Neurobiology of Disease (Mar 2025)

Binding of HCN channels to GABAB receptors in dopamine neurons of the VTA limits synaptic inhibition and prevents the development of anxiety

  • Enrique Pérez-Garci,
  • Kateryna Pysanenko,
  • Giorgio Rizzi,
  • Florian Studer,
  • Daniel Ulrich,
  • Thorsten Fritzius,
  • Simon Früh,
  • Alessandra Porcu,
  • Valérie Besseyrias,
  • Adolf Melichar,
  • Martin Gassmann,
  • Tania Rinaldi Barkat,
  • Rostislav Tureček,
  • Kelly R. Tan,
  • Bernhard Bettler

Journal volume & issue
Vol. 206
p. 106831

Abstract

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During GABAergic synaptic transmission, G protein-coupled GABAB receptors (GBRs) activate K+ channels that prolong the duration of inhibitory postsynaptic potentials (IPSPs). We now show that KCTD16, an auxiliary GBR subunit, anchors hyperpolarization-activated cyclic nucleotide-gated (HCN) channels containing HCN2/HCN3 subunits to GBRs. In dopamine neurons of the VTA (DAVTA neurons), this interaction facilitates activation of HCN channels via hyperpolarization during IPSPs, counteracting the GBR-mediated late phase of these IPSPs. Consequently, disruption of the GBR/HCN complex in KCTD16−/− mice leads to prolonged optogenetic inhibition of DAVTA neuron firing. KCTD16−/− mice exhibit increased anxiety-like behavior in response to stress - a behavior replicated by CRISPR/Cas9-mediated KCTD16 ablation in DAVTA neurons or by intra-VTA infusion of an HCN antagonist in wild-type mice. Our findings support that the retention of HCN channels at GABAergic synapses by GBRs in DAVTA neurons provides a negative feedback mechanism that restricts IPSP duration and mitigates the development of anxiety.

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