| 1. |
- de Kloe, Gerdien E, et al.
(author)
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Surface Plasmon Resonance Biosensor Based Fragment Screening Using Acetylcholine Binding Protein Identifies Ligand Efficiency Hot Spots (LE Hot Spots) by Deconstruction of Nicotinic Acetylcholine Receptor α7 Ligands
- 2010
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In: Journal of Medicinal Chemistry. - : American Chemical Society (ACS). - 0022-2623 .- 1520-4804. ; 53:19, s. 7192-7201
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Journal article (peer-reviewed)abstract
- The soluble acetylcholine binding protein (AChBP) is a homologue of the ligand-binding domain of the nicotinic acetylcholine receptors (nAChR). To guide future fragment-screening using surface plasmon resonance (SPR) biosensor technology as a label-free, direct binding, biophysical screening assay, a focused fragment library was generated based on deconstruction of a set of α7 nAChR selective quinuclidine containing ligands with nanomolar affinities. The interaction characteristics of the fragments and the parent compounds with AChBP were evaluated using an SPR biosensor assay. The data obtained from this direct binding assay correlated well with data from the reference radioligand displacement assay. Ligand efficiencies for different (structural) groups of fragments in the library were correlated to binding with distinct regions of the binding pocket, thereby identifying ligand efficiency hot spots (LE hot spots). These hot spots can be used to identity the most promising hit fragments in a large scale fragment library screen.
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| 2. |
- Geitmann, Matthis, et al.
(author)
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Interaction kinetic and structural dynamic analysis of ligand binding to acetylcholine-binding protein
- 2010
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In: Biochemistry. - : American Chemical Society (ACS). - 0006-2960 .- 1520-4995. ; 49:37, s. 8143-8154
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Journal article (peer-reviewed)abstract
- The mechanism of agonist interactions with Cys-loop ligand-gated ion channels has been studied using the acetylcholine-binding protein (AChBP) from Lymnaea stagnalis as a model protein, and acetylcholine, nicotine, epibatidine and a series of substituted quinuclidines as ligands. A biosensor-based assay for direct interaction studies of immobilized AChBP and small molecule ligands was developed. It allowed the characterization of the interaction kinetics of the ligands and the structural dynamics of the protein. The interactions with AChBP were very sensitive to variations in the experimental conditions and showed several types of complexities. These could be resolved into two types of ligand-induced secondary effects with different kinetics, representing fast and slow conformational changes. The data could be rationalized in a mechanistic model and a structural interpretation of the interaction was obtained by molecular modelling involving induced-fit and loop flexibility simulations. The data suggests that AChBP exhibits ligand-induced structural dynamics, as expected for the ligand gating mechanism of Cys-loop receptors. It shows that the formation of the initial encounter complex between AChBP and ligands is very rapid, in accordance with the functional characteristics required of neurotransmission. These developed procedures will enable further exploration of the mechanism of Cys-loop receptor function and the identification of specific ligands suitable for pharmacological use.
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