Leptin-receptor neurons in the dorsomedial hypothalamus regulate the timing of circadian rhythms in feeding and metabolism in mice
AbstractAnimal behavior and metabolism are tightly coordinated with sleep-wake cycles governed by the brain in harmony with environmental light:dark cycles. Within the brain, the dorsomedial hypothalamic nucleus (DMH) has been implicated in the integrative control of feeding, energy homeostasis, and circadian rhythms [1], but the underlying cell types are unknown. Here, we identify a role for DMH leptin receptor-expressing neurons (DMHLepR) in these effects. Using a viral approach, we show that silencing DMHLepR neurons in adult mice not only increases body weight and adiposity, but also shifts circadian rhythms in feeding and metabolism into the light-cycle. Moreover, DMHLepR silencing abolishes the normal increase in dark-cycle locomotor activity characteristic of nocturnal rodents. Furthermore, DMHLepR-silenced mice fail to entrain to a restrictive change in food availability. Together, these findings identify DMHLepR neurons as critical determinants of the daily time of feeding and associated metabolic rhythms.