Nanomaterials (Jun 2021)

Effects of Size and Surface Properties of Nanodiamonds on the Immunogenicity of Plant-Based H5 Protein of A/H5N1 Virus in Mice

  • Thuong Thi Ho,
  • Van Thi Pham,
  • Tra Thi Nguyen,
  • Vy Thai Trinh,
  • Tram Vi,
  • Hsin-Hung Lin,
  • Phuong Minh Thi Nguyen,
  • Huyen Thi Bui,
  • Ngoc Bich Pham,
  • Thao Bich Thi Le,
  • Chi Van Phan,
  • Huan-Cheng Chang,
  • Wesley Wei-Wen Hsiao,
  • Ha Hoang Chu,
  • Minh Dinh Pham

DOI
https://doi.org/10.3390/nano11061597
Journal volume & issue
Vol. 11, no. 6
p. 1597

Abstract

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Nanodiamond (ND) has recently emerged as a potential nanomaterial for nanovaccine development. Here, a plant-based haemagglutinin protein (H5.c2) of A/H5N1 virus was conjugated with detonation NDs (DND) of 3.7 nm in diameter (ND4), and high-pressure and high-temperature (HPHT) oxidative NDs of ~40–70 nm (ND40) and ~100–250 nm (ND100) in diameter. Our results revealed that the surface charge, but not the size of NDs, is crucial to the protein conjugation, as well as the in vitro and in vivo behaviors of H5.c2:ND conjugates. Positively charged ND4 does not effectively form stable conjugates with H5.c2, and has no impact on the immunogenicity of the protein both in vitro and in vivo. In contrast, the negatively oxidized NDs (ND40 and ND100) are excellent protein antigen carriers. When compared to free H5.c2, H5.c2:ND40, and H5.c2:ND100 conjugates are highly immunogenic with hemagglutination titers that are both 16 times higher than that of the free H5.c2 protein. Notably, H5.c2:ND40 and H5.c2:ND100 conjugates induce over 3-folds stronger production of both H5.c2-specific-IgG and neutralizing antibodies against A/H5N1 than free H5.c2 in mice. These findings support the innovative strategy of using negatively oxidized ND particles as novel antigen carriers for vaccine development, while also highlighting the importance of particle characterization before use.

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