An orexin agonist promotes wakefulness and inhibits cataplexy through distinct brain regions.

Narcolepsy type 1, caused by selective loss of the orexin-producing neurons, is characterized by poor maintenance of wakefulness and cataplexy. Clinical trials show that orexin receptor 2 (OX2R) agonists substantially improve narcolepsy symptoms, but the key brain regions through which OX2R signaling produces these benefits are only partially understood. To address this question, we produced recombinant mice expressing the human diphtheria toxin receptor driven by the endogenous orexin promoter (orexin mice). After injection with diphtheria toxin, orexin mice had severe and selective loss of the orexin neurons, leading to narcolepsy symptoms, including poor maintenance of wakefulness and cataplexy; these symptoms were substantially improved by an OX2R-selective agonist OX-201. We then crossed orexin mice with OX2R transcription-disrupted (TD) mice to produce a new model lacking orexin neurons and OX2R. We focally restored OX2R expression in specific brain regions of OX2R TD::orexin mice and assessed whether OX-201 improves specific aspects of narcolepsy. In mice expressing OX2R only in the tuberomammillary nucleus (TMN) or basal forebrain (BF) regions, OX-201 improved maintenance of wakefulness but did not suppress cataplexy. In contrast, in mice expressing OX2R in the ventrolateral periaqueductal gray and lateral pontine tegmentum (vlPAG/LPT), OX-201 suppressed cataplexy without improving maintenance of wakefulness. These results suggest that OX2R signaling in the TMN and BF regions can stabilize wakefulness and OX2R signaling in the vlPAG/LPT region can suppress cataplexy, providing key insights into how orexins regulate wakefulness and muscle tone and how OX2R agonists improve the symptoms of narcolepsy. VIDEO ABSTRACT.