AChBP-targeted [alpha]-conotoxin correlates distinct binding orientations with nAChR subtype selectivity

Neuronal nAChRs are a diverse family of pentameric ion channels with wide distribution throughout cells of the nervous and immune systems. However, the role of specific subtypes in normal and pathological states remains poorly understood due to the lack of selective probes. Here, we used a binding a...

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Veröffentlicht in:	The EMBO journal 2007-08, Vol.26 (16), p.3858-3867
Hauptverfasser:	Dutertre, Sébastien, Ulens, Chris, Büttner, Regina, Fish, Alexander, René van Elk, Kendel, Yvonne, Hopping, Gene, Alewood, Paul F, Schroeder, Christina, Nicke, Annette, Smit, August B, Sixma, Titia K, Lewis, Richard J
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Sprache:	eng
Schlagworte:	Binding sites Cellular biology Conus textile Molecular biology Probes Proteins
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creator	Dutertre, Sébastien Ulens, Chris Büttner, Regina Fish, Alexander René van Elk Kendel, Yvonne Hopping, Gene Alewood, Paul F Schroeder, Christina Nicke, Annette Smit, August B Sixma, Titia K Lewis, Richard J
description	Neuronal nAChRs are a diverse family of pentameric ion channels with wide distribution throughout cells of the nervous and immune systems. However, the role of specific subtypes in normal and pathological states remains poorly understood due to the lack of selective probes. Here, we used a binding assay based on acetylcholine-binding protein (AChBP), a homolog of the nicotinic acetylcholine ligand-binding domain, to discover a novel alpha-conotoxin (alpha-TxIA) in the venom of Conus textile. Alpha-TxIA bound with high affinity to AChBPs from different species and selectively targeted the alpha(3)beta(2) nAChR subtype. A co-crystal structure of Ac-AChBP with the enhanced potency analog TxIA(A10L), revealed a 20 degrees backbone tilt compared to other AChBP-conotoxin complexes. This reorientation was coordinated by a key salt bridge formed between Arg5 (TxIA) and Asp195 (Ac-AChBP). Mutagenesis studies, biochemical assays and electrophysiological recordings directly correlated the interactions observed in the co-crystal structure to binding affinity at AChBP and different nAChR subtypes. Together, these results establish a new pharmacophore for the design of novel subtype-selective ligands with therapeutic potential in nAChR-related diseases.
doi_str_mv	10.1038/sj.emboj.7601785
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subjects	Binding sites Cellular biology Conus textile Molecular biology Probes Proteins
title	AChBP-targeted [alpha]-conotoxin correlates distinct binding orientations with nAChR subtype selectivity
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