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Vol. 298, Issue 3, 1260-1268, September 2001
(A.C.)Department of Pharmacology, University of Melbourne, Parkville,
Victoria, Australia; (M.K.O.G., N.A., O.N.K., E.E.E.-F.)Departments of Psychiatry, Neuroscience,
and Pharmacology, University of Minnesota Medical School, Minneapolis,
Minnesota ; and (P.S., L.J.)Novo Nordisk A/S,
Health Care Discovery, Måløv, Denmark
Two dimeric analogs of the muscarinic acetylcholine receptor
(mAChR) agonist phenylpropargyloxy-1,2,5-thiadiazole-quinuclidine (NNC
11-1314) were synthesized and pharmacologically evaluated. In
radioligand binding assays on Chinese hamster ovary (CHO) cell membranes expressing the individual human M1 to
M5 mAChR subtypes, both dimers
[(3S)-1,4-bis-(3-[(3-azabicyclo[2.2.2]octanyl)-1,2,5-thiadiazol-4-yloxy]-1-propyn-1-yl)benzene,2-L-(+)-tartrate (NNC 11-1607) and
(3S)-1,3-bis-(3-[(3-azabicyclo[2.2.2]octanyl)-1,2,5-thiadiazol-4-yloxy]-1-propyn-1-yl)benzene,2-L-(+)-tartrate (NNC 11-1585)] exhibited higher binding affinities than the monomeric NNC 11-1314. Only NNC 11-1585, however, displayed significant selectivity for the M1 and M2 mAChRs relative
to the other subtypes. Although binding studies in rat brain
homogenates supported the selectivity profile of NNC 11-1585 observed
in the CHO membranes, rat heart membrane experiments revealed complex
binding behavior for all three agonists that most likely reflected
differences in species and host cell environment between the heart and
CHO cells. Subsequent functional assays with phosphatidylinositol hydrolysis revealed that all three novel ligands were partial agonists
relative to the full agonist oxotremorine-M at the CHO M1,
M3, and M5 mAChRs, with NNC 11-1607 displaying
the highest functional selectivity. In the CHO M2 and
M4 mAChR cells, agonist-mediated effects on
forskolin-stimulated cAMP accumulation were characterized by
bell-shaped concentration-response curves, with the exceptions of NNC
11-1607, which had no discernible effects at the M2 mAChR, and NNC 11-1585, which could only inhibit cAMP accumulation at the
M4 mAChR. Thus, we identified NNC 11-1607 as a novel
functionally selective M1/M4 mAChR agonist. Our
data suggest that dimerization of mAChR agonists is a viable approach
in designing more potent and functionally selective agonists, as well
as in providing novel tools with which to probe the nature of agonism
at these receptors.
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