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A yeast expressed RBD-based SARS-CoV-2 vaccine formulated with 3M-052-alum adjuvant promotes protective efficacy in non-human primates.

Maria PinoTalha AbidSusan Pereira RibeiroVenkata-Viswanadh EdaraKatharine A FloydJustin C SmithMuhammad Bilal LatifGabriela Pacheco-SanchezDebashis DuttaShelly WangSanjeev GumberShannon G M KirejczykJoyce K CohenRachelle L StammenSherrie M JeanJennifer S WoodFawn Connor-StroudJeroen PolletWen-Hsiang ChenJunfei WeiBin ZhanJungsoon LeeZhuyun LiuUlrich StrychNeeta ShenviKirk A EasleyDaniela WeiskopfAlessandro SetteJustin PollaraDieter MielkeHongmei GaoNathan EiselCelia C LaBrancheXiaoying X ShenGuido FerrariGeorgia D TomarasDavid C MontefioriRafick P SekalyThomas H VanderfordMark A TomaiChristopher B FoxMehul S SutharPamela A KozlowskiPeter J HotezMirko PaiardiniMaria-Elena BottazziSudhir Pai Kasturi
Published in: Science immunology (2021)
Ongoing SARS-CoV-2 vaccine development is focused on identifying stable, cost-effective, and accessible candidates for global use, specifically in low and middle-income countries. Here, we report the efficacy of a rapidly scalable, novel yeast expressed SARS-CoV-2 specific receptor-binding domain (RBD) based vaccine in rhesus macaques. We formulated the RBD immunogen in alum, a licensed and an emerging alum adsorbed TLR-7/8 targeted, 3M-052-alum adjuvants. The RBD+3M-052-alum adjuvanted vaccine promoted better RBD binding and effector antibodies, higher CoV-2 neutralizing antibodies, improved Th1 biased CD4+T cell reactions, and increased CD8+ T cell responses when compared to the alum-alone adjuvanted vaccine. RBD+3M-052-alum induced a significant reduction of SARS-CoV-2 virus in respiratory tract upon challenge, accompanied by reduced lung inflammation when compared with unvaccinated controls. Anti-RBD antibody responses in vaccinated animals inversely correlated with viral load in nasal secretions and BAL. RBD+3M-052-alum blocked a post SARS-CoV-2 challenge increase in CD14+CD16++ intermediate blood monocytes, and Fractalkine, MCP-1, and TRAIL in the plasma. Decreased plasma analytes and intermediate monocyte frequencies correlated with reduced nasal and BAL viral loads. Lastly, RBD-specific plasma cells accumulated in the draining lymph nodes and not in the bone marrow, contrary to previous findings. Together, these data show that a yeast expressed, RBD-based vaccine+3M-052-alum provides robust immune responses and protection against SARS-CoV-2, making it a strong and scalable vaccine candidate.
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