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Literature DB >> 28388054

Radiolabeled Dibenzodiazepinone-Type Antagonists Give Evidence of Dualsteric Binding at the M₂ Muscarinic Acetylcholine Receptor.

Andrea Pegoli¹, Xueke She¹, David Wifling¹, Harald Hübner², Günther Bernhardt¹, Peter Gmeiner², Max Keller¹.

Abstract

The dualsteric ligand approach, aiming at ligands with improved subtype selectivity, has been increasingly applied to muscarinic receptors (MRs). In this article, we present the synthesis and characterization of a M2R subtype-preferring radiolabeled dibenzodiazepinone-type antagonist ([3H]UNSW-MK259, [3H]19) and its homodimeric analogue [3H]UR-AP060 ([3H]33). Saturation binding studies at the M2R, using the orthosteric antagonist atropine to determine unspecific binding, proved that the monomeric and the dimeric compound bind to the orthosteric binding site (apparent Kd: 0.87 and 0.31 nM, respectively). Various binding studies with [3H]19 and [3H]33 at the M2R, for instance, saturation binding experiments in the presence of the allosteric MR modulators W84 (8) or LY2119620 (9) (Schild-like analysis) suggested a competitive mechanism between the allosteric modulator and the dibenzodiazepinone derivatives, and thus a dualsteric binding mode of both 19 and 33. This was consistent with the results of M2R MD simulations (≥2 μs) performed with 19 and 33.

Entities: Chemical

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Year: 2017 PMID： 28388054 DOI： 10.1021/acs.jmedchem.6b01892

Source DB: PubMed Journal: J Med Chem ISSN： 0022-2623 Impact factor: 7.446

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5. Heterodimerization of Dibenzodiazepinone-Type Muscarinic Acetylcholine Receptor Ligands Leads to Increased M₂R Affinity and Selectivity.

Authors: Xueke She; Andrea Pegoli; Judith Mayr; Harald Hübner; Günther Bernhardt; Peter Gmeiner; Max Keller
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