Abstract
AbstractAversive stimuli inhibiting dopamine neurons in the ventral tegmental area (DAVTA neurons) induce anxiety-like behaviors. The inhibition of DAVTA neurons is prolonged by GABAB receptor (GBR)-activated K+-currents, which exhibit a rapid desensitization of unknown physiological relevance. We now report that GBRs associate via auxiliary KCTD16 subunits with HCN channels, which facilitates activation of hyperpolarization- activated currents (Ih) by GBR-activated K+ currents. Activation of Ih underlies rapid K+ current desensitization in DAVTA neurons and limits GBR-mediated inhibition. Disruption of the GBR/HCN complex in KCTD16-/- mice or blockade of Ih prolongs optogenetically driven inhibition of DAVTA neuron firing. KCTD16-/- mice exhibit an increased anxiety-like behavior in response to stressful stimuli, which is reproduced by in vivo CRISPR/Cas9-mediated KCTD16 ablation in DAVTA neurons or intra-VTA infusion of HCN antagonist to wild-type mice. Our data reveal that GBR-induced Ih protect DAVTA neurons from prolonged GBR- mediated inhibition in response to stressors, which moderates anxiety-like behaviors.
Publisher
Cold Spring Harbor Laboratory