Abstract

Chikungunya fever is a re-emerging mosquito-borne disease caused by the chikungunya virus (CHIKV) and produces acute arthritis that can progress to chronic disease with arthralgia. The first approved live-attenuated chikungunya vaccine has only recently become available for use in humans in the USA, but the access in endemic regions remains unmet. Here, we exploited the baculovirus display technology to develop a vectored vaccine candidate that exposes the CHIKV membrane proteins E1 and E2 on the baculovirus surface. Using recombinant baculovirus as vector vaccines has both productive and regulatory advantages: they are safe for handling and easy to produce in high titers and are non-pathogenic and non-replicative in mammals but have strong adjuvant properties by inducing humoral and cellular immune responses. CHIKV E1 and E2 envelope proteins with their own signal and transmembrane sequences were expressed on the surface of budded baculovirus virions. Immunization of C57BL/6 mice with non-adjuvanted recombinant baculovirus induced IgG antibodies against E2 with a predominant IgG2c subtype, neutralizing antibodies and a specific IFN-γ CD8+ T-cell response. Immunization with a second dose significantly boosted the antibody response, and mice immunized with two doses of the vaccine candidate were completely protected against challenge with CHIKV showing no detectable viremia or signs of disease. Altogether, baculovirus display of CHIKV envelope proteins served as an efficient vaccine platform against CHIKV.IMPORTANCEThe global spread of chikungunya virus (CHIKV) has disproportionately impacted the Americas that experienced a fourfold increase in 2023 in cases and deaths compared with the same period in 2022. The disease is characterized by acute fever and debilitating joint pain that can become chronic. Despite the socioeconomic burden related to the high morbidity rates of CHIKV infection, a vaccine for CHIKV is currently approved only in the USA. Vaccines are the most effective preventive measure against viral diseases, and advances in the development of different vaccine platforms such as nucleic acids and viral vectors have prompted the rapid deployment of vaccines to contain the COVID-19 pandemic. Here, we report the use of baculovirus display as a strategy for the design of a novel vaccine that provides sterilizing immunity in a mouse model of chikungunya disease. Our results encourage further research regarding the potential of baculovirus as platforms for human vaccine design.

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