Abstract
To characterize the structure of the agonist-binding site of the Torpedo nicotinic acetylcholine receptor (AChR), we have used [3H]acetylcholine mustard [( 3H]AChM), a reactive analog of acetylcholine, to identify residues contributing to the cation-binding subsite. Reaction of [3H]AChM, in its aziridinium form, with AChR-rich membrane suspensions, resulted initially in reversible, high affinity binding (K approximately 0.3 microM) followed by slow alkylation of the acetylcholine-binding site. Incorporation of label into AChR alpha-subunit was inhibited by agonists and competitive antagonists, but not by noncompetitive antagonists, and reaction with 3 microM [3H]AChM for 2 h resulted in specific alkylation of 0.6% of alpha-subunits. Within the alpha-subunit, greater than 90% of specific incorporation was contained within an 18-kDa Staphylococcus aureus V8 proteolytic fragment beginning at Val-46 and containing N-linked carbohydrate. To identify sites of specific alkylation, [3H]AChM-labeled alpha-subunit was digested with trypsin, and the digests were fractionated by reverse phase high pressure liquid chromatography. Specifically labeled material was recovered within a single peak containing a peptide extending from Leu-80 to Lys-107. NH2-terminal amino acid sequencing revealed specific release of 3H in cycle 14 corresponding to alpha-subunit Tyr-93. Identification of Tyr-93 as the site of alkylation was confirmed by radiosequence analysis utilizing o-phthalaldehyde to establish that the released 3H originated from a peptide containing prolines at residues 2 and 9. Because [3H]AChM contains as its reactive group a positively charged quaternary aziridinium, alpha-subunit Tyr-93 is identified as contributing to the cation-binding domain of the AChR agonist-binding site. The selective reaction of [3H]AChM with tyrosyl rather than acidic side chains indicates the importance of aromatic interactions for the binding of the quaternary ammonium group, and the lack of reaction with the tyrosyl or acidic side chains within alpha 190-200 emphasizes the selective orientation of acetylcholine within its binding site.
Highlights
To characterize the structuroef the agonist-binding The nicotinic acetylcholine receptor (AChR)' of Torpedo site of the Torpedo nicotinicacetylcholinereceptor electric organ is a ligand-gated ion channel composed of four (AChR), wehave used ['H]acetylcholine mustard
AChM), a reactive analog of acetylcholine, to identify
Incorporation of label intoAChR a-subunit was inhibited by agonists and competitive antagonists, but not b y noncompetitive antagonists, and reaction wit3h PM ["HIAChM for 2 hresultedinspecificalkylation of 0.6% of a-subunits.Within thea-subunit, >SO% of a protein superfamily (reviewed by Claudio(1989), Betz, (1990)).The relatively high concentration of AChRs in Torpedo electric organ has made possible extensive biochemical and biophysical structural studies that are the boaf sciusrrent models of thestructure of ligand-gatedion channels (for recent reviews, see Stroud et al (1990), Galzi et al (1991))
Summary
To characterize the structuroef the agonist-binding The nicotinic acetylcholine receptor (AChR)' of Torpedo site of the Torpedo nicotinicacetylcholinereceptor electric organ is a ligand-gated ion channel composed of four (AChR), wehave used ['H]acetylcholine mustard T o further delimit theregion of V8-18 containing the sites of alkylation by ["HIAChM, V8-18 was produced by digestion of labeled a-subunit with S. aureus V8 protease in solution and isolated by reverse phaseHPLCas describedunder "Experimental Procedures." Whenamino acid sequence analysis was carried out on V8-18 containing 4200 cpm, a unique sequence beginning a t Thr-52 in the a-subunit was detected that was sequenced for 20 cycles at 91% repetitive yield.
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