1. Dear Drugs-Forum readers: We are a small non-profit that runs one of the most read drug information & addiction help websites in the world. We serve over 4 million readers per month, and have costs like all popular websites: servers, hosting, licenses and software. To protect our independence we do not run ads. We take no government funds. We run on donations which average $25. If everyone reading this would donate $5 then this fund raiser would be done in an hour. If Drugs-Forum is useful to you, take one minute to keep it online another year by donating whatever you can today. Donations are currently not sufficient to pay our bills and keep the site up. Your help is most welcome. Thank you.
    PLEASE HELP

MDMA-like Stimulus Effects of Alpha-Ethyltryptamine, and the Alpha-Ethyl Homolog of DOM (1993)

MDMA-like Stimulus Effects of Alpha-Ethyltryptamine, and the Alpha-Ethyl Homolog of DOM (1993)

  1. Jatelka
    Pharmacology, Biochemistry and Behaviour 1993 Oct;46(2):459-62

    Glennon RA

    One-carbon homologation of phenylalkylamine or indolylalkylamine hallucinogens containing an alpha-methyl substituent typically results in a reduction of hallucinogenic potency; however, this same structural change has little to no effect on agents that produce MDMA-like effects. In the present investigation, rats trained to discriminate 1.5 mg/kg of MDMA (3,4-methylenedioxymethamphetamine) from saline vehicle were employed to determine if the alpha-ethyl homologs of the hallucinogens 1-(2,5-dimethoxy-4-methylphenyl)-2-aminopropane (DOM) and alpha-methyltryptamine (alpha-MeT)--that is, alpha-EH DOM (BL-3912) and alpha-EtT, respectively--would produce stimulus effects similar to those of MDMA. Although the MDMA stimulus failed to generalize to DOM (previously published) and alpha-MeT (this study), MDMA stimulus generalization occurred both to alpha-EH DOM (ED50 = 1.3 mg/kg) and alpha-EtT (ED50 = 3.5 mg/kg). A (+)amphetamine stimulus (training dose = 1.0 mg/kg) only partially generalized to these two agents, suggesting that the MDMA stimulus generalization involves more than a simple amphetamine-like action. As such, this is the first demonstration that classical hallucinogens can produce MDMA-like effects upon homologation and that MDMA-like stimulus effects can be associated with an indolylalkylamine. Furthermore, these results continue to support the concept that an intact methylenedioxy ring system, such as that found in MDMA and other MDMA-related agents, is not a structural requirement for drugs to produce MDMA-like effects.