α-bungarotoxin binding to acetylcholine receptor membranes studied by low angle X-ray diffraction

The nicotinic acetylcholine receptor (nAChR) carries two binding sites for snake venom neurotoxins. alpha-Bungarotoxin from the Southeast Asian banded krait, Bungarus multicinctus, is a long neurotoxin which competitively blocks the nAChR at the acetylcholine binding sites in a relatively irreversible manner. Low angle x-ray diffraction was used to generate electron density pro. le structures at 14-Angstrom resolution for Torpedo californica nAChR membranes in the absence and presence of alpha-bungarotoxin. Analysis of the lamellar diffraction data indicated a 452-Angstrom lattice spacing between stacked nAChR membrane pairs. In the presence of alpha-bungarotoxin, the quality of the diffraction data and the lamellar lattice spacing were unchanged. In the plane of the membrane, the nAChRs packed together with a nearest neighbor distance of 80 Angstrom, and this distance increased to 85 Angstrom in the presence of toxin. Electron density pro. le structures were calculated in the absence and presence of alpha-bungarotoxin, revealing a location for the toxin binding sites. In native, fully-hydrated nAChR membranes, alpha-bungarotoxin binds to the nAChR outer vestibule and contacts the surface of the membrane bilayer.