Substitutions of amino acids in the pore domain of homomeric alpha7 nicotinic receptors for analogous residues present in heteromeric receptors modify gating, rectification and binding properties.

摘要

We have studied the role of different amino acids in the M2 transmembrane domain of the alpha7 neuronal nicotinic receptor by mutating residues that differ from the ones located at the same positions in other alpha (alpha2-alpha10) or beta (beta2-beta4) subunits. Our aim was to investigate the contribution of these amino acids to the peculiar kinetic and inward rectification properties that differentiate the homomeric alpha7 receptor from other nicotinic receptors. Mutations of several residues strongly modified receptor function. We found that Thr245 had the most profound effect when mutated to serine, an amino acid present in all heteromeric receptors composed of alpha and beta subunits, by dramatically increasing the maximal current, decreasing the decaying rate of the currents and decreasing receptor rectification. Some mutants also showed altered agonist-binding properties as revealed by shifts in the dose-response curves for acetylcholine. We conclude that residues in the M2 segment and flanking regions contribute to the unusual properties of the alpha7 receptor, especially to its characteristic fast kinetic behavior and strong inward rectification and furthermore to the potency of agonists.