Journal of neurochemistry
September 1, 2024
Ana Sofia Alberto-Silva, Selina Hemmer, Hailey A Bock et al.
10 citations
Three new chemical variants of MDMA—ODMA, TDMA, and SeDMA—show similar activity at serotonin, dopamine, and norepinephrine transporters but reduced activity at 5-HT2A/2B/2C receptors compared to MDMA. They also differ in liver metabolism, with N-demethylation as the only shared route and no phase II metabolites formed. TDMA showed faster clearance. The analogs interacted more weakly with organic cation transporters and plasma membrane monoamine transporter. These bioisosteres may offer therapeutic alternatives to MDMA with a reduced off-target profile, but further studies are needed to determine if they pose lower risks.
ACS Chemical Neuroscience
December 2, 2025
Nina Kastner, Núria Nadal‐gratacós, Selina Hemmer et al.
Replacing the 1,3-benzodioxole group in MDMA (ecstasy) with a 1,3-benzoxathiole yields two analogues, SDA and SDMA, that interact with monoamine transporters similarly to MDMA but with key differences. SDA and SDMA inhibit dopamine and norepinephrine transporters more potently than MDMA and act as partial releasers at serotonin and dopamine transporters. Metabolism studies show SDA and SDMA are cleared faster, while MDMA and MDA degrade only weakly. In mice, SDMA does not produce rewarding effects, unlike MDMA, and SDA only shows a preference for the drug-paired compartment at the lowest dose. SDMA shares similar locomotor and hyperthermic profiles with MDMA, whereas SDA induces increased hyperlocomotion and more sustained hyperthermia. SDMA may be a safer candidate for further study.
bioRxiv : the preprint server for biology
April 11, 2024
Ana Sofia Alberto-Silva, Selina Hemmer, Hailey A Bock et al.
preprint
Three new chemical variants of MDMA—ODMA, TDMA, and SeDMA—show similar activity at serotonin and dopamine transporters but reduced activity at serotonin 5-HT2A/2B/2C receptors, which may lower the risk of off-target side effects. They also differ from MDMA in how they are broken down by the liver, with fewer metabolic pathways and no phase II metabolites. The analogs interact more weakly with certain organic cation transporters. These findings suggest the new compounds could be promising therapeutic alternatives to MDMA for conditions like PTSD, though further research is needed to confirm whether they pose lower risks.