ISSN:
0948-5023
Keywords:
Keywords D1 agonists, D2 agonists, molecular mechanics, conformations, pharmacophore
Source:
Springer Online Journal Archives 1860-2000
Topics:
Chemistry and Pharmacology
Notes:
Abstract To determine the structural features responsible for their selectivity as dopamine D1 agonists, a conformational analysis has been performed on an analog of nomifensine, dihydrexidine, a benzergoline, and an isochroman using the MM2-87 program. The preferred three dimensional structure of the hydroxylated phenyl ring of the nomifensine analog was found to differ from the other compounds with a substantial energy barrier to achieving the planar conformation of the other compounds which may explain its weak potency for D1 receptors. The preferred three dimensional structures of dihydrexidine and the benzergoline were found to differ significantly despite their molecular similarity. These conformational differences were also evident in crystal structures of the compounds or their analogs. The hypothesis that an equatorial ammonium hydrogen (or amine lone pair) is required for D1 agonist selectivity was tested by performing calculations on N-methyl equatorial and N-methyl axial analogs of the compounds. Calculations were also performed on nonselective dopamine agonists (apomorphine and 5,6-diOH- and 6,7-diOH aminotetralin) and dopamine D2-selective agonists ((+)-PHNO and an analog of quinpirole). The energy difference for the N-methyl axial conformations (or their equivalent) were found to be relatively small for the nonselective agonists and more substantial for the D2-selective agonists. This suggests that D2-selectivity may be associated with the relative unfavorability of the N-methyl axial conformation and provides an explanation for the decreased potency of tertiary amine analogs of the D1-selective agonists. In the benzergoline, where the energy difference is computed to be smaller, the addition of the N-methyl group appears to have a smaller deleterious effect on D1 activity. An N-methyl axial conformation has also been observed for the benzergoline in the crystal state suggesting that this conformation is energetically accessible.
Type of Medium:
Electronic Resource
URL:
http://dx.doi.org/10.1007/s008940050005
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