Background: Human parvovirus 4 (PARV4) is a recently discovered member of the Parvoviridae family, which is not closely related to any previously discovered human parvoviruses. PARV4 has been isolated from the plasma of individuals with symptoms of acute viral infection; however, until recently PARV4 had not been associated with any disease, and its prevalence in the human population is yet to be established. Methods: The major capsid protein VP2 of PARV4 was generated in the yeast Saccharomyces cerevisiae and used for serological detection of virus-specific IgG and IgM in the sera of low-risk individuals. Results: One hundred and seventy serum specimens obtained from patients with acute respiratory diseases were tested for PARV4-specific IgG and IgM antibodies. Sixteen individuals (9.4%) were diagnosed as seropositive, including 6 IgM and IgG positive, 6 IgM positive/IgG negative and 4 IgG positive/IgM negative. Seven of the 16 seropositive individuals were between the ages of 3 and 11 with no evidence of parenteral exposure to PARV4 infection. Conclusion: Our data demonstrate that recombinant yeast-derived VP2 protein, self-assembled to virus-like particles, can represent a useful tool when studying the seroprevalence of PARV4 infection. The presence of PARV4-specific antibodies in a low-risk group may indicate the possibility of alternative routes of virus transmission.
To generate a hepatitis E virus (HEV) genotype 3 (HEV-3)–specific monoclonal antibody (mAb), the Escherichia coli–expressed carboxy-terminal part of its capsid protein was used to immunise BALB/c mice. The immunisation resulted in the induction of HEV-specific antibodies of high titre. The mAb G117-AA4 of IgG1 isotype was obtained showing a strong reactivity with the homologous E. coli, but also yeast-expressed capsid protein of HEV-3. The mAb strongly cross-reacted with ratHEV capsid protein derivatives produced in both expression systems and weaker with an E. coli–expressed batHEV capsid protein fragment. In addition, the mAb reacted with capsid protein derivatives of genotypes HEV-2 and HEV-4 and common vole hepatitis E virus (cvHEV), produced by the cell-free synthesis in Chinese hamster ovary (CHO) and Spodoptera frugiperda (Sf21) cell lysates. Western blot and line blot reactivity of the mAb with capsid protein derivatives of HEV-1 to HEV-4, cvHEV, ratHEV and batHEV suggested a linear epitope. Use of truncated derivatives of ratHEV capsid protein in ELISA, Western blot, and a Pepscan analysis allowed to map the epitope within a partially surface-exposed region with the amino acid sequence LYTSV. The mAb was also shown to bind to human patient–derived HEV-3 from infected cell culture and to hare HEV-3 and camel HEV-7 capsid proteins from transfected cells by immunofluorescence assay. The novel mAb may serve as a useful tool for further investigations on the pathogenesis of HEV infections and might be used for diagnostic purposes.
Key points
• The antibody showed cross-reactivity with capsid proteins of different hepeviruses.
• The linear epitope of the antibody was mapped in a partially surface-exposed region.
• The antibody detected native HEV-3 antigen in infected mammalian cells.
Hepatitis E is a globally distributed human disease caused by hepatitis E virus (HEV). In Europe, it spreads through undercooked pork meat or other products and with blood components through transfusions. There are no approved or golden standard serologic systems for HEV diagnostics. Commercially available HEV tests often provide inconsistent results which may differ among the assays. In this study, we describe generation in yeast and characterization of HEV genotype 3 (HEV-3) and rat HEV capsid proteins self-assembled into virus-like particles (VLPs) and the development of HEV-specific monoclonal antibodies (MAbs). Full-length HEV-3 and rat HEV capsid proteins and their truncated variants comprising amino acids (aa) 112-608 were produced in yeast S. cerevisiae. The yeast-expressed rat HEV capsid protein was found to be glycosylated. The full-length HEV-3 capsid protein and both full-length and truncated rat HEV capsid proteins were capable to self-assemble into VLPs. All recombinant proteins contained HEV genotype-specific linear epitopes and cross-reactive conformational epitopes recognized by serum antibodies from HEV-infected reservoir animals. Two panels of MAbs against HEV-3 and rat HEV capsid proteins were generated. Their cross-reactivity pattern was investigated by Western blot, ELISA, and immunofluorescence assay on HEV-3-infected cell cultures. The analysis revealed cross-reactive, genotype-specific, and virus-reactive MAbs. MAb epitopes were localized within S, M, and P domains of HEV-3 and rat HEV capsid proteins. Yeast-generated recombinant VLPs of HEV-3 and rat HEV capsid proteins and HEV-specific MAbs might be employed to develop novel HEV detection systems.
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