PT  - JOURNAL ARTICLE
AU  - Christian Tränkle
AU  - Andreas Dittmann
AU  - Uwe Schulz
AU  - Oliver Weyand
AU  - Stefan Buller
AU  - Kirstin Jöhren
AU  - Eberhard Heller
AU  - Nigel J. M. Birdsall
AU  - Ulrike Holzgrabe
AU  - John Ellis
AU  - Hans Dieter Höltje
AU  - Klaus Mohr
TI  - Atypical Muscarinic Allosteric Modulation: Cooperativity between Modulators and Their Atypical Binding Topology in Muscarinic M<sub>2</sub> and M<sub>2</sub>/M<sub>5</sub> Chimeric Receptors
AID  - 10.1124/mol.105.017707
DP  - 2005 Dec 01
TA  - Molecular Pharmacology
PG  - 1597--1610
VI  - 68
IP  - 6
4099  - http://molpharm.aspetjournals.org/content/68/6/1597.short
4100  - http://molpharm.aspetjournals.org/content/68/6/1597.full
SO  - Mol Pharmacol2005 Dec 01; 68
AB  - The binding and function of muscarinic acetylcholine receptors can be modulated allosterically. Some allosteric muscarinic ligands are “atypical”, having steep concentration-effect curves and not interacting competitively with “typical” allosteric modulators. For atypical agents, a second allosteric site has been proposed. Different approaches have been used to gain further insight into the interaction with M2 receptors of two atypical agents, tacrine and the bispyridinium compound 4,4′-bis-[(2,6-dichloro-benzyloxy-imino)-methyl]-1,1′-propane-1,3-diyl-bispyridinium dibromide (Duo3). Interaction studies, using radioligand binding assays and the allosteric ligands obidoxime, Mg2+, and the new tool hexamethonium to antagonize the allosteric actions of the atypical ligands, showed different modes of interaction for tacrine and Duo3 at M2 receptors. A negatively cooperative interaction was observed between hexamethonium and tacrine (but not Duo3). A tacrine dimer that exhibited increased allosteric potency relative to tacrine but behaved like a typical allosteric modulator was competitively inhibited by hexamethonium. M2/M5-receptor mutants revealed a dependence of tacrine and Duo3 affinity on different receptor epitopes. This was confirmed by docking simulations using a three-dimensional model of the M2 receptor. These showed that the allosteric site could accommodate two molecules of tacrine simultaneously but only one molecule of Duo3, which binds in different mode from typical allosteric agents. Therefore, the atypical actions of tacrine and Duo3 involve different modes of receptor interaction, but their sites of attachment seem to be the “common” allosteric binding domain at the entrance to the orthosteric ligand binding pocket of the M2-receptor. Additional complex behavior may be rationalized by allosteric interactions transmitted within a receptor dimer.