Mapping of epitopes recognized by functional monoclonal antibodies (mAbs) is essential for understanding the nature of immune responses and designing improved vaccines, therapeutics, and diagnostics. In recent years, identification of B-cell epitopes targeted by neutralizing antibodies has facilitated the design of peptide-based vaccines against highly variable pathogens like HIV, respiratory syncytial virus, and Helicobacter pylori; however, none of these products has yet pro- gressed into clinical stages. Linear epitopes identified by conventional mapping techniques only partially reflect the immunogenic properties of the epitope in its natural conformation, thus limiting the success of this approach. To investigate antigen–antibody interactions and assess the potential of the most common epitope mapping techniques, we generated a series of mAbs against factor H binding protein (fHbp), a key virulence factor and vaccine antigen of Neisseria meningitidis. The interaction of fHbp with the bactericidal mAb 12C1 was studied by various epitope mapping methods. Although a 12-residue epitope in the C terminus of fHbp was identified by both Peptide Scanning and Phage Display Library screening, other approaches, such as hydrogen/ deuterium exchange mass spectrometry (MS) and X-ray crystallogra- phy, showed that mAb 12C1 occupies an area of ∼1,000 Å2 on fHbp, including >20 fHbp residues distributed on both N- and C-terminal domains. Collectively, these data show that linear epitope mapping techniques provide useful but incomplete descriptions of B-cell epito- pes, indicating that increased efforts to fully characterize antigen–an- tibody interfaces are required to understand and design effective immunogens.
|Digital Object Identifier (DOI):||10.1073/pnas.1222845110|
|Codice identificativo ISI:||WOS:000315841900029|
|Codice identificativo Scopus:||2-s2.0-84874478891|
|Appare nelle tipologie:||1.1 Articolo in rivista|
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