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Mapping the structural requirements for nicotinic acetylcholine receptor activation by using tethered alkyltrimethylammonium agonists and antagonists
Authors:Stewart Deirdre S  Chiara David C  Cohen Jonathan B
Affiliation:Department of Neurobiology, Harvard Medical School, Boston, Massachusetts 02115, USA.
Abstract:A molecule as simple in structure as tetramethylammonium gates the nicotinic acetylcholine receptor (nAChR) with high efficacy. To compare the structure of the nAChR transmitter binding site in the open channel state with that of the ACh binding protein, we determined the efficacy of nAChR gating by -S(CH(2))(n)N(CH(3))(3)(+) (n = 1-4) tethered to substituted cysteines at positions in the alpha subunits or gamma and delta subunits predicted to contribute to the ACh binding sites in mutant Torpedo nAChRs expressed in Xenopus oocytes. For tethered thiocholine [-S(CH(2))(2)N(CH(3))(3)(+)], we previously reported that within alpha195-201 gating was observed only at alphaY198C while at alphaY93C it acted as an antagonist. We now show that within alpha191-194, thiocholine activates when tethered at alphaCys192 or alphaCys193. Thiocholine also activates when tethered at alphaY190C or alphaW149C in nAChRs containing a beta subunit mutation (betaL257S) that destabilizes the closed channel, but not from gammaW55C/deltaW57C, where longer adducts can activate. When tethered at positions in binding site segment E, thiocholine activates only from gammaL119C/deltaL121C, where the shorter -S(CH(2))(1)N(CH3)(3)(+) acts as an antagonist. Longer adducts tethered at gammaL109C/deltaL111C or gammaL119C/deltaL121C also activate, but less efficiently. The length requirements for efficient gating by tethered agonists agree closely with predictions based upon the structure of the agonist site in a nAChR homology model derived from the ACh binding protein structure, which suggests that this structure is an excellent model of the nAChR agonist binding site in the open channel conformation. The inability of thiocholine to activate from alphaY93C, which is not predicted by the model, is discussed in terms of the structure of the nAChR in the closed state.
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