Active vaccination against amyloid β (Aβ42) is considered a potential therapeutic approach for Alzheimer's disease (AD). However, immunization with synthetic human Aβ1-42 has resulted in meningoencephalitis in 6% of patients and generated only low-titer anti-Aβ42 antibodies. In order to develop a safe and effective vaccine against Alzheimer's disease, the Aβ1-6 peptide was used as the novel immunogen and Norovirus P particles as the vaccine platform in this study. By inserting and presenting Aβ1-6 on the outermost surface of the P particle, we showed that the chimeric P particle-based AD protein vaccine could elicit a strong immune response, inducing highly specific antibody titers against Aβ42 without causing T-cell activation. Furthermore, antibodies induced by the AD protein vaccines were demonstrated to be effective at the cellular level. In addition, we also compared the immunogenicity of the chimeric P particles with different insertional loci in the loop structure domain and demonstrated that insertion of the antigen into all three loops of the P particle at the same time could significantly improve immune responses to the vaccine. In conclusion, the Norovirus P particle is an excellent vaccine platform for stimulating Aβ42 antibody production, and chimeric P particles may be developed as an effective therapy for AD.
Keywords: Alzheimer’s disease; Amyloid β1–6; Norovirus; P particle.
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