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(S)-Ketamine but Not (R)-Ketamine Shows Acute Effects on Depression-Like Behavior and Sleep-Wake Architecture in Rats

Szabolcs Koncz, Noémi Papp, Dóra Pothorszki, György Bagdy

International Journal of Neuropsychopharmacology September 25, 2023 Peer reviewed DOI: 10.1093/ijnp/pyad050

Summary

(S)-ketamine significantly alters sleep-wake patterns in rats, increasing REM sleep latency and decreasing REM sleep time, while also enhancing wakefulness compared to (R)-ketamine. In a chronic stress model, only (S)-ketamine reduced immobility time, indicating its potential antidepressant effects. These findings highlight the differing impacts of the two enantiomers on sleep architecture and behavior.

Study at a glance

Population freely moving, EEG-equipped rats
Key finding (S)-ketamine markedly affects the sleep-wake cycle and reduces immobility time in chronically stressed rats, unlike (R)-ketamine.

Abstract

Abstract Background Racemic ketamine consists of two enantiomers, namely (R)-ketamine and (S)-ketamine, with distinguishable pharmacological properties. Both enantiomers have been reported to show rapid antidepressant effects in rodents. Currently, the (S)-enantiomer has been approved for the treatment of major depression, whereas (R)-ketamine failed to show antidepressant effect in recent clinical studies. Major depressive disorder is frequently characterized by disinhibition of rapid eye movement (REM) sleep and disruption of non-REM (NREM) sleep. Racemic ketamine and most conventional antidepressants affect these parameters. However, it remains largely unknown which enantiomer is responsible for these effects. Methods Here, we compared acute effects of the two ketamine enantiomers (15 mg/kg i.p.) on different sleep-wake stages in freely moving, EEG-equipped rats. We also evaluated the antidepressant-like activity of the enantiomers in a chronic restraint stress model of depression. Results (S)-ketamine but not (R)-ketamine increased REM sleep latency and decreased REM sleep time at 2 and 3 hours, and increased electroencephalogram delta power during NREM sleep. In addition, only (S)-ketamine increased wakefulness and decreased NREM sleep in the first 2 hours. In the forced swimming test, only (S)-ketamine decreased the immobility time of chronically stressed rats. Conclusion Effects of the two ketamine enantiomers on rat sleep-wake architecture and behavior are markedly different when administered in the same dose. (S)-ketamine remarkably affects the sleep-wake cycle and very likely sleep-related neuroplasticity, which may be relevant for its antidepressant efficacy. Our results regarding (R)-ketamine’s lack of effect on vigilance and behavior are in line with recent clinical studies.

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