Intercalated Amygdala Dysfunction Drives Avoidance Extinction Deficits in the Sapap3 Mouse Model of Obsessive-Compulsive Disorder.

Background: The avoidance of aversive stimuli through negative reinforcement learning, which demands dynamic responding to both positive and negative stimuli that often conflict with each other, is critical for survival in real-world environments. Individuals with obsessive-compulsive disorder commonly exhibit impaired negative reinforcement and extinction, perhaps involving deficits in amygdala functioning. The intercalated nuclei of the amygdala (ITC) is an amygdala subregion of particular interest that has been linked to negative reinforcement and extinction, with distinct clusters mediating separate aspects of behavior.

5-HT receptors in the nucleus accumbens constrain the rewarding effects of MDMA.

MDMA is a promising adjunct to psychotherapy and has well-known abuse liability, although less than other amphetamine analogs. While the reinforcing dopamine (DA)-releasing properties of MDMA are on par with methamphetamine (METH), MDMA is a far more potent serotonin (5-HT) releaser, via the 5-HT transporter (SERT). MDMA-mediated 5-HT release in a major reward center, the nucleus accumbens (NAc), drives prosocial behaviors via 5-HTR activation.

MDMA enhances empathy-like behaviors in mice via 5-HT release in the nucleus accumbens.

MDMA (3,4-methylenedioxymethamphetamine) is a psychoactive drug with powerful prosocial effects. While MDMA is sometimes termed an "empathogen," empirical studies have struggled to clearly demonstrate these effects or pinpoint underlying mechanisms. Here, we paired the social transfer of pain and analgesia-behavioral tests modeling empathy in mice-with region-specific neuropharmacology, optogenetics, and transgenic manipulations to explore MDMA's action as an empathogen.