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Abstract
The N-methyl-d-aspartate receptor (NMDAR) antagonist ketamine has attracted enormous
interest in mental health research owing to its rapid antidepressant actions, but
its mechanism of action has remained elusive. Here we show that blockade of NMDAR-dependent
bursting activity in the 'anti-reward center', the lateral habenula (LHb), mediates
the rapid antidepressant actions of ketamine in rat and mouse models of depression.
LHb neurons show a significant increase in burst activity and theta-band synchronization
in depressive-like animals, which is reversed by ketamine. Burst-evoking photostimulation
of LHb drives behavioural despair and anhedonia. Pharmacology and modelling experiments
reveal that LHb bursting requires both NMDARs and low-voltage-sensitive T-type calcium
channels (T-VSCCs). Furthermore, local blockade of NMDAR or T-VSCCs in the LHb is
sufficient to induce rapid antidepressant effects. Our results suggest a simple model
whereby ketamine quickly elevates mood by blocking NMDAR-dependent bursting activity
of LHb neurons to disinhibit downstream monoaminergic reward centres, and provide
a framework for developing new rapid-acting antidepressants.