A midbrain GABAergic circuit constrains wakefulness in a mouse model of stress.
Shuancheng RenCai ZhangFaguo YueJinxiang TangWei ZhangYue ZhengYuanyuan FangNa WangZhenbo SongZehui ZhangXiaolong ZhangHan QinYaling WangJianxia XiaChenggang JiangChao HeFenlan LuoZhian HuPublished in: Nature communications (2024)
Enhancement of wakefulness is a prerequisite for adaptive behaviors to cope with acute stress, but hyperarousal is associated with impaired behavioral performance. Although the neural circuitries promoting wakefulness in acute stress conditions have been extensively identified, less is known about the circuit mechanisms constraining wakefulness to prevent hyperarousal. Here, we found that chemogenetic or optogenetic activation of GAD2-positive GABAergic neurons in the midbrain dorsal raphe nucleus (DRN GAD2 ) decreased wakefulness, while inhibition or ablation of these neurons produced an increase in wakefulness along with hyperactivity. Surprisingly, DRN GAD2 neurons were paradoxically wakefulness-active and were further activated by acute stress. Bidirectional manipulations revealed that DRN GAD2 neurons constrained the increase of wakefulness and arousal level in a mouse model of stress. Circuit-specific investigations demonstrated that DRN GAD2 neurons constrained wakefulness via inhibition of the wakefulness-promoting paraventricular thalamus. Therefore, the present study identified a wakefulness-constraining role DRN GAD2 neurons in acute stress conditions.