Ventral tegmental area GABA neurons mediate stress-induced anhedonia
AbstractStressful experiences frequently precede depressive episodes1. Depression results in anhedonia, or disrupted reward-seeking, in most patients2. In humans3,4 and rodents5,6, stress can disrupt reward-seeking, providing a potential mechanism by which stress can precipitate depression7-9. Yet despite decades investigating how stress modulates dopamine neuron transmission between the ventral tegmental area (VTA) and nucleus accumbens (NAc), the underpinnings of the stress-anhedonia transition remain elusive10-13. Here we show that during restraint stress, VTA GABA neurons drive low frequency NAc LFP oscillations, rhythmically modulating NAc firing rates. The strength of these stress-induced NAc oscillations predict the degree of impaired reward-seeking upon release from restraint. Inhibiting VTA GABA neurons disrupts stress-induced NAc oscillations and reverses the effect of stress on reward-seeking. By contrast, mimicking these oscillations with rhythmic VTA GABA stimulation in the absence of stress blunts subsequent reward-seeking. These experiments demonstrate that VTA GABA inputs to the NAc are both necessary and sufficient for stress-induced decreases in reward seeking behavior, elucidating a key circuit-level mechanism underlying stress-induced anhedonia.