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Characterization of neurotransmitter inhibition for seven cathinones by a proprietary fluorescent dye method

Mattias Persson, Svante Vikingsson, Robert Kronstrand, Henrik Gréen

2023Drug Testing and Analysis14 citationsDOIOpen Access PDF

Abstract

Abstract Many new psychoactive substances (NPS) are stimulants, and information about their potency and abuse potential is often lacking. To start addressing this need, a method measuring the inhibition of the dopamine, serotonin, and norepinephrine transporters (DAT, SERT, and NET) by stimulant drugs was developed. The use of a proprietary fluorescent dye mixture and three cell lines (CHO‐K1, HEK 293, and MDCK), each expressing a single transporter, allowed for a semiautomated, one‐pot determination of inhibition in a 384‐well format. The method was validated using well characterized stimulants, including cocaine, amphetamine, 3,4‐methylenedioxymethamphetamine (MDMA), α‐PVP, and fluoxetine and performed similarly to other methods. Seven synthetic cathinones all showed highest potency for DAT inhibition, followed by NET and SERT. The rank potency for DAT inhibition IC 50 (nM) was MPHP (4.53) > 4Cl‐α‐PVP (8.05) > 3F‐α‐PVP (12.7) > α‐PiHP (13.4) > N ‐ethylpentylone (16.9) > N ‐ethylhexedrone (44.5) > 4‐methylpentedrone (261). All but 4‐methylpentedrone were more potent than amphetamine (257) and cocaine (111). The DAT/SERT inhibition ratio for the cathinones was in the range from 5.02 for 4‐methylpentedrone to >3730 for α‐PiHP, compared to 1.64 for cocaine and >4030 for α‐PVP. All seven substances had inhibition profiles similar to those of potent stimulants with high abuse potential.

Topics & Concepts

AmphetaminePharmacologyPotencyMDMAChemistryDopamine transporterCathinoneNorepinephrine transporterDopamineStimulantSerotoninIn vitroTransporterMedicineBiochemistryInternal medicineGeneReceptorForensic Toxicology and Drug AnalysisPsychedelics and Drug StudiesNeurotransmitter Receptor Influence on Behavior
Characterization of neurotransmitter inhibition for seven cathinones by a proprietary fluorescent dye method | Litcius