Mo Qianxing, Salley Jordan, Roshan Tony, Baer Lisa A, May Francis J, Jaehnig Eric J, Lehnig Adam C, Guo Xin, Tong Qiang, Nuotio-Antar Alli M, Shamsi Farnaz, Tseng Yu-Hua, Stanford Kristin I, Chen Miao-Hsueh
Department of Medicine and Dan L. Duncan Cancer Center, and.
US Department of Agriculture/Agricultural Research Center (USDA/ARS), Children's Nutrition Research Center, Department of Pediatrics, Baylor College of Medicine, Houston, Texas, USA.
JCI Insight. 2017 Jun 2;2(11). doi: 10.1172/jci.insight.93166.
A fundamental challenge to our understanding of brown adipose tissue (BAT) is the lack of an animal model that faithfully represents human BAT. Such a model is essential for direct assessment of the function and therapeutic potential of BAT depots in humans. In human adults, most of the thermoactive BAT depots are located in the supraclavicular region of the neck, while mouse studies focus on depots located in the interscapular region of the torso. We recently discovered BAT depots that are located in a region analogous to that of human supraclavicular BAT (scBAT). Here, we report that the mouse scBAT depot has morphological characteristics of classical BAT, possesses the potential for high thermogenic activity, and expresses a gene signature that is similar to that of human scBAT. Taken together, our studies reveal a mouse BAT depot that represents human BAT and provides a unique tool for developing new translatable approaches for utilizing human scBAT.
我们对棕色脂肪组织(BAT)理解的一个基本挑战是缺乏能如实代表人类BAT的动物模型。这样一个模型对于直接评估人体BAT储存库的功能和治疗潜力至关重要。在成年人类中,大多数具有产热活性的BAT储存库位于颈部锁骨上区域,而小鼠研究则集中在位于躯干肩胛间区域的储存库。我们最近发现了位于与人类锁骨上BAT(scBAT)类似区域的BAT储存库。在此,我们报告小鼠scBAT储存库具有经典BAT的形态特征,具有高热生成活性的潜力,并表达与人类scBAT相似的基因特征。综上所述,我们的研究揭示了一个代表人类BAT的小鼠BAT储存库,并为开发利用人类scBAT的新的可转化方法提供了独特工具。