Orexin in Dorsal Raphe Nucleus enhances Physical Activity and Energy Expenditure

Abstract

Background Lateral hypothalamic (LH) orexin neurons modulate spontaneous physical activity (SPA), and energy expenditure (EE). Orexin deficiency results in weight gain, whereas heightened LH orexin sensitivity results in obesity resistance. Orexins act on multiple brain sites, including the serotonergic dorsal raphe nucleus (DRN), which receives excitatory projections from the orexin neurons. Our earlier studies show presence of both orexin-1 (OX1R) and orexin-2 receptors (OX2R) in DRN, and higher expression of OX1R and OX2R in DRN of obesity resistant (OR) rats. We hypothesized that orexin in DRN enhances SPA and EE. Secondarily, we hypothesized that DRN GABA (gamma-aminobutyric acid) signaling mediates the effect of orexin on SPA and EE. Methods We manipulated orexin tone in DRN either by direct injections of orexin A into DRN or by chemogenetic activation of LH orexin neurons in aged (~15 mo) orexin-cre mice. Mice were implanted with a guide cannula targeting DRN, and simultaneously prepared with the stimulatory (hM3Dq floxed) designer receptors exclusively activated by designer drugs (DREADD) virus in LH (N = 16). All mice recovered for 3 weeks to allow transfection of the DREADD virus, and randomly assigned to saline or clozapine N-oxide (CNO, DREADD activator) treatment. Mice were transferred to Promethion indirect calorimetry cages (Sable Systems International) to continuously monitor SPA and EE. Body weight and food intake were measured daily. After acclimation, mice received either IP vehicle or CNO (1 mg/kg) in a repeated measure design. Fifteen minutes prior to IP CNO or saline, animals were infused with either the GABA agonist muscimol (32.5 pmol/0.2 μl), GABA antagonist bicuculline (32.5 pmol/0.2 μl) or vehicle into DRN. In a separate experiment, either orexin A (250 pmol/0.2 μl) or saline was injected into DRN without IP CNO injection, to study the direct effect of DRN orexin on SPA and EE for 24h post-injection. Results We found that DREADD activation of LH orexin neurons increases SPA and EE. Manipulation of GABA receptors (by muscimol or bicuculline) in DRN did not affect orexin neuron activation induced enhancement of SPA. On the other hand, intra-DRN OXA enhanced SPA and EE in these mice up to 4h post-injection, without affecting food intake. Conclusions These results support the idea that OXA in DRN facilitates negative energy balance by increasing physical activity-induced energy expenditure. In addition, these data suggest that the DRN is a prominent site modulating OXA-stimulated SPA and EE, and that modulation of DRN OXA is a potential strategy to mitigate age-induced reductions in SPA and EE.