Human parvovirus B19 (B19V) causes fetal hydrops in pregnant women. Despite the significant impact of this virus, effective vaccines remain unclear. In this study, we successfully engineered B19V protein nanoparticles by fusing the N-terminal receptor-binding domain corresponding to 5-80 amino acids of VP1 with two distinct types of self-assembling protein nanoparticles. Gel filtration and electron microscopic analysis confirmed the spherical assembly of the antigen-fused nanoparticles. The purified nanoparticles are efficiently bound to the surface of UT7/Epo-S1 cells, which are semi-permissive hosts for B19V infection. Immunization of BALB/c mice with VP1u 5-80 nanoparticles elicited a robust production of B19V-specific IgG antibodies compared to single VP1u 5-80 peptides. Moreover, a neutralization assay using B19V derived from a blood donor sample revealed that antibodies from mice immunized with VP1u 5-80 nanoparticles exhibited stronger infection-neutralizing activity. These findings suggest that nanoparticle formation plays a crucial role in enhancing the immunogenicity of the B19V VP1u 5-80 amino acid peptide and that these nanoparticles could serve as promising vaccine candidates, effectively inducing immunity against B19V.
Keywords: I3‐01; ferritin; human parvovirus B19; protein nano‐particle; vaccine.
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