The cerebellum modulates thirst.
Ila MishraBing FengBijoya BasuAmanda M BrownLinda H KimTao LinMir Abbas RazaAmelia MooreAbigayle HahnSamantha BaileyAlaina SharpJuan C BournatClaire PoultonBrian KimAmos LangsnerAaron SathyanesanRoy V SillitoeYanlin HeAtul R ChopraPublished in: Nature neuroscience (2024)
The cerebellum, a phylogenetically ancient brain region, has long been considered strictly a motor control structure. Recent studies have implicated the cerebellum in cognition, sensation, emotion and autonomic function, making it an important target for further investigation. Here, we show that cerebellar Purkinje neurons in mice are activated by the hormone asprosin, leading to enhanced thirst, and that optogenetic or chemogenetic activation of Purkinje neurons induces rapid manifestation of water drinking. Purkinje neuron-specific asprosin receptor (Ptprd) deletion results in reduced water intake without affecting food intake and abolishes asprosin's dipsogenic effect. Purkinje neuron-mediated motor learning and coordination were unaffected by these manipulations, indicating independent control of two divergent functions by Purkinje neurons. Our results show that the cerebellum is a thirst-modulating brain area and that asprosin-Ptprd signaling may be a potential therapeutic target for the management of thirst disorders.