Biochemistry 2006 Aug 29;4534:10337-43. doi: 10.1021/bi0603773.

Tryptophan 86 of the alpha subunit in the Torpedo nicotinic acetylcholine receptor is important for channel activation by the bisquaternary ligand suberyldicholine.

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Suberyldicholine, a bisquaternary compound, is a potent nicotinic acetylcholine receptor agonist. Previously, we suggested that at least some of the unusual binding properties of this ligand may be a consequence of its ability to cross-link two binding "subsites" within each of the high-affinity agonist binding domains [Dunn, S. M. J., and Raftery, M. A. (1997) Biochemistry 36, 3846-3853]. Tryptophan 86 of the alpha subunit has previously been implicated in the binding of agonist to this receptor. However, on the basis of the crystal structure of a homologous acetylcholine binding protein, this residue is predicted to lie 15-20 A from the high-affinity site, i.e., a distance that approximates the interonium distance of suberyldicholine. Tryptophan 86 was mutated to either an alanine or a phenylalanine, and the mutated subunit was coexpressed with wild-type beta, gamma, and delta subunits in Xenopus oocytes. Although the alanine mutation resulted in a loss of receptor expression, the alphaW86F mutant receptor was expressed on the oocyte surface, albeit with a much reduced efficiency. Acetylcholine-evoked currents of the alphaW86F receptor were not significantly different from those of the wild type with respect to the concentration dependence of channel activation, receptor desensitization, or d-tubocurarine inhibition. In contrast, the EC(50) for suberyldicholine-mediated activation of the alphaW86F receptor was increased by approximately 500-fold. Furthermore, suberyldicholine-evoked currents in the mutant receptor did not desensitize and were insensitive to block by d-tubocurarine. Thus, tryptophan 86 of the Torpedo receptor alpha subunit may be part of a subsite for recognition of suberyldicholine and other bisquaternary ligands.

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