Background
(±)-Modafinil has piqued interest as a treatment for ADHD and stimulant dependence. The R-enantiomer of modafinil may have unique pharmacological properties that should be further investigated.
Methods
(±)-Modafinil and its R-(−)- and S-(+)-enantiomers were synthesized and tested for inhibition of [3H]DA uptake and [3H]WIN 35,428 binding in hDAT WT and mutants with altered conformational equilibria. Data were compared to cocaine and the atypical dopamine uptake inhibitor, JHW 007. R- and S-modafinil were also evaluated in microdialysis studies in the mouse NAc shell and in a cocaine discrimination procedure.
Results
(±)-, R- and S-Modafinil bind to the DAT and inhibit dopamine uptake less potently than cocaine, with R-modafinil having ~3-fold higher affinity than its S-enantiomer. Molecular docking studies revealed subtle differences in binding modes for the enantiomers. R-modafinil was significantly less potent in the DAT Y156F mutant compared to wild-type DAT, whereas S-modafinil was affected less. Studies with the Y335A DAT mutant showed that the R- and S-enantiomers tolerated the inward facing conformation better than cocaine, which was further supported by MTSET reactivity on the DAT E2C I159C. Microdialysis studies demonstrated that both R- and S-modafinil produced increases in extracellular DA concentrations in the NAc shell less efficaciously than cocaine, and with a longer duration of action. Both enantiomers fully substituted in mice trained to discriminate cocaine from saline.
Conclusions
R-modafinil displays an in vitro profile different from cocaine. Future trials with R-modafinil as a substitute therapy with the potential benefit of cognitive enhancement for psychostimulant addiction are warranted.
A series of modafinil (1) analogues was synthesized wherein 1) para-halo-substitutents were added to the aryl rings, 2) the sulfoxide function was removed, and 3) the primary amide group was replaced with secondary and tertiary amides and amines to investigate the effects of these chemical modifications on DAT, SERT and NET binding. In addition, the locomotor-stimulant effects in mice of (±)-modafinil (1), its R- and S-enantiomers and its para-chloro sulfinylacetamide analogue (5c) were compared to those of cocaine.
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