MDMA's prosocial effects can be separated from its addictive properties by using fenfluramine, a selective serotonin-releasing compound. This finding reveals a conserved neuronal pathway that could be targeted to develop new therapeutics with limited abuse liability, offering a potential strategy for creating safer treatments that promote social connection without the risks of addiction.
Negative cognitive biases—where mood colors learning and memory—are a core feature of major depressive disorder, and reversing them may be key to how rapid-acting antidepressants work. In rats, a single dose of ketamine, scopolamine, or psilocybin selectively weakened a negative affective bias induced in an associative learning task. Low doses of ketamine and psilocybin, but not high doses, reversed the valence of the bias 24 hours later. Only psilocybin produced a lasting positive bias that depended on new learning. Ketamine's relearning effects required protein synthesis in the medial prefrontal cortex and could be altered by cue reactivation, pointing to experience-dependent neural plasticity as a shared mechanism for both the rapid and sustained effects of these drugs.
The psychedelic drug psilocybin disrupts the coordinated activity of important brain regions, which may help explain its potential for treating psychiatric disorders. This uncoupling of brain area activity offers clues for developing new therapies.