A Nanoparticle Comprising the Receptor-Binding Domains of Norovirus and Plasmodium as a Combination Vaccine Candidate.

Background: Noroviruses, which cause epidemic acute gastroenteritis, and Plasmodium parasites, which lead to malaria, are two infectious pathogens that pose threats to public health. The protruding (P) domain of norovirus VP1 and the αTSR domain of the circumsporozoite protein (CSP) of Plasmodium sporozoite are the glycan receptor-binding domains of the two pathogens for host cell attachment, making them excellent targets for vaccine development. Modified norovirus P domains self-assemble into a 24-meric octahedral P nanoparticle (P₂₄ NP).

Methods: We generated a unique P₂₄-αTSR NP by inserting the αTSR domain into a surface loop of the P domain. The P-αTSR fusion proteins were produced in the Escherichia coli expression system and the fusion protein self-assembled into the P₂₄-αTSR NP.

Results: The formation of the P₂₄-αTSR NP was demonstrated through gel filtration, electron microscopy, and dynamic light scattering. A 3D structural model of the P₂₄-αTSR NP was constructed, using the known cryo-EM structure of the previously developed P₂₄ NP and P₂₄-VP8* NP as templates. Each P₂₄-αTSR NP consists of a P₂₄ NP core, with 24 surface-exposed αTSR domains that have retained their general conformations and binding function to heparan sulfate proteoglycans. The P₂₄-αTSR NP is immunogenic, eliciting strong antibody responses in mice toward both the norovirus P domain and the αTSR domain of Plasmodium CSP. Notably, sera from mice immunized with the P₂₄-αTSR NP bound strongly to Plasmodium sporozoites and blocked norovirus VLP attachment to their glycan receptors.

Conclusion: These data suggest that the P₂₄-αTSR NP may serve as a combination vaccine against both norovirus and Plasmodium parasites.