Abstract
VUF10166 (2-chloro-3-(4-methyl piperazin-1-yl)quinoxaline) is a ligand that binds with high affinity to 5-HT3 receptors. Here we synthesise [3H]VUF10166 and characterise its binding properties at 5-HT3A and 5-HT3AB receptors. At 5-HT3A receptors [3H]VUF10166 displayed saturable binding with a Kd of 0.18 nM. Kinetic measurements gave monophasic association (6.25 × 107 M−1 min−1) and dissociation (0.01 min−1) rates that yielded a similar Kd value (0.16 nM). At 5-HT3AB receptors two association (6.15 × 10−7, 7.23 M−1 min−1) and dissociation (0.024, 0.162 min−1) rates were seen, yielding Kd values (0.38 nM and 22 nM) that were consistent with values obtained in saturation (Kd = 0.74 nM) and competition (Ki = 37 nM) binding experiments respectively. At both receptor types, specific binding was inhibited by classical 5-HT3 receptor-selective orthosteric ligands (5-HT, allosetron, d-tubocurarine, granisetron, mCPBG, MDL72222, quipazine), but not by non-competitive antagonists (bilobalide, ginkgolide B, picrotoxin) or competitive ligands of other Cys-loop receptors (ACh, bicuculline, glycine, gabazine). To explore VUF10166 ligand–receptor interactions we used in silico modelling and docking, and tested the predictions using site directed mutagenesis. The data suggest that VUF10166 adopts a similar orientation to 5-HT3 receptor agonists bound in AChBP (varenicline) and 5HTBP (5-HT) crystal structures.
Highlights
Introduction5-HT3 receptors are transmembrane ligand-gated ion-channels that are responsible for fast synaptic neurotransmission in the central and peripheral nervous systems
VUF10166 (2-chloro-3-(4-methyl piperazin-1-yl)quinoxaline) is a ligand that binds with high affinity to 5-HT3 receptors
We performed saturation binding experiments on a7 nicotinic acetylcholine (nACh) receptors using [3H]VUF10166 which revealed no specific saturable binding. These results show that classical 5-HT3 receptor competitive antagonists compete with [3H]VUF10166, showing it binds at the orthosteric site
Summary
5-HT3 receptors are transmembrane ligand-gated ion-channels that are responsible for fast synaptic neurotransmission in the central and peripheral nervous systems They are composed of five subunits, each of which contains an extracellular, a transmembrane and an intracellular domain (Thompson et al, 2008a; Miller and Smart, 2012). The functional properties of these receptor subtypes have been reported by several groups, but to date only the pharmacologies of 5-HT3A and 5HT3AB receptors have been studied in detail (Holbrook et al, 2009; Walstab et al, 2010; Thompson et al, 2013; Thompson and Lummis, 2013). We perform a detailed characterisation of VUF10166 binding to 5-HT3A and 5-HT3AB receptors with a radiolabelled version of this compound and use mutagenesis to explore the residues that interact with VUF10166 at the AþAÀ binding site
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