Ketamine evokes acute behavioral effects via μ-opioid receptor expressing neurons of the central amygdala.
Biological psychiatry May 5, 2025 Matthew B Pomrenze, Sam Vaillancourt, Pierre Llorach et al. 11 citations
Ketamine produces a rapid increase in movement (locomotor activation) in mice by acting on mu opioid receptors (MORs) in the central amygdala (CeA). This effect is blocked by the opioid receptor antagonist naltrexone, and the same blockade occurs with a MOR-selective antagonist. Whole-brain imaging showed that naltrexone most strongly altered ketamine-induced cFos expression in the CeA, particularly in neurons that co-express MOR and PKCδ. Interrupting MOR function specifically in the CeA, either with a drug or genetic manipulation, prevented ketamine's locomotor effects. This indicates that ketamine's acute behavioral effects involve opioid signaling in the CeA, which may relate to its antidepressant mechanism in humans.