Publication date: Available online 16 November 2017
Source:Cell Metabolism
Author(s): Joan Sanchez-Gurmaches, Yuefeng Tang, Naja Zenius Jespersen, Martina Wallace, Camila Martinez Calejman, Sharvari Gujja, Huawei Li, Yvonne J.K. Edwards, Christian Wolfrum, Christian M. Metallo, Søren Nielsen, Camilla Scheele, David A. Guertin
Brown adipose tissue (BAT) is a therapeutic target for metabolic diseases; thus, understanding its metabolic circuitry is clinically important. Many studies of BAT compare rodents mildly cold to those severely cold. Here, we compared BAT remodeling between thermoneutral and mild-cold-adapted mice, conditions more relevant to humans. Although BAT is renowned for catabolic β-oxidative capacity, we find paradoxically that the anabolic de novo lipogenesis (DNL) genes encoding ACLY, ACSS2, ACC, and FASN were among the most upregulated by mild cold and that, in humans, DNL correlates with Ucp1 expression. The regulation and function of adipocyte DNL and its association with thermogenesis are not understood. We provide evidence suggesting that AKT2 drives DNL in adipocytes by stimulating ChREBPβ transcriptional activity and that cold induces the AKT2-ChREBP pathway in BAT to optimize fuel storage and thermogenesis. These data provide insight into adipocyte DNL regulation and function and illustrate the metabolic flexibility of thermogenesis.
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Teaser
Sanchez-Gurmaches et al. reveal a mechanism by which AKT signaling and metabolism intersect through ChREBP in brown fat to simultaneously promote lipid synthesis and oxidation, a paradoxical and poorly understood feature of thermogenesis. This pathway is required for optimum brown fat function and conserved in humans.http://ift.tt/2jyIqq8
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