Lymphatic filariasis affects approximately 3% of the whole world population. Mass drug
administration is currently the major control strategy to eradicate this infection from endemic
regions by year 2020. Combination drug treatments are highly efficient in controlling the
infection. However, there are no effective vaccines available for human or animal lymphatic
filariasis despite the identification of several subunit vaccines. Lymphatic filariasis parasites are
multicellular organisms and potentially use multiple mechanisms to survive in the host.
Therefore, there is a need to combine two or more vaccine candidate antigens to achieve the
desired effect. In this study we combined three well characterized vaccine antigens of Brugia
malayi, heat shock protein12.6 (HSP12.6), abundant larval transcript-2 (ALT-2) and tetraspanin
large extra cellular loop (TSP-LEL) as a multivalent fusion vaccine. Putative immune individuals
carry circulating antibodies against all three antigens. Depletion of these antigen specific
antibodies from the sera samples removed the ability of the sera to participate in the killing of B.
malayi L3 in an antibody dependent cellular cytotoxicity (ADCC) mechanism. Vaccination trials
in mice with a bivalent [HSP12.6+ALT-2 (HA), HSP12.6+TSP-LEL (HT) or TSP-LEL+ALT-2
(TA)] or trivalent [HSP12.6+ALT-2+TSP-LEL (HAT)] vaccines using DNA, protein or
heterologous prime boost regimen showed that trivalent HAT vaccine either as protein alone or
as heterologous prime boost vaccine could confer significant protection (95%) against B. malayi
L3 challenge. Immune correlates of protection suggest a Th1/Th2 bias. These finding suggests
that the trivalent HAT fusion protein is a promising prophylactic vaccine against lymphatic
filariasis infection in human.
History
Publisher Statement
NOTICE: This is the author’s version of a work that was accepted for publication in Vaccine. Changes resulting from the publishing process, such as peer review, editing, corrections, structural formatting, and other quality control mechanisms may not be reflected in this document. Changes may have been made to this work since it was submitted for publication. A definitive version was subsequently published in Vaccine,(2012)DOI: 10.1016/j.vaccine.2012.09.055