Design of antibody-reactive peptides from discontinuous parts of scorpion toxins.

The Amm VIII protein was previously isolated from the venom of the scorpion Androctonus mauretanicus mauretanicus. Despite 87% identity with AaH II, the most toxic α-type scorpion toxin, Amm VIII is not toxic to mice. However, antisera against Amm VIII protect mice from AaH II lethal action. Here, we report that the Amm VIII protein elicits antibodies that only recognize discontinuous-type epitopes since we could not observe any antibody binding to overlapping 12-mer peptides covering the whole Amm VIII sequence. By using a new bioinformatic tool, 24 peptides mimicking discontinuous regions of Amm VIII were designed in silico, then prepared by Spot synthesis. Seven of these discontinuous–continuous peptides were recognized by anti-Amm VIII antibodies. Analysis of the 3D location of the segments that compose the antigenically reactive discontinuous–continuous peptides, allowed us to group those antigenic segments into three regions of Amm VIII, putatively corresponding to discontinuous antigenic regions of α-type scorpion toxins. Anti-Amm VIII antibodies were also found to cross-react towards several of the discontinuous–continuous peptides designed from the AaH II structure, pointing to a possible involvement of the corresponding discontinuous epitopes in the capacity displayed by anti-Amm VIII antibodies to neutralize AaH II. Altogether, our results show that it is possible to design antibody-reactive peptides from discontinuous parts of scorpion toxins. The position of the reactive segments in the structural context of scorpion toxins highlights the antigenic properties of the Amm VIII anatoxin and concurs to explain the capacity of anti-Amm VIII antibodies to neutralize the potent AaH II toxin.