Aurelija Zvirbliene

Segments of Puumala Hantavirus Nucleocapsid Protein Inserted into Chimeric Polyomavirus-Derived Virus-Like Particles Induce a Strong Immune Response in Mice

Insertion of a short-sized epitope at four different sites of yeast-expressed hamster polyomavirus major capsid protein VP1 has been found to result in the formation of chimeric virus-like particles. Here, we demonstrate that the insertion of 45 or 120 amino acid-long segments from the N-terminus of Puumala hantavirus nucleocapsid protein into sites 1 (amino acids 80-89) and 4 (amino acids 288-295) of VP1 allowed the highly efficient formation of virus-like particles. In contrast, expression level and assembly capacity of fusions to sites 2 (amino acids 222-225) and 3 (amino acids 243-247) were drastically reduced. Immunization of BALB/c mice with chimeric virus-like particles induced a high-titered antibody response against the hantavirus nucleocapsid protein, even in the absence of any adjuvant. The strongest response was observed in mice immunized with virus-like particles harboring 120 amino acids of hantavirus nucleocapsid protein. According to the immunoglobulin subclass distribution of nucleocapsid protein-specific antibodies a mixed Th1/Th2 response was detected. The VP1 carrier itself also induced a mixed Th1/Th2 response, which was found to be reduced in mice immunized with virus-like particles harboring 120 amino acid-long inserts. In conclusion, hamster polyomavirus VP1 represents a promising carrier moiety for future vaccine development.

Development of a measles specific IgM ELISA for use with serum and oral fluid samples using recombinant measles nucleoprotein produced in Saccharomyces cerevisiae

In order to develop sensitive assays for detecting measles antibodies in oral fluid specimens, we have produced recombinant measles virus nucleoprotein (rMVN) in a yeast expression system and prepared monoclonal antibodies to the protein. Measles nucleoprotein gene from the Schwarz vaccine strain was cloned into a yeast expression vector, pFX7 under the control of the hybrid GAL10-PYK1 promoter. High levels of rMVN (20 mg/litre of yeast culture) were generated. Electron microscopy showed that the purified rMVN assembled into typical herring-bone structures. Monoclonal antibodies produced to the rMVN also reacted with native measles virus N in immunofluorescence tests. The purified rMVN and a monoclonal antibody to the rMVN conjugated to horseradish peroxidase were used to develop a measles specific IgM capture EIA (MACEIA) in both serum and oral fluid specimens. Evaluations of the MACEIA were performed by testing a) serum samples (n=80) and b) paired oral fluid/serum samples from measles cases (n=50, representing 16 cases) and oral fluids from controls with non-measles rash (n=59, representing 48 cases). The samples were also tested for measles IgM, using a reference radioimmunoassay (MACRIA). The sensitivity and specificity of the MACEIA compared with MACRIA for a) the serum samples were 100 and 96.6% respectively and b) for paired serum/oral fluids samples 100 and 100%, respectively.

Influenza Virus Ribonucleoprotein Complexes Gain Preferential Access to Cellular Export Machinery through Chromatin Targeting

In contrast to most RNA viruses, influenza viruses replicate their genome in the nucleus of infected cells. As a result, newly-synthesized vRNA genomes, in the form of viral ribonucleoprotein complexes (vRNPs), must be exported to the cytoplasm for productive infection. To characterize the composition of vRNP export complexes and their interplay with the nucleus of infected cells, we affinity-purified tagged vRNPs from biochemically fractionated infected nuclei. After treatment of infected cells with leptomycin B, a potent inhibitor of Crm1-mediated export, we isolated vRNP export complexes which, unexpectedly, were tethered to the host-cell chromatin with very high affinity. At late time points of infection, the cellular export receptor Crm1 also accumulated at the same regions of the chromatin as vRNPs, which led to a decrease in the export of other nuclear Crm1 substrates from the nucleus. Interestingly, chromatin targeting of vRNP export complexes brought them into association with Rcc1, the Ran guanine exchange factor responsible for generating RanGTP and driving Crm1-dependent nuclear export. Thus, influenza viruses gain preferential access to newly-generated host cell export machinery by targeting vRNP export complexes at the sites of Ran regeneration.

Genetic and biochemical diversity of Gardnerella vaginalis strains isolated from women with bacterial vaginosis

Gardnerella vaginalis is considered a substantial player in the progression of bacterial vaginosis (BV). We analysed 17 G. vaginalis strains isolated from the genital tract of women diagnosed with BV to establish a potential link between genotypes/biotypes and the expression of virulence factors, vaginolysin (VLY) and sialidase, which are assumed to play a substantial role in the pathogenesis of BV. Amplified ribosomal DNA restriction analysis revealed two G. vaginalis genotypes. Gardnerella vaginalis isolates of genotype 2 appeared more complex than genotype 1 and were subdivided into three subtypes. Biochemical typing allowed us to distinguish four different biotypes. A great diversity of the level of VLY production among the isolates of G. vaginalis may be related to a different cytotoxicity level of the strains. We did not find any correlation between VLY production level and G. vaginalis genotype/biotype. In contrast, a link between G. vaginalis genotype and sialidase production was established. Our findings on the diversity of VLY expression level in different clinical isolates and linking sialidase activity with the genotype of G. vaginalis could help to evaluate the pathogenic potential of different G. vaginalis strains.

