Author:
Molini Barbara,Fernandez Mark C.,Godornes Charmie,Vorobieva Anastassia,Lukehart Sheila A.,Giacani Lorenzo
Abstract
ABSTRACTSeveral recent studies have focused on the identification, functional analysis, and structural characterization of outer membrane proteins (OMPs) ofTreponema pallidum(Tp). TheTpspecies encompasses the highly relatedpallidum,pertenue,andendemicumsubspecies of this pathogen, known to be the causative agents of syphilis, yaws, and bejel, respectively. These studies highlighted the importance of identifying surface-exposed OMP regions and the identification of B-cell epitopes that could be protective and used in vaccine development efforts. We previously reported that the TprC and TprD OMPs ofTpare predicted to contain external loops scattered throughout the entire length of the proteins, several of which show a low degree of sequence variability among strains and subspecies. In this study, these models were corroborated using AlphaFold2, a state-of-the-art protein structure modeling software. Here, we identified B-cell epitopes across the full-length TprC and TprD variants using the Geysan pepscan mapping approach with antisera from rabbits infected with syphilis, yaws, and bejel strains and from animals immunized with refolded recombinant TprC proteins from three syphilis strains. Our results show that the humoral response is primarily directed to sequences predicted to be on surface-exposed loops of TprC and TprD proteins, and that the magnitude of the humoral response to individual epitopes differs among animals infected with various syphilis strains andTpsubspecies. Rather than exhibiting strain-specificity, antisera showed various degrees of cross-reactivity with variant sequences from other strains. The data support the further exploration of TprC and TprD as vaccine candidates.
Publisher
Cold Spring Harbor Laboratory