Frontiers in Immunology (Sep 2023)

Persistence of immunological memory as a potential correlate of long-term, vaccine-induced protection against Ebola virus disease in humans

  • Chelsea McLean,
  • Karin Dijkman,
  • Auguste Gaddah,
  • Babajide Keshinro,
  • Michael Katwere,
  • Macaya Douoguih,
  • Cynthia Robinson,
  • Laura Solforosi,
  • Dominika Czapska-Casey,
  • Liesbeth Dekking,
  • Yvonne Wollmann,
  • Ariane Volkmann,
  • Maria Grazia Pau,
  • Benoit Callendret,
  • Jerry Sadoff,
  • Hanneke Schuitemaker,
  • Roland Zahn,
  • Kerstin Luhn,
  • Jenny Hendriks,
  • Ramon Roozendaal

DOI
https://doi.org/10.3389/fimmu.2023.1215302
Journal volume & issue
Vol. 14

Abstract

Read online

IntroductionIn the absence of clinical efficacy data, vaccine protective effect can be extrapolated from animals to humans, using an immunological biomarker in humans that correlates with protection in animals, in a statistical approach called immunobridging. Such an immunobridging approach was previously used to infer the likely protective effect of the heterologous two-dose Ad26.ZEBOV, MVA-BN-Filo Ebola vaccine regimen. However, this immunobridging model does not provide information on how the persistence of the vaccine-induced immune response relates to durability of protection in humans.Methods and resultsIn both humans and non-human primates, vaccine-induced circulating antibody levels appear to be very stable after an initial phase of contraction and are maintained for at least 3.8 years in humans (and at least 1.3 years in non-human primates). Immunological memory was also maintained over this period, as shown by the kinetics and magnitude of the anamnestic response following re-exposure to the Ebola virus glycoprotein antigen via booster vaccination with Ad26.ZEBOV in humans. In non-human primates, immunological memory was also formed as shown by an anamnestic response after high-dose, intramuscular injection with Ebola virus, but was not sufficient for protection against Ebola virus disease at later timepoints due to a decline in circulating antibodies and the fast kinetics of disease in the non-human primates model. Booster vaccination within three days of subsequent Ebola virus challenge in non-human primates resulted in protection from Ebola virus disease, i.e. before the anamnestic response was fully developed.DiscussionHumans infected with Ebola virus may benefit from the anamnestic response to prevent disease progression, as the incubation time is longer and progression of Ebola virus disease is slower as compared to non-human primates. Therefore, the persistence of vaccine-induced immune memory could be considered as a potential correlate of long-term protection against Ebola virus disease in humans, without the need for a booster.

Keywords