Use of rubella virus E1 fusion proteins for detection of rubella virus antibodies

Saliva as an alternative specimen for detection of Schmallenberg virus-specific antibodies in bovines

Background

Schmallenberg virus (SBV), discovered in continental Europe in late 2011, causes mild clinical signs in adult ruminants, including diarrhoea and reduced milk yield. However, fetal infection can lead to severe malformation in newborn offspring. Enzyme-linked immunosorbent assays (ELISA) are commercially available for detection of SBV-specific antibodies in bovine sera and milk. Here we describe the development and evaluation of an indirect ELISA based on a yeast derived recombinant SBV nucleocapsid protein (N) for the detection of SBV-specific antibodies in bovine saliva. Development of a non-invasive test to detect antibodies in individual bovine saliva samples could potentially provide a test suitable for calves and adult cattle. The aim of this study was to investigate the agreement between the levels of antibodies (IgG) measured in milk and sera, and the level of antibodies (IgG and IgA) in saliva, in comparison with the antibody levels detected in sera and milk with commercially available test.

Results

Serum, milk and saliva samples from 58 cows were collected from three dairy herds in Lithuania and tested for the presence of SBV-specific antibodies. The presence of IgG antibodies was tested in parallel serum and milk samples, while the presence of IgA and IgG antibodies was tested in saliva samples. The presence of SBV-specific IgG and IgA in saliva was tested using an indirect ELISA based on a yeast-derived recombinant N protein. The presence of SBV-specific IgG in milk and sera was tested in parallel using a commercial recombinant protein based test. The sensitivities of the newly developed tests were as follows: 96 % for the IgG serum assay and 94 % for the IgG milk assay and 85 % and 98 % for IgG and IgA in saliva tests, when compared with data generated by a commercial IgG assay.

Conclusions

Data from testing the saliva IgG and IgA and also the milk and serum IgG with indirect SBV-specific ELISAs showed close agreement with the commercial serum and milk IgG assay data. The level of IgG in saliva was notably lower in comparison to IgA. The newly developed method exhibits the potential to serve as an easily transferable tool for epidemiological studies.

Electronic supplementary material

The online version of this article (doi:10.1186/s12917-015-0552-0) contains supplementary material, which is available to authorized users.

Baculovirus-mediated large-scale expression and purification of a polyhistidine-tagged rubella virus capsid protein

The capsid protein of rubella virus was produced in baculovirus-infected Spodoptera frugiperda insect cells, with a polyhistidine affinity tag at the carboxy terminus. The RV capsid recombinant protein was produced in a 10-liter bioreactor and purified, under nondenaturing conditions, using immobilized metal-ion affinity chromatography. Immunoblot analyses indicated that the purified recombinant protein was intact and migrated with the expected molecular weight. The final yield was 5 mg of purified protein per liter of cell culture. Surface plasmon resonance was used to investigate the antigenic potential of the histidine tagged capsid protein in an antigen-antibody interaction study. A specific interaction between the two proteins was shown. Our results suggest that this strategy should be useful in interaction studies of other virus-specific proteins and antibodies.

Evaluation of a new enzyme immunoassay based on recombinant Rubella virus-like particles for detection of immunoglobulin M antibodies to Rubella virus

A new enzyme immunoassay for the detection of specific antibodies to rubella virus was evaluated at two different sites. This assay, the Roche Cobas Core Rubella IgM EIA recomb, uses a recombinant rubella virus-like particle and is based upon the immunoglobulin M (IgM) capture principle. It was compared to the Abbott IMx Rubella IgM test and to the Sorin ETI-RUBEK-M reverse test. The relative clinical specificities were 99.30% for the Roche test, 98.26% for the Abbott test, and 100% for the Sorin test. The relative clinical sensitivities were 100, 93.87, and 82.65%, respectively. In the case of most primary infections, IgM antibodies could be detected immediately at the onset of the disease and for up to 7 weeks. In the case of vaccinations, they could be detected between 3 and 12 weeks after vaccination.

Synthesis of soluble rubella virus spike proteins in two lepidopteran insect cell lines: large scale production of the E1 protein

The two envelope glycoproteins of rubella virus (RV), E1 of 58 kDa and E2 of 42-47 kDa, were individually expressed in lepidopteran Spodoptera frugiperda as well as in Trichoplusia ni insect cells using baculovirus vectors. The authentic signal sequences of E1 and E2 were replaced with the honeybee melittin signal sequence, allowing efficient entrance into the secretory pathway of the insect cell. In addition, the hydrophobic transmembrane anchors at the carboxyl termini of E1 and E2 proteins were removed to enable secretion rather than maintenance in the cellular membranes. Synthesis of the recombinant proteins in the absence and presence of tunicamycin revealed that both E1 and E2 were glycosylated with apparent molecular weights of 52 kDa and 37 kDa, respectively. Recombinant E2 appeared to be partially secreted, whereas E1 was essentially found inside the infected insect cell. The E1 protein was produced in large scale using a 10-1 bioreactor and serum-free medium (SFM). Purification of the recombinant protein product was performed from cytoplasmic extracts by ammonium sulphate precipitation followed by Concanavalin A affinity chromatography. This type of purified recombinant viral glycoproteins may be useful not only in diagnostic medicine or for immunization, but should enable studies designed to solve the structure of the virus particle.

Detection of rubella virus-specific immunoglobulin M antibodies with a baculovirus-expressed E1 protein

The structural proteins of rubella virus (RV) were expressed in insect cells by using the baculovirus expression vector system. The recombinant E1 envelope glycoprotein was purified by immunoaffinity chromatography and used to detect RV-specific immunoglobulin M antibodies in a time-resolved fluoroimmunoassay. Correlation analysis between the reactivities of antibodies against this recombinant E1 and the reactivities against authentic RV antigen shows that purified E1 can detect RV antibodies of the immunoglobulin M type.

Evaluation of Cobas Core Rubella IgG EIA recomb, a new enzyme immunoassay based on recombinant rubella-like particles

Cobas Core Rubella IgG EIA recomb (Roche), a new, commercially available rubella enzyme immunoassay using recombinant rubella-like particles, was compared with a hemagglutination inhibition assay (Rubenosticon; Organon Teknika) and two whole-virus enzyme immunoassays (IMx [Abbott] and Platelia [Sanofi Diagnostics Pasteur]). Compared with those of these reference assays, the relative sensitivities of Cobas Core Rubella IgG recomb were 100, 94, and 95.9%, with specificities amounting to 80.8, 98, and 98.2%, respectively.