(+/-)-(Z)-2-(Aminomethyl)-1-phenylcyclopropane-N,N-diethylcarbo xamide (milnacipran, 1), a clinically useful antidepressant, and its derivatives were prepared by an improved method and were evaluated as NMDA receptor antagonists. Of these, milnacipran (1), its N-methyl and N,N-dimethyl derivatives, 7 and 8, respectively, and its homologue 12 at the aminomethyl moiety had binding affinity for the receptor in vitro (IC50: 1, 6.3 +/- 0.3 microM; 7, 13 +/- 2.1 microM; 8, 88 +/- 1.4 microM; 12, 10 +/- 1.2 microM). These also protected mice from NMDA-induced lethality. These compounds would be important as anovel prototype for designing potent NMDA-receptor antagonists because of their characteristic structure, which clearly differentiated them from known competitive and noncompetitive antagonists to the receptor.
Adjacent substituents on a cyclopropane ring mutually exert steric
repulsion quite significantly,
because they are fixed in eclipsed conformation to each other.
Based on this structural feature of
the cyclopropane ring, conformationally restricted analogs of
milnacipran (1), namely 1-phenyl-2-(1-aminoalkyl)-N,N-diethylcyclopropanecarboxamides
(2, 3, ent-
2, and
ent-
3) were designed as potent
NMDA receptor antagonists and were synthesized highly
enantioselectively. Reaction of (R)-epichlorohydrin [(R)-5] and phenylacetonitrile
(6) in the presence of NaNH2 in benzene gave a
chiral
cyclopropane derivative that was isolated as lactone 4 with
96% ee in 67% yield, after alkaline
hydrolysis of the cyano group. The nucleophilic addition reaction
of Grignard reagents to aldehyde
10, which was readily prepared from 4, proceeded
highly selectively from the si-face to afford
addition
products 11 in high yields. Although hydride reduction
of the corresponding ketone 15b, prepared
from 11b, with L-Selectride also proceeded highly
diastereoselectively, the facial selectivity was
reversed to give the re-face addition product
11b. On the other hand, reduction of 15 with
DIBAL-H
afforded the si-face addition product 12 in high
yields. These results suggested that these
nucleophilic addition reactions proceeded via either the bisected
s-trans or s-cis conformation of
the cyclopropylcarbonyl derivatives. From 11 and
12, the target conformationally resticted
analogs,
2 and 3, were synthesized, respectively.
Starting from (S)-epichlorohydrin
[(S)-5], their corresponding enantiomers, ent-
2 and
ent-3, were also synthesized. The structures
of the conformationally restricted analogs detected by the X-ray crystallographic
analysis suggested that their
conformations can be restricted as we hypothesized. Thus, a new
method for restricting the
conformation of cyclopropane derivatives has been
developed.
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