通过神经降压素-瘦素受体神经元失去作用会破坏瘦素和胃饥饿素介导的能量平衡控制。

Loss of Action via Neurotensin-Leptin Receptor Neurons Disrupts Leptin and Ghrelin-Mediated Control of Energy Balance.

作者信息

Brown Juliette A, Bugescu Raluca, Mayer Thomas A, Gata-Garcia Adriana, Kurt Gizem, Woodworth Hillary L, Leinninger Gina M

机构信息

Department of Pharmacology and Toxicology, Michigan State University, East Lansing, Michigan 48824.

Institute for Integrative Toxicology, Michigan State University, East Lansing, Michigan 48824.

出版信息

Endocrinology. 2017 May 1;158(5):1271-1288. doi: 10.1210/en.2017-00122.

DOI:10.1210/en.2017-00122

PMID:28323938

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5460836/

Abstract

The hormones ghrelin and leptin act via the lateral hypothalamic area (LHA) to modify energy balance, but the underlying neural mechanisms remain unclear. We investigated how leptin and ghrelin engage LHA neurons to modify energy balance behaviors and whether there is any crosstalk between leptin and ghrelin-responsive circuits. We demonstrate that ghrelin activates LHA neurons expressing hypocretin/orexin (OX) to increase food intake. Leptin mediates anorectic actions via separate neurons expressing the long form of the leptin receptor (LepRb), many of which coexpress the neuropeptide neurotensin (Nts); we refer to these as NtsLepRb neurons. Because NtsLepRb neurons inhibit OX neurons, we hypothesized that disruption of the NtsLepRb neuronal circuit would impair both NtsLepRb and OX neurons from responding to their respective hormonal cues, thus compromising adaptive energy balance. Indeed, mice with developmental deletion of LepRb specifically from NtsLepRb neurons exhibit blunted adaptive responses to leptin and ghrelin that discoordinate the mesolimbic dopamine system and ingestive and locomotor behaviors, leading to weight gain. Collectively, these data reveal a crucial role for LepRb in the proper formation of LHA circuits, and that NtsLepRb neurons are important neuronal hubs within the LHA for hormone-mediated control of ingestive and locomotor behaviors.

摘要

胃饥饿素和瘦素通过下丘脑外侧区（LHA）作用来调节能量平衡，但其潜在的神经机制仍不清楚。我们研究了瘦素和胃饥饿素如何作用于LHA神经元以调节能量平衡行为，以及瘦素和胃饥饿素反应性回路之间是否存在相互作用。我们证明，胃饥饿素激活表达下丘脑泌素/食欲素（OX）的LHA神经元以增加食物摄入量。瘦素通过表达瘦素受体长型（LepRb）的不同神经元介导厌食作用，其中许多神经元共表达神经肽神经降压素（Nts）；我们将这些神经元称为NtsLepRb神经元。由于NtsLepRb神经元抑制OX神经元，我们推测破坏NtsLepRb神经元回路会损害NtsLepRb和OX神经元对各自激素信号的反应，从而损害适应性能量平衡。事实上，特异性地从NtsLepRb神经元发育性缺失LepRb的小鼠对瘦素和胃饥饿素的适应性反应减弱，使中脑边缘多巴胺系统以及摄食和运动行为失调，导致体重增加。总的来说，这些数据揭示了LepRb在LHA回路正常形成中的关键作用，并且NtsLepRb神经元是LHA内激素介导的摄食和运动行为控制的重要神经枢纽。

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Loss of Action via Neurotensin-Leptin Receptor Neurons Disrupts Leptin and Ghrelin-Mediated Control of Energy Balance.通过神经降压素-瘦素受体神经元失去作用会破坏瘦素和胃饥饿素介导的能量平衡控制。

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Inhibitory Input from the Lateral Hypothalamus to the Ventral Tegmental Area Disinhibits Dopamine Neurons and Promotes Behavioral Activation.来自外侧下丘脑到腹侧被盖区的抑制性输入解除对多巴胺能神经元的抑制并促进行为激活。

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