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Fatty acid synthesis is critical for stem cell pluripotency via promoting mitochondrial fission 下载免费PDF全文
Lihua Wang Tong Zhang Lin Wang Yongping Cai Xiuying Zhong Xiaoping He Lan Hu Shengya Tian Mian Wu Lijian Hui Huafeng Zhang Ping Gao 《The EMBO journal》2017,36(10):1330-1347
Pluripotent stem cells are known to display distinct metabolic phenotypes than their somatic counterparts. While accumulating studies are focused on the roles of glucose and amino acid metabolism in facilitating pluripotency, little is known regarding the role of lipid metabolism in regulation of stem cell activities. Here, we show that fatty acid (FA) synthesis activation is critical for stem cell pluripotency. Our initial observations demonstrated enhanced lipogenesis in pluripotent cells and during cellular reprogramming. Further analysis indicated that de novo FA synthesis controls cellular reprogramming and embryonic stem cell pluripotency through mitochondrial fission. Mechanistically, we found that de novo FA synthesis regulated by the lipogenic enzyme ACC1 leads to the enhanced mitochondrial fission via (i) consumption of AcCoA which affects acetylation‐mediated FIS1 ubiquitin–proteasome degradation and (ii) generation of lipid products that drive the mitochondrial dynamic equilibrium toward fission. Moreover, we demonstrated that the effect of Acc1 on cellular reprogramming via mitochondrial fission also exists in human iPSC induction. In summary, our study reveals a critical involvement of the FA synthesis pathway in promoting ESC pluripotency and iPSC formation via regulating mitochondrial fission. 相似文献
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MicroRNA-302/367(miR-302/367)发现于2003年,是一类长度在21~22 nt的miRNA簇,与多能性干细胞自我更新及多向分化有重要关系.在体细胞向多能性干细胞重编程中具有重要作用. miR-302/367簇中各miRNA具有相对保守的种子区及靶基因,主要通过抑制靶基因蛋白质的翻译,从而促进间质-上皮转化(mesenchymal epithelial transition, MET)、抑制细胞周期、调控细胞分化相关基因及表观遗传水平等方式促进体细胞向多能性细胞重编程.本文对miR 302/367的发现、结构、miR 302/367在多能性细胞中的作用及在体细胞向多能性干细胞重编程中的作用及其机理等做一综述. 相似文献
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LncKdm2b controls self‐renewal of embryonic stem cells via activating expression of transcription factor Zbtb3 下载免费PDF全文
Wei Wu Pingping Zhu Yanying Wang Shuo Wang Pengyan Xia Ying Du Shu Meng Guanling Huang Jiayi Wu Runsheng Chen Yong Tian Zusen Fan 《The EMBO journal》2018,37(8)
Divergent long noncoding RNAs (lncRNAs) represent a major lncRNA biotype in mouse and human genomes. The biological and molecular functions of the divergent lncRNAs remain largely unknown. Here, we show that lncKdm2b, a divergent lncRNA for Kdm2b gene, is conserved among five mammalian species and highly expressed in embryonic stem cells (ESCs) and early embryos. LncKdm2b knockout impairs ESC self‐renewal and causes early embryonic lethality. LncKdm2b can activate Zbtb3 by promoting the assembly and ATPase activity of Snf2‐related CREBBP activator protein (SRCAP) complex in trans. Zbtb3 potentiates the ESC self‐renewal in a Nanog‐dependent manner. Finally, Zbtb3 deficiency impairs the ESC self‐renewal and early embryonic development. Therefore, our findings reveal that lncRNAs may represent an additional layer of the regulation of ESC self‐renewal and early embryogenesis. 相似文献
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Javier Muñoz Michael U Musheev Lennart Kester Jan Philipp Junker Nikolai Mischerikow Mandana Arbab Ewart Kuijk Lev Silberstein Peter V Kharchenko Mieke Geens Christof Niehrs Hilde van de Velde Alexander van Oudenaarden Albert JR Heck Niels Geijsen 《EMBO reports》2015,16(7):791-802
Embryonic stem cell (ESC) cultures display a heterogeneous gene expression profile, ranging from a pristine naïve pluripotent state to a primed epiblast state. Addition of inhibitors of GSK3β and MEK (so‐called 2i conditions) pushes ESC cultures toward a more homogeneous naïve pluripotent state, but the molecular underpinnings of this naïve transition are not completely understood. Here, we demonstrate that DAZL, an RNA‐binding protein known to play a key role in germ‐cell development, marks a subpopulation of ESCs that is actively transitioning toward naïve pluripotency. Moreover, DAZL plays an essential role in the active reprogramming of cytosine methylation. We demonstrate that DAZL associates with mRNA of Tet1, a catalyst of 5‐hydroxylation of methyl‐cytosine, and enhances Tet1 mRNA translation. Overexpression of DAZL in heterogeneous ESC cultures results in elevated TET1 protein levels as well as increased global hydroxymethylation. Conversely, null mutation of Dazl severely stunts 2i‐mediated TET1 induction and hydroxymethylation. Our results provide insight into the regulation of the acquisition of naïve pluripotency and demonstrate that DAZL enhances TET1‐mediated cytosine hydroxymethylation in ESCs that are actively reprogramming to a pluripotent ground state. 相似文献