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http://dx.doi.org/10.5657/KFAS.2015.0071

Selectivity of the α6 nAChR Subunit on α-conotoxin BuIA Studied by Molecular Dynamics Simulations  

Tham, Phan Thi Hong (Interdisciplinary Program of Biomedical Mechanical and Electrical Engineering, Pukyong National University)
Yi, Myunggi (Department of Biomedical Engineering, Pukyong National University)
Publication Information
Korean Journal of Fisheries and Aquatic Sciences / v.48, no.1, 2015 , pp. 71-75 More about this Journal
Abstract
Nicotinic acetylcholine receptors (nAChRs) are essential for neurotransmission and important therapeutic targets of diseases related to neurotransmission. A recent experimental study identified three residues (Lys185, Asp187, and Ile188) of the ${\alpha}6$ nAChR subunit as determinants of ${\alpha}$-conotoxin BuIA selectivity, yet how these residues confer toxin selectivity remains unclear. In this study, we performed all-atom molecular dynamics simulations with two toxin-bound ${\alpha}4{\beta}2$ nAChR systems: the wild-type ${\alpha}4{\beta}2$ and one in which we replaced the three ${\alpha}4$ subunit residues with three ${\alpha}6$ subunit residues identified in an experimental study (Tyr185Lys, Thr187Asp, and Arg188Ile). After mutation, Asp199 lost the salt bridge formed with Arg188 in the wild type located around loop C. Then, the loop C conformation changed and became more flexible than that of the wild type. We also detected reduced space between the toxin and the binding site in the mutant simulation, resulting in increased binding affinity to the toxin. Therefore, we propose a new Asp199 mutation that breaks the salt bridge and may produce similar selectivity to that of the Arg188 mutation.
Keywords
nAChR; Selectivity; Molecular dynamics; Salt bridge; ${\alpha}$-conotoxin BuIA;
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