Attenuated and vectored vaccines protect nonhuman primates against Chikungunya virus
Pierre Roques, Karl Ljungberg, Beate M. Kümmerer, Leslie Gosse, Nathalie Dereuddre-Bosquet, Nicolas Tchitchek, David Hallengärd, Juan García-Arriaza, Andreas Meinke, Mariano Esteban, Andres Merits, Roger Le Grand, Peter Liljeström
Pierre Roques, Karl Ljungberg, Beate M. Kümmerer, Leslie Gosse, Nathalie Dereuddre-Bosquet, Nicolas Tchitchek, David Hallengärd, Juan García-Arriaza, Andreas Meinke, Mariano Esteban, Andres Merits, Roger Le Grand, Peter Liljeström
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Research Article Infectious disease Vaccines

Attenuated and vectored vaccines protect nonhuman primates against Chikungunya virus

Abstract

Chikungunya virus (CHIKV) is rapidly spreading across the globe, and millions are infected. Morbidity due to this virus is a serious threat to public health, but at present, there is no vaccine against this debilitating disease. We have recently developed a number of vaccine candidates, and here we have evaluated 3 of them in a nonhuman primate model. A single immunization with an attenuated strain of CHIKV (Δ5nsP3), a homologous prime-boost immunization with a DNA-launched RNA replicon encoding CHIKV envelope proteins (DREP-E), and a DREP-E prime followed by a recombinant modified vaccinia virus Ankara encoding CHIKV capsid and envelope (MVA-CE) boost all induced protection against WT CHIKV infection. The attenuated Δ5nsP3 virus proved to be safe and did not show any clinical signs typically associated with WT CHIKV infections such as fever, skin rash, lymphopenia, or joint swelling. These vaccines are based on an East/Central/South African strain of Indian Ocean lineage, but they also generated neutralizing antibodies against an isolate of the Asian genotype that now is rapidly spreading across the Americas. These results form the basis for clinical development of an efficacious CHIKV vaccine that generates both humoral and cellular immunity with long-term immunological memory.

Authors

Pierre Roques, Karl Ljungberg, Beate M. Kümmerer, Leslie Gosse, Nathalie Dereuddre-Bosquet, Nicolas Tchitchek, David Hallengärd, Juan García-Arriaza, Andreas Meinke, Mariano Esteban, Andres Merits, Roger Le Grand, Peter Liljeström

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Figure 2

Neutralizing antibodies against CHIKV vaccine.

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Neutralizing antibodies against CHIKV vaccine. Animals were immunized on...
Animals were immunized on days 0 and/or 42 (y axis and black vertical dotted line). Animals were bled on days 0, 14, 34, 56, 77, 98, 112, 123, 127, 140, 154, 182, 210, and 298 (end of followup), and antibody levels in serum were determined. (A) Δ5 virus (red, 1×) corresponding to group Δ5-A (see Figure 1B), (B) DD (green), (C) DM (blue), (D) saline (orange). Animals were challenged on day 123 (red vertical dotted line). Panels AD show antibody levels in individual animals. Panel E compares the geometric mean titers obtained for animals in panels AD. Panel F shows NT titer of sera against Caribbean (CB, filled boxes) CHIKV isolate compared with response against East/Central/South African (ECSA) strain from day 56 (14 days after Δ5 or after D or M boost, respectively) for the vaccinated sera (panels AC) or from day 140 (14 days after challenge with WT CHIKV) for the vaccine control animals (D). Sera from control animals were sampled after challenge with WT CHIKV. Statistical analyses were performed using the Kruskal-Wallis test followed by a 2-tailed Mann-Whitney U test to analyze differences between two.