5-MeO-DMT and its analogs bind to multiple serotonin and adrenergic receptors, with potent activity at 5-HT2A and 5-HT1A receptors. In mice, these compounds induce head twitch responses (a proxy for psychedelic-like effects) with varying potencies (ED50 0.2–1.8 mg/kg) and maximal effects (20–60 head twitches per 30 minutes), while higher doses cause hypothermia and reduced movement (ED50 3.2–20.6 mg/kg). Blocking 5-HT1A receptors enhances head twitch responses, unmasking activity in some analogs and increasing maximal responses to 40–90 head twitches per 30 minutes, indicating that 5-HT1A activation dampens 5-HT2A-mediated psychedelic-like effects. Suppression of head twitch responses by 5-HT1A only occurred at high 5-MeO-DMT doses, suggesting other receptors also modulate these effects.
Halogenating the 2-position of DMT and psilacetin reduces their activity at 5-HT2A and 5-HT2B receptors, which are linked to psychedelic effects and heart valve toxicity, while preserving activity at other therapeutic targets like 5-HT6. The 2-Br-psilacetin analogue did not cause head-twitch behavior in mice and reduced head-twitch caused by another psychedelic, indicating lower potential for psychedelic effects. Intermediate doses improved stress-related mood measures and cued learning. These findings suggest that 2-halogenated tryptamines could be developed as safer, non-psychedelic therapeutics for psychiatric and neurodegenerative disorders.