Medial Septum Glutamatergic Neurons Control Wakefulness Through a Septo-Hypothalamic Circuit

Abstract

The medial septum (MS) implements arousal-based behaviors and modulates general anesthesia response. However, the role of MS in wakefulness control remains unknown. Here, combining double fluorescence in situ hybridization and optrode recording, we showed that MS glutamatergic neurons exhibited higher activities preferentially during wakefulness. Activating these neurons, either optogenetically or chemogenetically, strongly promoted wakefulness mainly through the transition from non-rapid eye movement (NREM) sleep to wakefulness, whereas inactivation of them greatly reduced wakefulness by the transition from wakefulness to NREM sleep. Furthermore, both rabies-mediated monosynaptic retrograde and anterograde tracing showed that MS glutamatergic neurons monosynaptically innervated lateral hypothalamus (LH) glutamatergic neurons, which were also wake-active as well as wake-promoting. Specifically, activating MS-derived glutamatergic terminals in LH enhanced wakefulness, whereas silencing MS glutamatergic neurons destabilized the wake-active preference of LH glutamatergic neurons. These results reveal a vital role of MS glutamatergic neurons in wakefulness control and depict a novel septo-hypothalamic circuit for wakefulness.