Author: Lee, Chaeyeon; Jeong, Jonghwa; Lee, Taeheon; Zhang, Wei; Xu, Li; Choi, Ji Eun; Park, Ji Hyun; Song, Jae Kwang; Jang, Sinae; Eom, Chi-Yong; Shim, KyuHwan; Seong Soo, A An; Kang, Young-Sun; Kwak, Minseok; Jeon, Hyeong Jin; Go, Jeung Sang; Suh, Yung Doug; Jin, Jun-O; Paik, Hyun-Jong
Title: Virus-mimetic polymer nanoparticles displaying hemagglutinin as an adjuvant-free influenza vaccine. Cord-id: tninupmq Document date: 2018_1_1
ID: tninupmq
Snippet: The generation of virus-mimetic nanoparticles has received much attention in developing a new vaccine for overcoming the limitations of current vaccines. Thus, a method, encompassing most viral features for their size, hydrophobic domain and antigen display, would represent a meaningful direction for the vaccine development. In the present study, a polymer-templated protein nanoball with direction oriented hemagglutinin1 on its surface (H1-NB) was prepared as a new influenza vaccine, exhibiting
Document: The generation of virus-mimetic nanoparticles has received much attention in developing a new vaccine for overcoming the limitations of current vaccines. Thus, a method, encompassing most viral features for their size, hydrophobic domain and antigen display, would represent a meaningful direction for the vaccine development. In the present study, a polymer-templated protein nanoball with direction oriented hemagglutinin1 on its surface (H1-NB) was prepared as a new influenza vaccine, exhibiting most of the viral features. Moreover, the concentrations of antigen on the particle surface were controlled, and its effect on immunogenicity was estimated by in vivo studies. Finally, H1-NB efficiently promoted H1-specific immune activation and cross-protective activities, which consequently prevented H1N1 infections in mice.
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