Protein Engineering, Vol. 13, No. 10, 719-724,
October 2000
© 2000 Oxford University Press
Control of antibody–antigen interaction using anion-induced conformational change in antigen peptide
Department of Biotechnology, Graduate School of Engineering and 2 Institute for Protein Research, Osaka University, Suita, Osaka 565-0871, Japan
The binding of a monoclonal antibody to an epitope peptide was controlled by the conformational change of the epitope peptide induced by anions. We synthesized peptides in which the epitope sequence DTYRYI for the monoclonal antibody AU1 is located between amphiphilic peptides (KKLL)n and (LLKK)n. In the absence of an appropriate anion, the peptide was in a random coil state and the epitope was linear. In contrast, in the presence of an appropriate anion, the peptide exhibited an anti-parallel 
-helical structure and the epitope was subsequently `bent'. In the presence of 41 µM triphosphate, the association constant between the antibody and the peptide was decreased by one order of magnitude in the case of n = 3 and at least three orders of magnitude in the case of n = 4 or 5. Oligo-DNAs, as anions, dissociated the antibody–peptide complex, whereas triphosphate did not. The DNA concentrations required for 50% dissociation of the antibody–peptide complex at pH 7.5 were 4x10–8, 1x10–7 and 6x10–6 M for decamer, octamer and hexamer DNA, respectively.