IRF4 Is a Key Thermogenic Transcriptional Partner of PGC-1α

Xingxing Kong; Alexander Banks; Tiemin Liu; Lawrence Kazak; Rajesh R. Rao; Paul Cohen; Xun Wang; Songtao Yu; James C. Lo; Yu-Hua Tseng; Aaron M. Cypess; Ruidan Xue; Sandra Kleiner; Sona Kang; Bruce M. Spiegelman; Evan D. Rosen

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IRF4 Is a Key Thermogenic Transcriptional Partner of PGC-1α

机译：IRF4是PGC-1α的重要产热转录伙伴

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Brown fat can reduce obesity through the dissipation of calories as heat. Control of thermogenic gene expression occurs via the induction of various coactivators, most notably PGC-1a. In contrast, the transcription factor partner(s) of these cofactors are poorly described. Here, we identify interferon regulatory factor 4 (IRF4) as a dominant transcriptional effector of thermogenesis. IRF4 is induced by cold and cAMP in adipocytes and is sufficient to promote increased thermogenic gene expression, energy expenditure, and cold tolerance. Conversely, knockout of IRF4 in UCP1+ cells causes reduced thermogenic gene expression and energy expenditure, obesity, and cold intolerance. IRF4 also induces the expression of PGC-1a and PRDM16 and interacts with PGC-1a, driving Ucp1 expression. Finally, cold, b-agonists, or forced expression of PGC-1a are unable to cause thermogenic gene expression in the absence of IRF4. These studies establish IRF4 as a transcriptional driver of a program of thermogenic gene expression and energy expenditure.

机译：棕色脂肪可以通过热量的热量散发来减少肥胖。致热基因表达的控制是通过诱导各种共激活因子来实现的，最著名的是PGC-1a。相反，这些辅因子的转录因子伴侣描述不佳。在这里，我们确定干扰素调节因子4（IRF4）作为生热的主要转录效应子。 IRF4由脂肪细胞中的寒冷和cAMP诱导，足以促进热基因表达，能量消耗和寒冷耐受性的增加。相反，在UCP1 +细胞中敲除IRF4会导致生热基因表达减少，能量消耗减少，肥胖和不耐寒。 IRF4还诱导PGC-1a和PRDM16的表达，并与PGC-1a相互作用，从而驱动Ucp1表达。最后，在缺乏IRF4的情况下，PGC-1a的冷，β激动剂或强制表达不能引起热基因表达。这些研究建立了IRF4作为热基因表达和能量消耗程序的转录驱动因子。

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《Cell》 |2014年第1期|共15页
作者
Xingxing Kong; Alexander Banks; Tiemin Liu; Lawrence Kazak; Rajesh R. Rao; Paul Cohen; Xun Wang; Songtao Yu; James C. Lo; Yu-Hua Tseng; Aaron M. Cypess; Ruidan Xue; Sandra Kleiner; Sona Kang; Bruce M. Spiegelman; Evan D. Rosen;
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正文语种 eng
中图分类细胞生物学;
关键词
Thermogenic; Transcriptional; Partner;

机译：生热的;转录的;合伙人的;

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专利

1. IRF4 Is a Key Thermogenic Transcriptional Partner of PGC-1α [J] . Xingxing Kong, Alexander Banks, Tiemin Liu, Cell . 2014,第1期

机译：IRF4是PGC-1α的重要产热转录伙伴
2. Transcriptional Network Analysis in Muscle Reveals AP-1 as a Partner of PGC-1α in the Regulation of the Hypoxic Gene Program [J] . Mario Baresic, Silvia Salatino, Barbara Kupr, Molecular and Cellular Biology . 2014,第16期

机译：肌肉中的转录网络分析揭示了AP-1作为PGC-1α在缺氧基因程序调控中的伙伴。
3. Transcriptional activation is a key function encoded by MLL fusion partners [J] . B B Zeisig, S Schreiner, M-P García-Cuéllar, Leukemia . 2003,第2期

机译：转录激活是MLL融合伙伴编码的关键功能
4. Transcriptional coactivator PGC-1α integrates the mammalian clock and energy metabolism [C] . Chang Liu, Siming Li, Tiecheng Liu, 中国科协第199次青年科学家论坛 . 2009

机译：转录共激活因子PGC-1α整合了哺乳动物的时钟和能量代谢
5. Role of Inflammation on Metabolic Transcription Factors: PPARγ and PGC-1α [D] . Fu, Rongfei. 2018

机译：炎症对代谢转录因子的作用：PPARγ和PGC-1α
6. IRF4 is a key thermogenic transcriptional partner of PGC-1α [O] . Xingxing Kong, Alexander Banks, Tiemin Liu, -1

机译：IRF4是PGC-1α的重要产热转录伴侣
7. IRF4 Is a Key Thermogenic Transcriptional Partner of PGC-1α [O] . Kong Xingxing, Banks Alexander, Liu Tiemin, 2014

机译：IRF4是PGC-1α的重要产热转录伙伴

IRF4 Is a Key Thermogenic Transcriptional Partner of PGC-1α

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