Leptin-mediated suppression of food intake by conserved Glp1r-expressing neurons prevents obesity

The adipose-derived hormone leptin acts via its receptor (LepRb) in the brain to control energy balance. A previously unidentified population of GABAergic hypothalamic LepRb neurons plays key roles in the restraint of food intake and body weight by leptin. To identify markers for candidate populations of LepRb neurons in an unbiased manner, we performed single-nucleus RNA-sequencing of enriched mouse hypothalamic LepRb cells, as well as with total hypothalamic cells from multiple mammalian species. In addition to identifying known LepRb neuron types, this analysis identified several previously unrecognized populations of hypothalamic LepRb neurons. Many of these populations display strong conservation across species, including GABAergic Glp1r -expressing LepRb (LepRbGlp1r) neurons that express more Lepr and respond more robustly to exogenous leptin than other LepRb populations. Ablating LepRb from these cells provoked hyperphagic obesity without impairing energy expenditure. Conversely, reactivating LepRb in Glp1r -expressing cells decreased food intake and body weight in otherwise LepRb-null mice. Furthermore, LepRb reactivation in GABA neurons improved energy balance in LepRb-null mice, and this effect required the expression of LepRb in GABAergic Glp1r -expressing neurons. Thus, the conserved GABAergic LepRbGlp1r neuron population plays crucial roles in the control of food intake and body weight by leptin. ### Competing Interest Statement CL and LBK are employees of Novo Nordisk. DPO, PK, and MGM receive research funding from Novo Nordisk. MGM receives research funding from AstraZenica. The authors declare that no other conflicts exist.