表达瘦素受体的细胞上的血管紧张素AT1A受体控制静息代谢。

Angiotensin AT1A receptors on leptin receptor-expressing cells control resting metabolism.

作者信息

Claflin Kristin E, Sandgren Jeremy A, Lambertz Allyn M, Weidemann Benjamin J, Littlejohn Nicole K, Burnett Colin M L, Pearson Nicole A, Morgan Donald A, Gibson-Corley Katherine N, Rahmouni Kamal, Grobe Justin L

出版信息

J Clin Invest. 2017 Apr 3;127(4):1414-1424. doi: 10.1172/JCI88641. Epub 2017 Mar 6.

DOI:10.1172/JCI88641

PMID:28263184

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5373887/

Abstract

Leptin contributes to the control of resting metabolic rate (RMR) and blood pressure (BP) through its actions in the arcuate nucleus (ARC). The renin-angiotensin system (RAS) and angiotensin AT1 receptors within the brain are also involved in the control of RMR and BP, but whether this regulation overlaps with leptin's actions is unclear. Here, we have demonstrated the selective requirement of the AT1A receptor in leptin-mediated control of RMR. We observed that AT1A receptors colocalized with leptin receptors (LEPRs) in the ARC. Cellular coexpression of AT1A and LEPR was almost exclusive to the ARC and occurred primarily within neurons expressing agouti-related peptide (AgRP). Mice lacking the AT1A receptor specifically in LEPR-expressing cells failed to show an increase in RMR in response to a high-fat diet and deoxycorticosterone acetate-salt (DOCA-salt) treatments, but BP control remained intact. Accordingly, loss of RMR control was recapitulated in mice lacking AT1A in AgRP-expressing cells. We conclude that angiotensin activates divergent mechanisms to control BP and RMR and that the brain RAS functions as a major integrator for RMR control through its actions at leptin-sensitive AgRP cells of the ARC.

摘要

瘦素通过其在弓状核（ARC）中的作用，参与静息代谢率（RMR）和血压（BP）的调控。大脑中的肾素-血管紧张素系统（RAS）和血管紧张素AT1受体也参与RMR和BP的调控，但这种调控是否与瘦素的作用重叠尚不清楚。在此，我们证明了AT1A受体在瘦素介导的RMR调控中的选择性需求。我们观察到AT1A受体与ARC中的瘦素受体（LEPR）共定位。AT1A和LEPR的细胞共表达几乎仅见于ARC，且主要发生在表达刺鼠相关肽（AgRP）的神经元内。在特异性缺乏LEPR表达细胞中AT1A受体的小鼠中，对高脂饮食和醋酸脱氧皮质酮-盐（DOCA-盐）处理未表现出RMR增加，但BP调控仍保持完整。因此，在缺乏AgRP表达细胞中AT1A的小鼠中也重现了RMR调控的丧失。我们得出结论，血管紧张素激活不同机制来控制BP和RMR，并且大脑RAS通过其在ARC中对瘦素敏感的AgRP细胞的作用，作为RMR调控的主要整合者发挥作用。

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