Thermogenic adipocyte-derived zinc promotes sympathetic innervation in male mice
Jiang Junkun, Zhou Donglei, Zhang Anke, Yu Wenjing, Du Lei, Yuan Huiwen, Zhang Chuan, Wang Zelin, Jia Xuyang, Zhang Zhen-Ning, Luan Bing
Journal:Nature Metabolism
IF:20.8
DOI:10.1038/s42255-023-00751-9
PMID:36879120
Published:2023-03-06
research field:神经科学内分泌学代谢生理学
Abstract
Sympathetic neurons activate thermogenic adipocytes through release of catecholamine; however, the regulation of sympathetic innervation by thermogenic adipocytes is unclear. Here, we identify primary zinc ion (Zn) as a thermogenic adipocyte-secreted factor that promotes sympathetic innervation and thermogenesis in brown adipose tissue and subcutaneous white adipose tissue in male mice. Depleting thermogenic adipocytes or antagonizing β 3 -adrenergic receptor on adipocytes impairs sympathetic innervation. In obesity, inflammation-induced upregulation of Zn chaperone protein metallothionein-2 decreases Zn secretion from thermogenic adipocytes and leads to decreased energy expenditure. Furthermore, Zn supplementation ameliorates obesity by promoting sympathetic neuron-induced thermogenesis, while sympathetic denervation abrogates this antiobesity effect. Thus, we have identified a positive feedback mechanism for the reciprocal regulation of thermogenic adipocytes and sympathetic neurons. This mechanism is important for adaptive thermogenesis and could serve as a potential target for the treatment of obesity.
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