Effects of ( R)-Modafinil and Modafinil Analogues on Dopamine Dynamics Assessed by Voltammetry and Microdialysis in the Mouse Nucleus Accumbens Shell.
Jacqueline D KeighronJuliana C QuartermanJianjing CaoEmily M DeMarcoMark A CoggianoApre GleavesRachel D SlackClaudio ZanettiniAmy Hauck NewmanGianluigi TandaPublished in: ACS chemical neuroscience (2019)
Recent discoveries have improved our understanding of the physiological and pathological roles of the dopamine transporter (DAT); however, only a few drugs are clinically available for DAT-implicated disorders. Among those drugs, modafinil (MOD) and its ( R)-enantiomer (R-MOD) have been used off-label as therapies for psychostimulant use disorders, but they have shown limited effectiveness in clinical trials. Recent preclinical studies on MOD and R-MOD have led to chemically modified structures aimed toward improving their neurobiological properties that might lead to more effective therapeutics for stimulant use disorders. This study examines three MOD analogues (JJC8-016, JJC8-088, and JJC8-091) with improved DAT affinities compared to their parent compound. These compounds were investigated for their effects on the neurochemistry (brain microdialysis and FSCV) and behavior (ambulatory activity) of male Swiss-Webster mice. Our data indicate that these compounds have dissimilar effects on tonic and phasic dopamine in the nucleus accumbens shell and variability in producing ambulatory activity. These results suggest that small changes in the chemical structure of a DAT inhibitor can cause compounds such as JJC8-088 to produce effects similar to abused psychostimulants like cocaine. In contrast, other compounds like JJC8-091 do not share cocaine-like effects and have a more atypical DAT-inhibitor profile, which may prove to be an advancement in the treatment of psychostimulant use disorders.
Keyphrases
- clinical trial
- blood pressure
- prefrontal cortex
- randomized controlled trial
- molecular docking
- systematic review
- computed tomography
- high resolution
- electronic health record
- metabolic syndrome
- mesenchymal stem cells
- big data
- bone marrow
- study protocol
- adipose tissue
- high fat diet induced
- atomic force microscopy
- combination therapy
- phase iii