[HTML][HTML] Exosomal vaccines containing the S protein of the SARS coronavirus induce high levels of neutralizing antibodies

S Kuate, J Cinatl, HW Doerr, K Überla - Virology, 2007 - Elsevier
S Kuate, J Cinatl, HW Doerr, K Überla
Virology, 2007Elsevier
Infection with the SARS-associated coronavirus (SARS-CoV) induces an atypical pulmonary
disease with a high lethality rate. Although the initial SARS epidemic was contained,
sporadic outbreaks of the disease still occur, suggesting a continuous need for a vaccine
against this virus. We therefore explored exosome-based vaccines containing the spike S
proteins of SARS-CoV. S-containing exosomes were obtained by replacing the
transmembrane and cytoplasmic domains of the S protein by those of VSV-G. The …
Infection with the SARS-associated coronavirus (SARS-CoV) induces an atypical pulmonary disease with a high lethality rate. Although the initial SARS epidemic was contained, sporadic outbreaks of the disease still occur, suggesting a continuous need for a vaccine against this virus. We therefore explored exosome-based vaccines containing the spike S proteins of SARS-CoV. S-containing exosomes were obtained by replacing the transmembrane and cytoplasmic domains of the S protein by those of VSV-G. The immunogenicity and efficacy of the S-containing exosomes were tested in mice and compared to an adenoviral vector vaccine expressing the S protein. Both, S-containing exosomes and the adenoviral vector vaccine induced neutralizing antibody titers. After priming with the SARS-S exosomal vaccine and boosting with the adenoviral vector the neutralizing antibody titers exceeded those observed in the convalescent serum of a SARS patient. Both approaches were effective in a SARS-S-expressing tumor challenge model and thus warrant further investigation.
Elsevier