Abstract
The two transmitter binding sites of the neuromuscular acetylcholine (ACh) receptor channel contain several aromatic residues, including a tryptophan located on the complementary, negative face of each binding pocket. These two residues, Trp-55 in the epsilon subunit and Trp-57 in the delta subunit, were mutated (AEFHILRVY), and for most constructs the rate constants for acetylcholine binding and channel gating were estimated by using single channel kinetic analyses. The rate constants for unliganded channel opening and closing were also estimated for some mutants. From these measurements we calculated all of the equilibrium constants of the "allosteric" cycle as follows: diliganded gating, unliganded gating, dissociation from the C(losed) conformation, and dissociation from the O(pen) conformation. The results indicate the following. (i) These aromatic side chains play a relatively minor role in ACh receptor channel activation. (ii) The main consequence of mutations is to reduce the affinity of the O conformation of the binding site for ACh, with the effect being greater at the epsilon subunit. (iii) In epsilon (but not delta) the aromatic nature of the side chain is important in determining affinity, to a slightly greater degree in the O conformation. Phi value analyses (of both tryptophan residues) show Phi approximately 1 for both the ACh binding and diliganded gating reactions. (iv) This suggests that the structural boundaries of the dynamic elements of the gating conformational change may not be subunit-delimited, and (v) the mutated tryptophan residues experience energy changes that occur relatively early in both the ligand-binding and channel-gating reactions.
Highlights
Structures of the heteromeric Torpedo muscle-type AChR [4], the homomeric ELIC [5], GLIC [6], and acetylcholine-binding proteins [7, 8] show that each ligand-binding site contains several aromatic residues that are mostly conserved among these pentameric receptors (Fig. 1)
Mutations of the two WϪ residues impair ACh binding more than channel gating, but in either case the effects were not large
Other minusside residues need to be examined, this result suggests that the plus-side of the binding site is the principal structural entity with regard to both ACh binding and channel gating
Summary
Detailed methods are given in Jha et al [20]. Mutant AChRs were transiently expressed in human embryonic kidney cells, and single channel currents were recorded in the cell-attached patch configuration at 23 °C. We attempted to measure unliganded gating (no agonist added to the pipette) in 17 mutant constructs (Ala, Glu, Phe, His, Leu, Arg, Val, and Tyr at ⑀Trp-55 or ␦Trp-57, plus Ile at ␦Trp-57). These mutations were expressed on a triple mutant background, either ␣P272A/␣D97A/␣Y127F [20, 24, 25] or ␣S269I/␣D97A/␣Y127F (24 –26), which by themselves increase the unliganded gating equilibrium constant (E0) by a factor of 2.2 or 1.1 ϫ 106, respectively and, give rise to clusters of unliganded openings [27]. A spreadsheet of mutants and equilibrium constant measurements is shown in Fig. 1, bottom
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