Xiao Yuzhong, Deng Yalan, Yuan Feixiang, Xia Tingting, Liu Hao, Li Zhigang, Chen Shanghai, Liu Zhixue, Ying Hao, Liu Yi, Zhai Qiwei, Guo Feifan
a Key Laboratory of Nutrition and Metabolism , Institute for Nutritional Sciences, Shanghai Institute for Biological Sciences, Chinese Academy of Sciences, University of Chinese Academy of Sciences , Shanghai , China.
Autophagy. 2017 Jun 3;13(6):1088-1089. doi: 10.1080/15548627.2017.1307488. Epub 2017 Mar 28.
ATF4 (activating transcription factor 4) is an important transcription factor that has many biological functions, while its role in hypothalamic POMC (pro-opiomelanocortin-α) neurons in the regulation of energy homeostasis has not been explored. We recently discovered that mice with an Atf4 deletion specific to POMC neurons (PAKO mice) are lean and have higher energy expenditure. Furthermore, these mice are resistant to high-fat diet (HFD)-induced obesity and obesity-related metabolic disorders. Mechanistically, we found the expression of ATG5 (autophagy-related 5) is upregulated in POMC neurons of PAKO mice, and ATF4 regulates ATG5 expression by binding directly to its promoter. Mice with Atf4 and Atg5 double knockout in POMC neurons have reduced energy expenditure and gain more fat mass compared with PAKO mice under a HFD. Finally, the effect of Atf4 knockout in POMC neurons is possibly mediated by enhanced ATG5-dependent macroautophagy/autophagy and α-melanocyte-stimulating hormone (α-MSH) production in the hypothalamus. Together, this work not only identifies a beneficial role for ATF4 in hypothalamic POMC neurons in the regulation of obesity, but also provides a new potential therapeutic target for obesity and obesity-related metabolic diseases.
激活转录因子4(ATF4)是一种具有多种生物学功能的重要转录因子,但其在调节能量稳态的下丘脑阿黑皮素原(POMC-α)神经元中的作用尚未得到研究。我们最近发现,POMC神经元特异性缺失Atf4的小鼠(PAKO小鼠)体型消瘦且能量消耗更高。此外,这些小鼠对高脂饮食(HFD)诱导的肥胖和肥胖相关代谢紊乱具有抗性。从机制上讲,我们发现PAKO小鼠的POMC神经元中自噬相关5(ATG5)的表达上调,并且ATF4通过直接结合其启动子来调节ATG5的表达。与PAKO小鼠相比,POMC神经元中Atf4和Atg5双敲除的小鼠在高脂饮食下能量消耗减少且脂肪量增加更多。最后,POMC神经元中Atf4敲除的作用可能是由下丘脑增强的ATG5依赖性巨自噬/自噬和α-黑素细胞刺激素(α-MSH)产生介导的。总之,这项工作不仅确定了ATF4在下丘脑POMC神经元中对肥胖调节的有益作用,还为肥胖及肥胖相关代谢疾病提供了一个新的潜在治疗靶点。