Phylogenetic analysis of Puumala virus subtype Bavaria, characterization and diagnostic use of its recombinant nucleocapsid protein

Puumala virus (PUUV) is the predominant hantavirus species in Germany causing large numbers of mild to moderate cases of haemorrhagic fever with renal syndrome (HFRS). During an outbreak in South-East Germany in 2004 a novel PUUV subtype designated Bavaria was identified as the causative agent of HFRS in humans [1]. Here we present a molecular characterization of this PUUV strain by investigating novel partial and almost entire nucleocapsid (N) protein-encoding small (S-) segment sequences and partial medium (M-) segment sequences from bank voles (Myodes glareolus) trapped in Lower Bavaria during 2004 and 2005. Phylogenetic analyses confirmed their classification as subtype Bavaria, which is further subdivided into four geographical clusters. The entire N protein, harbouring an amino-terminal hexahistidine tag, of the Bavarian strain was produced in yeast Saccharomyces cerevisiae and showed a slightly different reactivity with N-specific monoclonal antibodies, compared to the yeast-expressed N protein of the PUUV strain Vranica/Hällnäs. Endpoint titration of human sera from different parts of Germany and from Finland revealed only very slight differences in the diagnostic value of the different recombinant proteins. Based on the novel N antigen indirect and monoclonal antibody capture IgG-ELISAs were established. By using serum panels from Germany and Finland their validation demonstrated a high sensitivity and specificity. In summary, our investigations demonstrated the Bavarian PUUV strain to be genetically divergent from other PUUV strains and the potential of its N protein for diagnostic applications.

Production and characterization of monoclonal antibodies against vaginolysin: Mapping of a region critical for its cytolytic activity

Vaginolysin (VLY) is a protein toxin released by Gardnerella vaginalis. VLY belongs to the group of cholesterol-dependent cytolysins (CDCs). We have generated a panel of novel monoclonal antibodies (MAbs) against VLY. For the generation of MAbs, we have used recombinant VLY expressed in Escherichia coli. The functional activity of recombinant VLY was confirmed by an in vitro hemolytic assay using human erythrocytes. The MAbs raised against recombinant VLY were reactive with VLY from G. vaginalis both by Western blot and ELISA. The cross-reactivity of MAbs with other CDCs was investigated. For this purpose, recombinant cytolysins perfringolysin, listeriolysin, intermedilysin, pneumolysin and streptolysin were expressed in E. coli. The MAbs were specific exclusively to VLY and did not react with other CDCs. All MAbs were studied for the ability to neutralize hemolytic activity of VLY in vitro and several neutralizing MAbs were identified. The MAb produced by clone 9B4 showed the most potent neutralizing activity. The epitope for this MAb was localized near the N-terminus of VLY, between amino acid (aa) residues 112 and 268. The region recognized by the neutralizing MAb 9B4 includes the conserved motif (VAARMQYD, aa 189-196) supposed to be involved in VLY oligomerization. Selected MAbs were employed to develop a sandwich ELISA for VLY quantification. The MAb-based immunoassay was suitable for the detection of VLY in the cultures of G. vaginalis. In conclusion, the MAbs described in the current study may be useful for structural and functional studies of VLY as well as immunodetection of VLY in biological specimens.

Insights into the CRISPR/Cas system of Gardnerella vaginalis

BackgroundGardnerella vaginalis is identified as the predominant colonist of the vaginal tracts of women diagnosed with bacterial vaginosis (BV). G. vaginalis can be isolated from healthy women, and an asymptomatic BV state is also recognised. The association of G. vaginalis with different clinical phenotypes could be explained by different cytotoxicity of the strains, presumably based on disparate gene content. The contribution of horizontal gene transfer to shaping the genomes of G. vaginalis is acknowledged. The CRISPR loci of the recently discovered CRISPR/Cas microbial defence system provide a historical view of the exposure of prokaryotes to a variety of foreign genetic elements.ResultsThe CRISPR/Cas loci were analysed using available sequence data from three G. vaginalis complete genomes and 18 G. vaginalis draft genomes in the NCBI database, as well as PCR amplicons of the genomic DNA of 17 clinical isolates. The cas genes in the CRISPR/Cas loci of G. vaginalis belong to the E. coli subtype. Approximately 20% of the spacers had matches in the GenBank database. Sequence analysis of the CRISPR arrays revealed that nearly half of the spacers matched G. vaginalis chromosomal sequences. The spacers that matched G. vaginalis chromosomal sequences were determined to not be self-targeting and were presumably neither constituents of mobile-element-associated genes nor derived from plasmids/viruses. The protospacers targeted by these spacers displayed conserved protospacer-adjacent motifs.ConclusionsThe CRISPR/Cas system has been identified in about one half of the analysed G. vaginalis strains. Our analysis of CRISPR sequences did not reveal a potential link between their presence and the virulence of the G. vaginalis strains. Based on the origins of the spacers found in the G. vaginalis CRISPR arrays, we hypothesise that the transfer of genetic material among G. vaginalis strains could be regulated by the CRISPR/Cas mechanism. The present study is the first attempt to determine and analyse the CRISPR loci of bacteria isolated from the human vaginal tract.

