Human and rat monoamine oxidase-A are differentially inhibited by (S)-4-alkylthioamphetamine derivatives: Insights from molecular modeling studies
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Human and rat monoamine oxidase-A are differentially inhibited by (S)-4-alkylthioamphetamine derivatives: Insights from molecular modeling studies
Abstract
Abstract—Four enantiomerically pure (S)-4-alkylthioamphetamine derivatives were evaluated as monoamine oxidase (MAO) inhibitors
using the human and rat isoforms of the enzyme. Molecular dockings were performed in order to gain insights regarding the
binding mode of these inhibitors. All compounds were potent and selective MAO-A inhibitors although different rank orders of
potencies were observed against the enzymes from different species. This behavior can be rationalized on the basis of different binding
modes to each enzyme, as determined in silico. These findings further support the concept that MAO inhibitory activity of novel
compounds, determined with enzymes from diverse mammalian species, should be considered with caution if human MAO is the
final target to be addressed.
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This work was partially funded by FONDECYT Grant
1060199 and DICYT Grant 020591RPRP. D.E.E.
acknowledges research support from the National Institutes
of Health (GM29433). The compounds described
were synthesized by MOO during a stay in Prof. E. Breitmaier’s
laboratory at the University of Bonn as the recipient of a DAAD grant. We also thank Dr. Juan
Guerrero for his assistance in the NMR spectroscopy
with the chiral shift reagent, Ms. Milagros Aldeco for
the preparation of purified recombinant human MAO
A and MAO B, and Drs. G. Zapata-Torres and C. Mascayano
and Prof. M. C. Rezende for their contribution
to the computational work. A.F. was the recipient of
CONICYT and MECESUP scholarships
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Bioorganic & Medicinal Chemistry, Vol. 15, p. 5198–5206, 2007.
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