Ketamine exerts its sustained antidepressant effects via cell-type-specific regulation of Kcnq2

Juan Pablo Lopez, Malte D Lücken, Elena Brivio, Stoyo Karamihalev, Aron Kos, Carlo De Donno, Asaf Benjamin, Huanqing Yang, Alec L W Dick, Rainer Stoffel, Cornelia Flachskamm, Andrea Ressle, Simone Roeh, Rosa-Eva Huettl, Andrea Parl, Carola Eggert, Bozidar Novak, Yu Yan, Karin Yeoh, Maria HolzapfelBarbara Hauger, Daniela Harbich, Bianca Schmid, Rossella Di Giaimo, Christoph W Turck, Mathias V Schmidt, Jan M Deussing, Matthias Eder, Julien Dine, Fabian J Theis, Alon Chen

Research output: Contribution to journalArticlepeer-review

Abstract

A single sub-anesthetic dose of ketamine produces a rapid and sustained antidepressant response, yet the molecular mechanisms responsible for this remain unclear. Here, we identified cell-type-specific transcriptional signatures associated with a sustained ketamine response in mice. Most interestingly, we identified the Kcnq2 gene as an important downstream regulator of ketamine action in glutamatergic neurons of the ventral hippocampus. We validated these findings through a series of complementary molecular, electrophysiological, cellular, pharmacological, behavioral, and functional experiments. We demonstrated that adjunctive treatment with retigabine, a KCNQ activator, augments ketamine's antidepressant-like effects in mice. Intriguingly, these effects are ketamine specific, as they do not modulate a response to classical antidepressants, such as escitalopram. These findings significantly advance our understanding of the mechanisms underlying the sustained antidepressant effects of ketamine, with important clinical implications.

Original languageEnglish
Pages (from-to)2283-2298.e9
JournalNeuron
Volume110
Issue number14
DOIs
StatePublished - 20 Jul 2022

All Science Journal Classification (ASJC) codes

  • General Neuroscience

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