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Discriminative stimulus effects of hallucinogens and psychostimulants in S(+)‐MDMA, and R(−)‐MDMA trained mice

Kevin Sean Murnane, Leonard L Howell, William E Fantegrossi

The FASEB Journal March 1, 2008 Peer reviewed DOI: 10.1096/fasebj.22.1_supplement.713.2

Summary

The study investigates the behavioral effects of the two isomers of MDMA in mice, showing that the R(−) isomer exhibits hallucinogen-like effects while the S(+) isomer shows stimulant-like effects. Mice were trained to distinguish between these isomers and various other drugs, revealing efficacy differences within chemical classes and potency differences within behavioral classes. This research enhances understanding of MDMA's complex discriminative stimulus properties.

Study at a glance

Population mice
Key finding The R(−) isomer of MDMA has hallucinogen-like effects, while the S(+) isomer has stimulant-like effects.

Abstract

3,4‐Methylenedioxymethamphetamine (MDMA) is an amphetamine derivative with increasingly widespread abuse. MDMA has been difficult to classify as a stimulant or hallucinogen because it shares effects with both drug classes. Furthermore, racemic MDMA is composed of two isomers that vary in terms of behavioral effects rather than simple potency differences. Specifically, the R(−) isomer of MDMA has hallucinogen like effects whereas the S(+) isomer has stimulant like effects. In the present study, mice were trained under a liquid food reinforcer two lever operant paradigm to discriminate S(+) or R(−)‐MDMA from vehicle. Drugs that are hallucinogen like and either structurally similar (2,5‐dimethoxy‐4‐(n)‐propylthiophenethylamine ‐ 2C‐T‐7) or not (N,N‐Dipropyltryptamine ‐ DPT) and drugs that are stimulant like and either structurally similar (Amphetamine) or not (Cocaine) were substituted for the training drug in mice trained to discriminate each isomer. Within chemical class we have found apparent efficacy differences whereas within behavioral class we have found potency differences. These studies enlighten our understanding of the complex nature of the discriminative stimulus properties of MDMA.

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