Structural and functional analysis of the SI subunit of pertussis toxin using synthetic peptides

Abstract Pertussis toxin (PT) is a major virulence factor of Bordetella pertussis, and also an important protective antigen. PT is an oligomeric A-B type toxin in which the S1 subunit has the ADP-ribosyltransferase activity whereas the B-oligomer mediates its binding to target cell receptors. To analyze the immunological properties of S1 and to generate probes to localize and characterize S1 functional domains, we synthesized four sets of peptides and peptide analogs corresponding to potentially critical regions of the S1 subunit. Two peptide-KLH conjugates were found to be capable of inducing PT-neutralizing antibodies in rabbits as judged by the CHO cell clustering assay. These peptides comprise residues 1–18 (N18-S1) and 121–138 (NAD-S1), respectively. Immunization with the unconjugated C-terminal peptide C35-S1 (residues 201–235) in the presence of Freund's adjuvant also elicited PT-neutralizing antibodies, indicating that the C-terminal region of S1 contains a potent functional T-helper cell epitope. Using truncated peptide analogs of N18-S1, we have demonstrated that the first three N-terminal residues are essential for inducing neutralizing antibodies. The NAD-S1 peptide elicited a neutralizing antibody response when coupled to KLH via its N-terminal end but not via its C-terminal residue. Identification of these B-cell neutralization epitopes represents a first step towards the rational design of a synthetic vaccine against whooping cough.