iScience (Apr 2023)

Controllable self-replicating RNA vaccine delivered intradermally elicits predominantly cellular immunity

  • Tomokazu Amano,
  • Hong Yu,
  • Misa Amano,
  • Erica Leyder,
  • Maria Badiola,
  • Priyanka Ray,
  • Jiyoung Kim,
  • Akihiro C. Ko,
  • Achouak Achour,
  • Nan-ping Weng,
  • Efrat Kochba,
  • Yotam Levin,
  • Minoru S.H. Ko

Journal volume & issue
Vol. 26, no. 4
p. 106335

Abstract

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Summary: Intradermal delivery of self-replicating RNA (srRNA) is a promising vaccine platform. We have developed an srRNA that functions optimally at around 33°C (skin temperature) and is inactivated at or above 37°C (core body temperature) as a safety switch. This temperature-controllable srRNA (c-srRNA), when tested as an intradermal vaccine against SARS-CoV-2, functions when injected naked without lipid nanoparticles. Unlike most currently available vaccines, c-srRNA vaccines predominantly elicit cellular immunity with little or no antibody production. Interestingly, c-srRNA-vaccinated mice produced antigen-specific antibodies upon subsequent stimulation with antigen protein. Antigen-specific antibodies were also produced when B cell stimulation using antigen protein was followed by c-srRNA booster vaccination. We have thus designed a pan-coronavirus booster vaccine that incorporates both spike-receptor-binding domains as viral surface proteins and evolutionarily conserved nucleoproteins as viral internal proteins, from both severe acute respiratory syndrome coronavirus 2 and Middle East respiratory syndrome coronavirus. c-srRNA may provide a route to activate cellular immunity against a wide variety of pathogens.

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