产热
内分泌学
内科学
交感神经系统
去甲肾上腺素
医学
化学
褐色脂肪组织
人口
单胺氧化酶A
白色脂肪组织
脂肪组织
去甲肾上腺素转运体
单胺氧化酶
生物
酶
多巴胺
生物化学
环境卫生
血压
作者
Roksana M. Pirzgalska,Elsa Seixas,Jason S. Seidman,Verena M. Link,Noelia Martínez‐Sánchez,Inês Mahú,Raquel Mendes,Vitka Gres,Nadiya Kubasova,Imogen Morris,Bernardo A. Arús,Chelsea M. Larabee,M.I. Vasques,Francisco S. Tortosa,Ana Laura Sousa,Sathyavathy Anandan,Erin M. Tranfield,Maureen K. Hahn,Matteo Iannacone,Nathanael J. Spann
出处
期刊:Nature Medicine
[Nature Portfolio]
日期:2017-10-09
卷期号:23 (11): 1309-1318
被引量:500
摘要
Sympathetic neuron–associated macrophages act as a local sink for norepinephrine, leading to reduced thermogenesis and increased obesity. The cellular mechanism(s) linking macrophages to norepinephrine (NE)-mediated regulation of thermogenesis have been a topic of debate. Here we identify sympathetic neuron–associated macrophages (SAMs) as a population of cells that mediate clearance of NE via expression of solute carrier family 6 member 2 (SLC6A2), an NE transporter, and monoamine oxidase A (MAOA), a degradation enzyme. Optogenetic activation of the sympathetic nervous system (SNS) upregulates NE uptake by SAMs and shifts the SAM profile to a more proinflammatory state. NE uptake by SAMs is prevented by genetic deletion of Slc6a2 or inhibition of the encoded transporter. We also observed an increased proportion of SAMs in the SNS of two mouse models of obesity. Genetic ablation of Slc6a2 in SAMs increases brown adipose tissue (BAT) content, causes browning of white fat, increases thermogenesis, and leads to substantial and sustained weight loss in obese mice. We further show that this pathway is conserved, as human sympathetic ganglia also contain SAMs expressing the analogous molecular machinery for NE clearance, which thus constitutes a potential target for obesity treatment.
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