| Literature DB >> 35063424 |
Gizem Kurt1, Nandan Kodur1, Cristina Rivera Quiles1, Chelsea Reynolds1, Andrew Eagle1, Tom Mayer1, Juliette Brown2, Anna Makela1, Raluca Bugescu1, Harim Delgado Seo1, Quinn E Carroll3, Derek Daniels3, A J Robison1, Michelle Mazei-Robison1, Gina Leinninger4.
Abstract
The lateral hypothalamic area (LHA) is essential for ingestive behavior but has primarily been studied in modulating feeding, with comparatively scant attention on drinking. This is partly because most LHA neurons simultaneously promote feeding and drinking, suggesting that ingestive behaviors track together. A notable exception are LHA neurons expressing neurotensin (LHANts neurons): activating these neurons promotes water intake but modestly restrains feeding. Here we investigated the connectivity of LHANts neurons, their necessity and sufficiency for drinking and feeding, and how timing and resource availability influence their modulation of these behaviors. LHANts neurons project broadly throughout the brain, including to the lateral preoptic area (LPO), a brain region implicated in modulating drinking behavior. LHANts neurons also receive inputs from brain regions implicated in sensing hydration and energy status. While activation of LHANts neurons is not required to maintain homeostatic water or food intake, it selectively promotes drinking during the light cycle, when ingestive drive is low. Activating LHANts neurons during this period also increases willingness to work for water or palatable fluids, regardless of their caloric content. By contrast, LHANts neuronal activation during the dark cycle does not promote drinking, but suppresses feeding during this time. Finally, we demonstrate that the activation of the LHANts → LPO projection is sufficient to mediate drinking behavior, but does not suppress feeding as observed after generally activating all LHANts neurons. Overall, our work suggests how and when LHANts neurons oppositely modulate ingestive behaviors.Entities:
Keywords: ARC, Arcuate nucleus; CEA, Central amygdala; CNO, Clozapine N-Oxide; CPP, Conditioned place preference; DR, Dorsal raphe; DREADD; DREADD, Designer receptor exclusively activated by designer drugs; FR-1, Fixed ratio-1; LHA; LHA(Nts), Lateral hypothalamic area neuotensin-expressing; LHA, Lateral hypothalamic area; LPO, Lateral preoptic area; LT, Lateral terminalis; LepRb, Long form of the leptin receptor; MnPO, Median preoptic area; ModRabies, Genetically modified rabies virus, EnvA-∆G-Rabies-mCherry; NTS, Nucleus of solitary tract; Nts, Neurotensin; NtsR1, Neurotensin receptor-1; NtsR2, Neurotensin receptor-2; OVLT, Organum vasculosum lamina terminalis; PAG, Periaqueductal gray; PB, Parabrachial area; PR, Progressive ratio; PVH, Paraventricular nucleus of hypothalamus; SFO, Subfornical organ; SNc, Substantia nigra compacta; SO, Supraoptic nucleus; TVA, avian viral receptor protein; VEH, Vehicle; VTA, Ventral tegmental area; WT, Wild type; Water; aCSF, Artificial cerebrospinal fluid; body weight; feeding; homeostasis; lHb, Lateral habenula; lateral preoptic area (LPO); neurotensin receptor; reward
Mesh:
Substances:
Year: 2022 PMID: 35063424 PMCID: PMC8844224 DOI: 10.1016/j.physbeh.2022.113707
Source DB: PubMed Journal: Physiol Behav ISSN: 0031-9384