Abstract
Anthrax remains a formidable bioterrorism threat for which new, optimized and thermostable vaccines are needed. We previously demonstrated that five immunizations of rabbits with a multiple-antigenic-peptide (MAP) vaccine in either Freund's adjuvant or human-use adjuvants can elicit antibody (Ab) against the loop-neutralizing determinant (LND), a cryptic neutralizing epitope in the 2β2-2β3 loop of protective antigen from Bacillus anthracis (B. anthracis), which mediates complete protection of rabbits from inhalation spore challenge with the B. anthracis Ames strain. To develop a more immunogenic vaccine, we molecularly constructed a virus-like particle (VLP) vaccine, comprising the Woodchuck hepatitis core antigen capsid (WHcAg) displaying 240 copies of the LND epitope on each nanoparticle. Initial studies showed that the LND-VLP was immunogenic in rabbits following two immunizations, and passive transfer of the rabbit sera into A/J mice conferred complete protection from aerosol challenge with B. anthracis. Further optimization of the vaccine revealed that the lyophilized LND-VLP vaccine was capable of eliciting highly protective levels of neutralizing antibody with two immunizations, and in some rabbits, a single immunization, using human-use adjuvants. A lyophilized LND-VLP nanoparticle vaccine may be an effective stand-alone vaccine or may complement PA-based vaccines as a future pre- or post-exposure vaccine for anthrax.