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mRNA-based VP8* nanoparticle vaccines against rotavirus are highly immunogenic in rodents

Sandro Roier, Vidya Mangala Prasad, Monica McNeal, Kelly K. Lee, Benjamin Petsch, Susanne Rauch

2023npj Vaccines32 citationsDOIOpen Access PDF

Abstract

Despite the availability of live-attenuated oral vaccines, rotavirus remains a major cause of severe childhood diarrhea worldwide. Due to the growing demand for parenteral rotavirus vaccines, we developed mRNA-based vaccine candidates targeting the viral spike protein VP8*. Our monomeric P2 (universal T cell epitope)-VP8* mRNA design is equivalent to a protein vaccine currently in clinical development, while LS (lumazine synthase)-P2-VP8* was designed to form nanoparticles. Cyro-electron microscopy and western blotting-based data presented here suggest that proteins derived from LS-P2-VP8* mRNA are secreted in vitro and self-assemble into 60-mer nanoparticles displaying VP8*. mRNA encoded VP8* was immunogenic in rodents and introduced both humoral and cellular responses. LS-P2-VP8* induced superior humoral responses to P2-VP8* in guinea pigs, both as monovalent and trivalent vaccines, with encouraging responses detected against the most prevalent P genotypes. Overall, our data provide evidence that trivalent LS-P2-VP8* represents a promising mRNA-based next-generation rotavirus vaccine candidate.

Topics & Concepts

VirologyRotavirusMessenger RNABiologyMicrobiologyVirusGeneGeneticsViral gastroenteritis research and epidemiologyViral Infections and Immunology ResearchAnimal Virus Infections Studies
mRNA-based VP8* nanoparticle vaccines against rotavirus are highly immunogenic in rodents | Litcius