Neutralizing peptide ligands selected from phage-displayed libraries mimic the conformational epitope on domain III of the Japanese encephalitis virus envelope protein

Abstract

The envelope (E) protein of Japanese encephalitis virus (JEV) contains 500 amino acids with six “conserved” disulfide bonds to maintain its conformational structure. Neutralizing epitopes located on the E protein are mostly conformational dependent. In this study, we used phage-displayed 12-residue combinatorial peptide libraries to select high-affinity peptide ligands bound to monoclonal antibody E3.3. The specific peptide ligands presented on ten high-affinity phage clones displayed six different amino acid sequences, all showing a novel cis-proline turn structure. After being superimposed onto the best fit of the three-dimensional structure of JEV E protein, these peptide structures were mapped to a conformational region constituted by three continuous polypeptide segments (E307–E309, E327–E333, E386–E390) in domain III. Synthetic peptide ligands based on one peptide sequence (E18) were further investigated using alanine scanning within the cis-proline turn structure to demonstrate its unique molecular characteristics. Our results showed that three residues forming the novel cis-proline turn structure were all important in eliciting JEV-specific neutralizing antibodies in mice.