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MP Seiler, R Markstein, MD Walkinshaw and JJ Boelsterli
Preclinical Research, Sandoz Ltd., Basel, Switzerland.
A series of phenolic (cis)- and (trans)-1,2,3,4,4a,5,10,10a- octahydrobenz[g]quinolines were investigated in the D1 and D2 dopamine (DA) models, DA-sensitive adenylate cyclase and electrically evoked acetylcholine release, respectively, and were compared with the effects of the corresponding aminotetralins. A similar structure-activity pattern was found at both DA receptor subtypes. The change from the bicyclic to the tricyclic DA analogs resulted in a loss of activity of all beta-rotameric 8-hydroxy derivatives, suggesting the presence of a steric barrier. Derivatives of the alpha-rotameric 6-hydroxy trans series, in contrast to their inactive cis analogs, showed stimulatory effects that increased from N-methyl to N-n-propyl substitution, indicating an interaction with an N-alkyl binding site. The inactivity of the corresponding N-n-butyl derivative ("N-butyl phenomenon") suggests that the N-alkyl substituents of this series point toward a "small N-alkyl binding site," which can be differentiated from a "large N-alkyl binding site." An X-ray of the active (-)-enantiomer of (trans)- 6-hydroxy-N-n-propyloctahydrobenz[g]quinoline-(R)-mandelat e revealed a 4aR, 10aR absolute configuration, corresponding to that of (-)-5- hydroxy-2-(N,N-di-n-propylamino)tetralin. The hydrogen bonding interactions of the axial N+-H proton and the hydroxy group to mandelate anions in the crystal provide a model for a possible drug- receptor interaction. Molecular modeling served to localize the steric barrier and the boundaries of the small N-alkyl binding site, which together form an "extended steric barrier." The results led to the proposal of a refined version of a rotamer-based general DA receptor model, which is supplemented by criteria for the orientation of DA agonists. Its application is demonstrated with apomorphine and ergoline.
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