Novel Universal Recombinant Rotavirus A Vaccine Candidate: Evaluation of Immunological Properties

Author:

Granovskiy Dmitriy L.1,Khudainazarova Nelli S.1,Evtushenko Ekaterina A.1ORCID,Ryabchevskaya Ekaterina M.1ORCID,Kondakova Olga A.1ORCID,Arkhipenko Marina V.1,Kovrizhko Marina V.2,Kolpakova Elena P.2,Tverdokhlebova Tatyana I.2,Nikitin Nikolai A.1ORCID,Karpova Olga V.1ORCID

Affiliation:

1. Department of Virology, Faculty of Biology, Lomonosov Moscow State University, 119991 Moscow, Russia

2. Rostov Research Institute of Microbiology and Parasitology, 344010 Rostov-On-Don, Russia

Abstract

Rotavirus infection is a leading cause of severe dehydrating gastroenteritis in children under 5 years of age. Although rotavirus-associated mortality has decreased considerably because of the introduction of the worldwide rotavirus vaccination, the global burden of rotavirus-associated gastroenteritis remains high. Current vaccines have a number of disadvantages; therefore, there is a need for innovative approaches in rotavirus vaccine development. In the current study, a universal recombinant rotavirus antigen (URRA) for a novel recombinant vaccine candidate against rotavirus A was obtained and characterised. This antigen included sequences of the VP8* subunit of rotavirus spike protein VP4. For the URRA, for the first time, two approaches were implemented simultaneously—the application of a highly conserved neutralising epitope and the use of the consensus of the extended protein’s fragment. The recognition of URRA by antisera to patient-derived field rotavirus isolates was proven. Plant virus-based spherical particles (SPs), a novel, effective and safe adjuvant, considerably enhanced the immunogenicity of the URRA in a mouse model. Given these facts, a URRA + SPs vaccine candidate is regarded as a prospective basis for a universal vaccine against rotavirus.

Funder

Russian Science Foundation

Publisher

MDPI AG

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