We previously showed that a multiple antigenic peptide (MAP) displaying amino acids (aa) 305 to 319 from the 22-23 loop of protective antigen (PA) can elicit high-titered antibody that neutralizes lethal toxin (LeTx) in vitro and that this loop-neutralizing determinant (LND) specificity is absent in PA-immune rabbits. Some immune rabbits were, however, nonresponders to the MAP. We hypothesized that the immunogen elicited suboptimal major histocompatibility complex (MHC) class II-restricted T-cell help and that introduction of a functional helper T-cell epitope would increase MHC-restricted responsiveness and the magnitude and affinity of the antibody responses. In the current study, we characterized the T-and B-cell responses to LND peptides in mice, then designed second-generation MAP immunogens for eliciting LND-specific immunity, and tested them in rabbits. Bacillus anthracis is a gram-positive, spore-forming bacterium that naturally infects wildlife and livestock and, less frequently, humans. Since 2001, when spores of B. anthracis sent through the U.S mail resulted in infection in 22 individuals, including five fatal cases of inhalation anthrax, considerable effort has been directed toward reevaluating our preparedness for possible bioterrorist threats, including weaponized anthrax.The morbidity and mortality associated with inhalation anthrax are largely a result of the elaboration of two toxins, lethal toxin (LeTx) and edema toxin. These toxins are classic A-B toxins, where lethal factor and edema factor represent the active moieties and protective antigen (PA) represents the cell-binding moiety (5,6,20). Humoral immunity to PA can successfully mediate protection from lethal challenges in animal models of inhalation anthrax, and the protection is correlated with the ability of PA-specific antibodies to neutralize LeTx in vitro in the toxin neutralization assay (TNA) (17,21,22,35,36,41).While PA-specific antibody titer has been shown to correlate with TNA titers in vitro, this relationship demonstrates variability among different studies and in different species (19,37,40,43,48,50). Most PA-specific neutralizing monoclonal antibodies (MAbs) show a more invariable linear relationship between concentration and toxin neutralization (4, 46). These findings can be reconciled, in part, by the fact that only a fraction of the polyclonal antibody produced in response to vaccination with PA contributes to LeTx neutralization (4,39,40). Indeed, analyses of human and murine MAbs suggest that whereas immunization with whole PA elicits antibodies to a wide range of sequences within the protein, the repertoire of neutralizing antibodies is considerably more focused, limited perhaps to only a couple of major regions in PA, including the anthrax toxin receptor binding region in domain 4 and the lethal factor-and edema factor-binding regions in domain 1 (4,24,25,40). Though PA-specific antibody may contribute to protection through mechanisms other than neutralization, for example, by facilitating opsonization of spores (...
