How do acetylcholine receptor ligands reach their binding sites?

Abstract

The access pathway to the binding sites for large competitive antagonists of the nicotinic acetylcholine receptor from Torpedo californica electric tissue was analyzed by binding and photolabeling experiments with α-neurotoxins. Binding assays with [¹²⁵I]α-bungarotoxin showed an increase in the number of accessible binding sites upon stepwise solubilization of the receptor-rich membranes. Similarily, ligand binding is facilitated upon fluidization of the membrane by increasing the temperature. The access to the binding sites seems to be sterically ‘hindered’ in the densely packed membrane state. Using a novel series of large biotinylated photoactivatable derivatives of neurotoxin II, we observed that the accessibility to the α/γ- but not to the α/δ-binding site was considerably decreased for some derivatives under native conditions. This effect was less apparent at higher temperatures and could be abolished by complete solubilization. These observations support the nonequivalence of the receptor’s binding sites. Together, our data suggest (a) that α-neurotoxins approach their binding sites from the membrane-facing periphery of the receptor’s extramembrane domain rather than through the channel mouth and (b) that different entrance pathways to each binding site exist which vary in their sensitivity to the physical state of the plasma membrane.