JCI Insight (May 2021)

Intradermal delivery of a synthetic DNA vaccine protects macaques from Middle East respiratory syndrome coronavirus

  • Ami Patel,
  • Emma L. Reuschel,
  • Ziyang Xu,
  • Faraz I. Zaidi,
  • Kevin Y. Kim,
  • Dana P. Scott,
  • Janess Mendoza,
  • Stephanie Ramos,
  • Regina Stoltz,
  • Friederike Feldmann,
  • Atsushi Okumura,
  • Kimberly Meade-White,
  • Elaine Haddock,
  • Tina Thomas,
  • Rebecca Rosenke,
  • Jamie Lovaglio,
  • Patrick W. Hanley,
  • Greg Saturday,
  • Kar Muthumani,
  • Heinz Feldmann,
  • Laurent M. Humeau,
  • Kate E. Broderick,
  • David B. Weiner

Journal volume & issue
Vol. 6, no. 10

Abstract

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Emerging coronaviruses from zoonotic reservoirs, including severe acute respiratory syndrome coronavirus (SARS-CoV), Middle East respiratory syndrome coronavirus (MERS-CoV), and severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), have been associated with human-to-human transmission and significant morbidity and mortality. Here, we study both intradermal and intramuscular 2-dose delivery regimens of an advanced synthetic DNA vaccine candidate encoding a full-length MERS-CoV spike (S) protein, which induced potent binding and neutralizing antibodies as well as cellular immune responses in rhesus macaques. In a MERS-CoV challenge, all immunized rhesus macaques exhibited reduced clinical symptoms, lowered viral lung load, and decreased severity of pathological signs of disease compared with controls. Intradermal vaccination was dose sparing and more effective in this model at protecting animals from disease. The data support the further study of this vaccine for preventing MERS-CoV infection and transmission, including investigation of such vaccines and simplified delivery routes against emerging coronaviruses.

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