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Immunogenicity and pre-clinical efficacy of an OMV-based SARS-CoV-2 vaccine.

Alberto GrandiMichele TomasiIrfan UllahCinzia BertelliTeresa VanzoSilvia AccordiniAssunta GagliardiIlaria ZanellaMattia BenedetRiccardo CorbellariGabriele Di LascioSilvia TamburiniElena CaproniLorenzo CroiaMicol RavàValeria FumagalliPietro Di LuciaDavide MarottaEleonora SalaMatteo IannaconePriti KumarWalther MothesPradeep D UchilPeter CherepanovMartino BolognesiMassimo PizzatoGuido Grandi
Published in: Research square (2023)
The vaccination campaign against SARS-CoV-2 relies on the world-wide availability of effective vaccines, with a potential need of 20 billion vaccine doses to fully vaccinate the world population. To reach this goal, the manufacturing and logistic processes should be affordable to all countries, irrespectively of economical and climatic conditions. Outer membrane vesicles (OMV) are bacterial-derived vesicles that can be engineered to incorporate heterologous antigens. Given the inherent adjuvanticity, such modified OMV can be used as vaccine to induce potent immune responses against the associated protein. Here we show that OMVs engineered to incorporate peptides derived from the receptor binding motif (RBM) of the spike protein from SARS-CoV-2 elicit an effective immune response in immunized mice, resulting in the production of neutralizing antibodies (nAbs). The immunity induced by the vaccine is sufficient to protect the animals from intranasal challenge with SARS-CoV-2, preventing both virus replication in the lungs and the pathology associated with virus infection. Furthermore, we show that OMVs can be effectively decorated with the RBM of the Omicron BA.1 variant and that such engineered OMVs induced nAbs against Omicron BA.1 and BA.5, as judged by pseudovirus infectivity assay. Importantly, we show that the RBM 438-509 ancestral-OMVs elicited antibodies which efficiently neutralized in vitro both the homologous ancestral strain, the Omicron BA.1 and BA.5 variants, suggesting its potential use as a pan Coronavirus vaccine. Altogether, given the convenience associated with ease of engineering, production and distribution, our results demonstrate that OMV-based SARS-CoV-2 vaccines can be a crucial addition to the vaccines currently available.
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