for a presence of the biological activity of bacterially-expressed B18R the protein was used to support persistence of an autonomously replicating RNA-vector in a cell culture which is capable of the antiviral state. A RNA-containing virus, Venezuelan equine encephalitis virus (VEE) can serve as an efficient vector for heterologous expression in cell cultures, although its replication is sensitive to the effects of type I interferons which limit a range of cell lines for a use with this vector. The VEE replicon was utilized to direct an expression of recombinant human granulocyte colony stimulating factor (G-CSF). The producing replicon could persist in HEK293 cells for sufficiently long time only in presence of B18R, whereas addition of B18R not only allowed persistence of the replicon but also increased production from the replicon. A model product granulocyte colony stimulating factor accumulated to 35.5 μg/ml during a 7 day experiment. This work describes efficacious expression and refolding of the viral cytokine inhibitor and demonstrates a utility of bacterially-expressed B18R.
Highlights
Various types of eukaryotic vectors have been developed to engineer a recombinant expression in cell cultures
There are 35 species which are grouped into subgroups in accordance with their geographic prevalence and named after their most studied members, e.g. the Semliki Forest virus (SFV) subgroup, Sindbis virus (SIN) subgroup and Venezuelan equine encephalitis virus (VEE) subgroup
The SEC column was calibrated by determining retention times for lysozyme (Mw 14.3 kDa) and bovine serum albumin (BSA; Mw ~66 kDa)
Summary
Various types of eukaryotic vectors have been developed to engineer a recombinant expression in cell cultures. The most popular virus backbones used as vectors in mammalian cell cultures (i.e., excluding applications in gene therapy) are adenoviruses [1], retroviruses [2] and in particular lentiviruses [3], poxviruses (Vaccinia virus) [4] and modified baculoviruses (viruses of insects) engineered to express mammalian gene cassettes [5]. All these vectors are either DNA viruses (i.e., they have a DNA genome), or viruses which have obligatory reverse transcription in their life cycles which results in a generation of DNA-copies of the genomes (proviruses), and the proviruses are integrated into a host’s genome. Ultimate consequences of the IFN-induced regulation include degradation of double-stranded RNAs (the replicative intermediate of RNA-viruses) and inhibition of protein synthesis
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