Channel gating governed symmetrically by conserved leucine residues in the M2 domain of nicotinic receptors

Abstract

IN nicotinic acetylcholine receptors (nAChR), as well as glycine, GABA_A (γ-aminobutyric acid), serotonin (5-HT_3), and GluCl glut-amate receptors, a leucine residue at the approximate midpoint of the M2 transmembrane domain (the 9′ position) is conserved across most known subunits. Structural data for the nAChR suggest that the Leu 9′ residues occupy a 'kink' in each of the five M2 helices and point into the closed channel; in the opening step, the M2 helices rotate so that Leu 9′ side chains no longer occlude the conduction pathway. Mutation of Leu 9′ to one of several other residues slows desensitization and increases sensitivity to agonist. We have exploited the α_2βγδ stoichiometry of muscle nAChR to express receptors with m_s^* = 0 to 5 Leu 9′Ser mutated subunits. Strikingly, each Leu 9′Ser mutation shifts the dose-response relation for ACh to the left by ˜10-fold; a nAChR with m_s^* = 4 is 10^4-fold more sensitive than the wild type. The results suggest that each of the five Leu 9′ residues participates independently and symmetrically in a key step in the structural transition between the closed and open states.

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