Abstract
The recent progress in immunoinformatics provided the basis for an accelerated development of target-specific peptide vaccines as an alternative to the traditional vaccine concept. However, there is still limited information on whether the in silico predicted immunoreactive epitopes correspond to those obtained from the actual experiments. Here, humoral and cellular immune responses to two major Yersinia pestis protective antigens, F1 and LcrV, were studied in human donors immunized with the live plague vaccine (LPV) based on the attenuated Y. pestis strain EV line NIIEG. The F1 antigen provided modest specific cellular (mixed T helper 1 (Th1)/Th2 type) and humoral immune responses in vaccinees irrespective of the amount of annual vaccinations and duration of the post-vaccination period. The probing of the F1 overlapping peptide library with the F1-positive sera revealed the presence of seven linear B cell epitopes, which were all also predicted by in silico assay. The immunoinformatics study evaluated their antigenicity, toxicity, and allergenic properties. The epitope TSQDGNNH was mostly recognized by the sera from recently vaccinated donors rather than antibodies from those immunized decades ago, suggesting the usefulness of this peptide for differentiation between recent and long-term vaccinations. The in silico analysis predicted nine linear LcrV-specific B-cell epitopes; however, weak antibody and cellular immune responses prevented their experimental evaluation, indicating that LcrV is a poor marker of successful vaccination. No specific Th17 immune response to either F1 or LcrV was detected, and there were no detectable serum levels of F1-specific immunoglobulin A (IgA) in vaccinees. Overall, the general approach validated in the LPV model could be valuable for the rational design of vaccines against other neglected and novel emerging infections with high pandemic potency.
Highlights
To prevent the global spread of emerging infection diseases (IDs), effective and innovative vaccine strategies are needed, for the eradication of especially dangerous, neglected, and novel IDs
The cellular immune response to F1 and LcrV elicited by the live plague vaccine (LPV) was first assessed by studying the proliferative responses of peripheral blood mononuclear cells (PBMCs) from vaccinated versus naïve donors
Both antigens should be actively involved in the immune response induced in humans during vaccination with the attenuated strain of Y. pestis EV line NIIEG used in Russia as a live plague vaccine [6]
Summary
To prevent the global spread of emerging infection diseases (IDs), effective and innovative vaccine strategies are needed, for the eradication of especially dangerous, neglected, and novel IDs. Computational vaccinology provides precise and fast epitope mapping of target antigens to identify immunogenic and nonimmunogenic, as well as immunoreactive and nonimmunoreactive, protein component(s), resulting in the selection of peptides consisting of a few amino acids [2]. This approach can accurately identify a limited number of candidate peptides with predicted marked antigenic and nonallergenic activity among individual immunoreactive epitopes
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