Abstract
Genomic sequence analysis of autonomous parvoviruses within the genus Protoparvovirus generates 2 groups that are principally of mouse origin: the minute virus of mice (MVM) strains (MVMp, MVMi, MVMc, MVMm) and the mouse parvovirus (MPV)-like strains (MPV-1, MPV-2, MPV-3, MPV-4, MPV-5, HaPV, LuIII). Baculovirus-expressed recombinant capsid protein (rVP2) from each of these 11 parvovirus strains were produced, purified, and demonstrated to form virus-like particles. Each rVP2 preparation was then used as antigen in a multiplex fluorescent immunoassay and to immunize 5 different strains of mice. Sera from immunized mice, mice experimentally monoinfected with various MVM or MPV isolates, and mice naturally infected with murine parvoviruses were evaluated with the multiplex fluorescent immunoassay rVP2 panel. Results for sera from immunized mice indicate that homologous antigen-antisera interactions produced the strongest seroreactivity. All MVM antigens were highly cross-reactive with heterologous MVM antisera, while more variability was observed in heterologous antigen-antisera reactions among the MPV-like strains. MPV-1, MPV-3, HaPV, and LuIII were highly cross-reactive with each other, MPV-2 and MPV-5 were highly cross-reactive with each other, and MPV-4 displayed modest cross-reactivity with certain MPV-like strains. Serologic cross-reactivity patterns similar to those in immunized mice were observed in mice experimentally infected with MVMp, MVMm, MPV-1, MPV-5, or HaPV, and in sera from mice naturally infected with MVM and MPV. Serologic cross-reactivity spectrums suggest a small panel of rVP2 antigens (MVM, MPV-1, MPV-2, MPV-4) combined with the generic murine parvovirus recombinant nonstructural protein 1 (rNS1) antigen are sufficient for qualitative detection of currently known MVM and MPV-like strains.
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