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Merck

A Rift Valley fever virus Gn ectodomain-based DNA vaccine induces a partial protection not improved by APC targeting.

NPJ vaccines (2018-05-01)
Tiphany Chrun, Sandra Lacôte, Céline Urien, Luc Jouneau, Céline Barc, Edwige Bouguyon, Vanessa Contreras, Audrey Ferrier-Rembert, Christophe N Peyrefitte, Nuria Busquets, Enric Vidal, Joan Pujols, Philippe Marianneau, Isabelle Schwartz-Cornil
RÉSUMÉ

Rift Valley fever virus, a phlebovirus endemic in Africa, causes serious diseases in ruminants and humans. Due to the high probability of new outbreaks and spread to other continents where competent vectors are present, vaccine development is an urgent priority as no licensed vaccines are available outside areas of endemicity. In this study, we evaluated in sheep the protective immunity induced by DNA vaccines encoding the extracellular portion of the Gn antigen which was either or not targeted to antigen-presenting cells. The DNA encoding untargeted antigen was the most potent at inducing IgG responses, although not neutralizing, and conferred a significant clinical and virological protection upon infectious challenge, superior to DNA vaccines encoding the targeted antigen. A statistical analysis of the challenge parameters supported that the anti-eGn IgG, rather than the T-cell response, was instrumental in protection. Altogether, this work shows that a DNA vaccine encoding the extracellular portion of the Gn antigen confers substantial-although incomplete-protective immunity in sheep, a natural host with high preclinical relevance, and provides some insights into key immune correlates useful for further vaccine improvements against the Rift Valley fever virus.

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Sigma-Aldrich
Anti-Mouse IgG (whole molecule)–Peroxidase antibody produced in rabbit, IgG fraction of antiserum, buffered aqueous solution
Sigma-Aldrich
Anticorps monoclonal de souris anti-IgG de chèvre/mouton−peroxydase antibody produced in mouse, clone GT-34, purified from hybridoma cell culture