Abstract
1. Site-directed mutagenesis was used to create an altered form of the chicken alpha7 nicotinic acetylcholine (ACh) receptor subunit (alpha7x61) in which a leucine residue was inserted between residues Leu9' and Ser10' in transmembrane domain 2. The properties of alpha7x61 receptors are distinct from those of the wild-type receptor. 2. Oocytes expressing wild-type alpha7 receptors responded to 10 microM nicotine with rapid inward currents that desensitized with a time-constant of 710+/-409 ms (mean+/-s.e.mean, n=5). However in alpha7x61 receptors 10 microM nicotine resulted in slower onset inward currents that desensitized with a time-constant of 5684+/-3403 ms (mean+/-s.e.mean, n = 4). No significant difference in the apparent affinity of nicotine or acetylcholine between mutant and wild-type receptors was observed. Dihydro-beta-erythroidine (DHbetaE) acted as an antagonist on both receptors. 3. Molecular modelling of the alpha7x61 receptor channel pore formed by a bundle of M2 alpha-helices suggested that three of the channel lining residues would be altered by the leucine insertion i.e.; Ser10 would be replaced by the leucine insertion, Val13' and Phe14' would be replaced, by Thr and Val, respectively. 4 When present in the LEV-1 nicotinic ACh receptor subunit from Caenorhabditis elegans the same alteration conferred resistance to levamisole anthelmintic drug. Levamisole blocked responses to nicotine of wild-type and alpha7x61 receptors. However, block was more dependent on membrane potential for the alpha7x61 receptors. 5. We conclude that the leucine insertion in transmembrane domain 2 has the unusual effect of slowing desensitization without altering apparent agonist affinity.