Trivalent nucleoside-modified mRNA vaccine yields durable memory B cell protection against genital herpes in preclinical models
Sita Awasthi, James J. Knox, Angela Desmond, Mohamad-Gabriel Alameh, Brian T. Gaudette, John M. Lubinski, Alexis Naughton, Lauren M. Hook, Kevin P. Egan, Ying K. Tam, Norbert Pardi, David Allman, Eline T. Luning Prak, Michael P. Cancro, Drew Weissman, Gary H. Cohen, Harvey M. Friedman
Sita Awasthi, James J. Knox, Angela Desmond, Mohamad-Gabriel Alameh, Brian T. Gaudette, John M. Lubinski, Alexis Naughton, Lauren M. Hook, Kevin P. Egan, Ying K. Tam, Norbert Pardi, David Allman, Eline T. Luning Prak, Michael P. Cancro, Drew Weissman, Gary H. Cohen, Harvey M. Friedman
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Research Article Infectious disease

Trivalent nucleoside-modified mRNA vaccine yields durable memory B cell protection against genital herpes in preclinical models

Abstract

Nucleoside-modified mRNA vaccines have gained global attention because of COVID-19. We evaluated a similar vaccine approach for preventing a chronic, latent genital infection rather than an acute respiratory infection. We used animal models to compare an HSV-2 trivalent nucleoside-modified mRNA vaccine with the same antigens prepared as proteins, with an emphasis on antigen-specific memory B cell responses and immune correlates of protection. In guinea pigs, serum neutralizing-antibody titers were higher at 1 month and declined far less by 8 months in mRNA- compared with protein-immunized animals. Both vaccines protected against death and genital lesions when infected 1 month after immunization; however, protection was more durable in the mRNA group compared with the protein group when infected after 8 months, an interval representing greater than 15% of the animal’s lifespan. Serum and vaginal neutralizing-antibody titers correlated with protection against infection, as measured by genital lesions and vaginal virus titers 2 days after infection. In mice, the mRNA vaccine generated more antigen-specific memory B cells than the protein vaccine at early times after immunization that persisted for up to 1 year. High neutralizing titers and robust B cell immune memory likely explain the more durable protection by the HSV-2 mRNA vaccine.

Authors

Sita Awasthi, James J. Knox, Angela Desmond, Mohamad-Gabriel Alameh, Brian T. Gaudette, John M. Lubinski, Alexis Naughton, Lauren M. Hook, Kevin P. Egan, Ying K. Tam, Norbert Pardi, David Allman, Eline T. Luning Prak, Michael P. Cancro, Drew Weissman, Gary H. Cohen, Harvey M. Friedman

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Figure 4

Serum neutralizing-antibody titers in guinea pigs are immune correlates of protection.

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Serum neutralizing-antibody titers in guinea pigs are immune correlates ...
(AD) Serum neutralizing titers in animals that survived infection, developed no genital disease, had negative day 2 vaginal cultures after infection, or did not shed HSV-2 DNA in vaginal secretions days 28 to 48 after infection. Dotted lines in A and B represent threshold values for protection. (EH) Correlation of serum neutralizing-antibody titers with genital lesions, day 2 vaginal virus titers, days with vaginal shedding of HSV-2 DNA, and vaginal neutralizing-antibody titers. The size and color of symbols reflect the number of overlapping values at that point. P values were calculated by 2-tailed Mann-Whitney test (AD) or Spearman’s correlation (EH).