Mordvintsev D Yu, Polyak Ya L, Levtsova O V, Tourleigh Ye V, Kasheverov I E, Shaitan K V, Utkin Yu N, Tsetlin V I
Shemyakin-Ovchinnikov Institute of Bioorganic Chemistry RAS, 117997, Miklukho-Maklaya str., 16/10, GSP-7, Moscow, Russia.
Comput Biol Chem. 2005 Dec;29(6):398-411. doi: 10.1016/j.compbiolchem.2005.08.007. Epub 2005 Nov 11.
Short-chain alpha-neurotoxins from snakes are highly selective antagonists of the muscle-type nicotinic acetylcholine receptors (nAChR). Although their spatial structures are known and abundant information on topology of binding to nAChR is obtained by labeling and mutagenesis studies, the accurate structure of the complex is not yet known. Here, we present a model for a short alpha-neurotoxin, neurotoxin II from Naja oxiana (NTII), bound to Torpedo californica nAChR. It was built by comparative modeling, docking and molecular dynamics using 1H NMR structure of NTII, cross-linking and mutagenesis data, cryoelectron microscopy structure of Torpedo marmorata nAChR [Unwin, N., 2005. Refined structure of the nicotinic acetylcholine receptor at 4A resolution. J. Mol. Biol. 346, 967-989] and X-ray structures of acetylcholine-binding protein (AChBP) with agonists [Celie, P.H., van Rossum-Fikkert, S.E., van Dijk, W.J., Brejc, K., Smit, A.B., Sixma, T.K., 2004. Nicotine and carbamylcholine binding to nicotinic acetylcholine receptors as studied in AChBP crystal structures. Neuron 41 (6), 907-914] and antagonists: alpha-cobratoxin, a long-chain alpha-neurotoxin [Bourne, Y., Talley, T.T., Hansen, S.B., Taylor, P., Marchot, P., 2005. Crystal structure of Cbtx-AChBP complex reveals essential interactions between snake alpha-neurotoxins and nicotinic receptors. EMBO J. 24 (8), 1512-1522] and alpha-conotoxin [Celie, P.H., Kasheverov, I.E., Mordvintsev, D.Y., Hogg, R.C., van Nierop, P., van Elk, R., van Rossum-Fikkert, S.E., Zhmak, M.N., Bertrand, D., Tsetlin, V., Sixma, T.K., Smit, A.B., 2005. Crystal structure of nicotinic acetylcholine receptor homolog AChBP in complex with an alpha-conotoxin PnIA variant. Nat. Struct. Mol. Biol. 12 (7), 582-588]. In complex with the receptor, NTII was located at about 30 A from the membrane surface, the tip of its loop II plunges into the ligand-binding pocket between the alpha/gamma or alpha/delta nAChR subunits, while the loops I and III contact nAChR by their tips only in a 'surface-touch' manner. The toxin structure undergoes some changes during the final complex formation (for 1.45 rmsd in 15-25 ps according to AMBER'99 molecular dynamics simulation), which correlates with NMR data. The data on the mobility and accessibility of spin- and fluorescence labels in free and bound NTII were used in MD simulations. The binding process is dependent on spontaneous outward movement of the C-loop earlier found in the AChBP complexes with alpha-cobratoxin and alpha-conotoxin. Among common features in binding of short- and long alpha-neurotoxins is the rearrangement of aromatic residues in the binding pocket not observed for alpha-conotoxin binding. Being in general very similar, the binding modes of short- and long alpha-neurotoxins differ in the ways of loop II entry into nAChR.
蛇源短链α-神经毒素是肌肉型烟碱型乙酰胆碱受体(nAChR)的高度选择性拮抗剂。尽管它们的空间结构已知,并且通过标记和诱变研究获得了大量关于与nAChR结合拓扑的信息,但复合物的精确结构仍不清楚。在此,我们提出了一种来自中亚眼镜蛇(Naja oxiana)的短α-神经毒素——神经毒素II(NTII)与加州电鳐nAChR结合的模型。该模型通过比较建模、对接和分子动力学构建,使用了NTII的1H NMR结构、交联和诱变数据、斑纹电鳐nAChR的冷冻电子显微镜结构[Unwin, N., 2005. 4A分辨率下烟碱型乙酰胆碱受体的精细结构。《分子生物学杂志》346, 967 - 989]以及乙酰胆碱结合蛋白(AChBP)与激动剂的X射线结构[Celie, P.H., van Rossum-Fikkert, S.E., van Dijk, W.J., Brejc, K., Smit, A.B., Sixma, T.K., 2004. 从AChBP晶体结构研究尼古丁和氨甲酰胆碱与烟碱型乙酰胆碱受体的结合。《神经元》41 (6), 907 - 914]以及拮抗剂:α-眼镜蛇毒素,一种长链α-神经毒素[Bourne, Y., Talley, T.T., Hansen, S.B., Taylor, P., Marchot, P., 200年。Cbtx - AChBP复合物的晶体结构揭示了蛇α-神经毒素与烟碱型受体之间的关键相互作用。《欧洲分子生物学组织杂志》24 (8), 1512 - 1522]和α-芋螺毒素[Celie, P.H., Kasheverov, I.E., Mordvintsev, D.Y., Hogg, R.C., van Nierop, P., van Elk, R., van Rossum-Fikkert, S.E., Zhmak, M.N., Bertrand, D., Tsetlin, V., Sixma, T.K., Smit, A.B., 2005. 烟碱型乙酰胆碱受体同系物AChBP与α-芋螺毒素PnIA变体复合物的晶体结构。《自然结构与分子生物学》12 (7), 582 - 588]。在与受体形成的复合物中,NTII位于距膜表面约30 Å处,其环II的尖端插入α/γ或α/δ nAChR亚基之间的配体结合口袋,而环I和环III仅通过其尖端以“表面接触”方式与nAChR接触。根据AMBER'99分子动力学模拟,在最终复合物形成过程中,毒素结构会发生一些变化(在15 - 25 ps内均方根偏差为1.45),这与NMR数据相关。MD模拟中使用了游离和结合态NTII中自旋和荧光标记的迁移率和可及性数据。结合过程依赖于先前在AChBP与α-眼镜蛇毒素和α-芋螺毒素复合物中发现的C环的自发向外移动。短链和长链α-神经毒素结合的共同特征之一是结合口袋中芳香族残基的重排,这在α-芋螺毒素结合中未观察到。短链和长链α-神经毒素的结合模式总体非常相似,但环II进入nAChR的方式不同。