Cellular and humoral immunogenicity of hamster polyomavirus-derived virus-like particles harboring a mucin 1 cytotoxic T-cell epitope

In this study, we examined hamster polyomavirus (HaPyV) major capsid protein VP1-derived virus-like particles (VLPs) as a carrier for a human tumor-associated cytotoxic T lymphocyte (CTL) epitope. The VP1 tolerated the insertion of an HLA-*A2-restricted CTL epitope from human mucin 1 (MUC1) into two sites independently and simultaneously, without interfering with assembly of chimeric VLPs. Chimeric VLPs did not differ in the entry pathway or maturation potential of human dendritic cells (hDCs) compared to unmodified VLPs. Recently we demonstrated that immunization of BALB/c mice with chimeric VLPs harboring two MUC1 insertions resulted in the generation of MUC1-specific monoclonal antibodies. Here we demonstrate that the monoclonal antibodies generated react specifically with human tumor cells. Co-cultivation of chimeric VLP-primed hDCs with autologous peripheral blood leukocytes resulted in the activation of MUC1 epitope-specific CD8(+) T cells. This was evidenced by IFN-gamma secretion of an expanded MUC1-specific CD8(+) T-cell pool. The induction of epitope-specific T cells in a human in vitro model and of murine MUC1-reactive antibodies in vivo indicate the potential of chimeric HaPyV VP1-derived VLPs as a delivery vehicle for immunotherapeutic targets.

Mapping of B cell epitopes in measles virus nucleocapsid protein

Summary.The B-cell response against measles nucleoprotein (MeN) plays an important role in the control of measles infection. However, the data on B cell epitopes of MeN are still limited. The objective of this study was to identify B cell epitopes in MeN using monoclonal and polyclonal antibodies raised against recombinant yeast-expressed MeN (rMeN) as well as human sera from measles-positive individuals. After immunization of mice, 15 monoclonal antibodies (mAbs) against rMeN were generated. The B cell epitopes were localized using recombinant overlapping MeN fragments, PepScan analysis, and competitive ELISA. The epitopes of 14 mAbs were mapped within the C-terminus of MeN between amino acids (aa) 419 and 525. Four mAbs recognized a linear epitope located within a sequence of aa 440–448. Competitive ELISA revealed a cluster of conformational mAb epitopes. Cross-inhibition studies with human sera demonstrated similar localization of B cell epitopes recognized by serum antibodies from naturally infected individuals. Thus, the majority of B cell epitopes are located at the C-terminal domain of MeN. These findings provide new data on the antigenic structure of MeN and are in agreement with recent experimental evidence indicating that the C-terminal domain of MeN is well accessible on the surface of nucleocapsid-like structures.

Generation in yeast of recombinant virus-like particles of porcine circovirus type 2 capsid protein and their use for a serologic assay and development of monoclonal antibodies

BackgroundPorcine circovirus type 2 (PCV2) is considered to be an important emerging pathogen associated with a number of different syndromes and diseases in pigs known as PCV2-associated diseases. It has been responsible for significant mortality among pigs and remains a serious economic problem to the swine industry worldwide leading to significant negative impacts on profitability of pork production.ResultsIn this study we have demonstrated that PCV2 capsid (Cap) protein based virus-like particles (VLPs) were efficiently produced in yeast S. cerevisiae and induced production of monoclonal antibodies (MAbs) reactive with virus-infected cells. Moreover, PCV2 Cap VLPs served as a highly specific recombinant antigen for the development of an indirect IgG PCV2 Cap VLP-based ELISA for the detection of virus-specific IgG antibodies in swine sera. Four hundred-nine serum samples collected from pigs in Lithuania were tested for PCV2-specific IgG to determine the sensitivity and specificity of the newly developed ELISA in parallel using a commercial SERELISA test as a gold standard. From 409 tested serum samples, 297 samples were positive by both assays. Thirty-nine sera from 112 serum samples were determined as negative by SERELISA but were found to be positive both in the newly developed indirect IgG PCV2 Cap VLP-based ELISA and the PCR test.ConclusionsWe have demonstrated that S. cerevisiae expression system is an alternative to insect/baculovirus expression system for production of homogenous in size and shape PCV2 Cap protein-based VLPs similar to native virions. Yeast expression system tolerated native virus genes encoding PCV2 Cap protein variants as well as the codon-optimized gene. Moreover, yeast-derived PCV2 Cap VLPs were capable to induce the generation of PCV2-specific MAbs that did not show any cross-reactivity with PCV1-infected cells. The high sensitivity and specificity of the indirect IgG PCV2 Cap VLP-based ELISA clearly suggested that this assay is potentially useful diagnostic tool for screening PCV2–suspected samples.