Abstract
The monoclonal antibody WF6 competes with acetylcholine and α-bungarotoxin (α-BGT) for binding to the Torpedo nicotinic acetylcholine receptor (nAChR) α1 subunit. Using synthetic peptides corresponding to the complete Torpedo nAChR α1 subunit, we previously mapped a continuous epitope recognized by WF6, and the prototope for α-BGT, to the sequence segment α1(181–200). Single amino acid substitution analogs have been used as an initial approach to determine the critical amino acids for WF6 and α-BGT binding. In the present study, we continue our analysis of the structural features of the WF6 epitope by comparing its cross-reactivity with synthetic peptides corresponding to the α1 subunits from the muscle nAChRs of different species, the rat brain α2, α3, α4 and α5 nAChR subtypes, and the chick brain α-BGT binding protein subunits, αBGTBP α1 and αBGTBP α2. Our results indicate that WF6 is able to cross-react with the muscle α1 subunits of different species by virtue of conservation of several critical amino acid residues between positions 190–198 of the α1 subunit. These studies further define the essential structural features of the sequence segment α1(181–200) required to form the epitope for WF6.