MDMA, a psychoactive drug known for its prosocial effects, enhances empathy-like behaviors in mice by increasing serotonin signaling in the nucleus accumbens. The drug, whether given systemically or infused directly into this brain region, strengthens the social transfer of pain and analgesia, a behavioral test of empathy. Optogenetically stimulating serotonin release in the nucleus accumbens mimics MDMA's effects, confirming serotonin's role. MDMA also restores deficits in empathy-like behaviors in a mouse model of autism lacking the Shank3 gene. The findings indicate that serotonin signaling in the nucleus accumbens is a core mechanism underlying MDMA's empathogenic effects.
Psilocybin, the active compound in magic mushrooms, had several clear and repeatable immediate effects on mouse behavior, including increased anxiety and avoidance and reduced fear expression. However, its effects one day later were not consistent across five different laboratories, and no reliable changes were seen in depression-like behavior, fear extinction learning, social preference, or social reward learning. Using about 200 mice per experiment across five independent labs, the findings show that psilocybin's lasting behavioral effects in mice are more modest and less reliable than previously claimed. This coordinated multi-lab approach highlights the importance of replication for producing trustworthy results.