Functional Compensation Between Myc and PI3K Signaling Supports Self- Renewal of Embryonic Stem Cells

Hishida Tomoaki; Nakachi Yutaka; Mizuno Yosuke; Katano Miyuki; Okazaki Yasushi; Ema Masatsugu; Takahashi Satoru; Hirasaki Masataka; Suzuki Ayumu; Ueda Atsushi; Nishimoto Masazumi; Hishida-Nozaki Yuriko; Vazquez-Ferrer Eric; Sancho-Martinez Ignacio; Belmonte Juan Carlos Izpisua; Okuda Akihiko

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Functional Compensation Between Myc and PI3K Signaling Supports Self- Renewal of Embryonic Stem Cells

机译：Myc和Pi3k信号传导之间的功能补偿支持胚胎干细胞的自我更新

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c-Myc and phosphatidylinositol 3-OH kinase (PI3K) both participate in diverse cellular processes, including cell cycle control and tumorigenic transformation. They also contribute to preserving embryonic stem cell (ESC) characteristics. However, in spite of the vast knowledge, the molecular relationship between c-Myc and PI3K in ESCs is not known. Herein, we demonstrate that c-Myc and PI3K function cooperatively but independently to support ESC self-renewal when murine ESCs are cultured under conventional culture condition. Interestingly, culture of ESCs in 2i-condition including a GSK3b and MEK inhibitor renders both PI3K and Myc signaling dispensable for the maintenance of pluripotent properties. These results suggest that the requirement for an oncogenic proliferation-dependent mechanism sustained by Myc and PI3K is context dependent and that the 2i-condition liberates ESCs from the dependence of this mechanism.

机译：C-MYC和磷脂酰肌醇3-OH激酶（PI3K）两者都参与多种细胞过程，包括细胞周期控制和致瘤转化。它们还有助于保持胚胎干细胞（ESC）特性。然而，尽管知识众所周知，但是，ESC的C-MYC和PI3K之间的分子关系是未知的。在此，我们证明C-MYC和PI3K功能协同但独立地支持ESC自我更新，当鼠颈在常规培养条件下培养时。有趣的是，2I条件下的ESC文化包括GSK3B和MEK抑制剂，使PI3K和MyC信号传递分配可用于维持多能性质。这些结果表明，Myc和Pi3k持续的致癌增殖依赖性机制的要求是依赖的上下文，并且2I条件从这种机制的依赖下释放了ESC。

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来源
《Stem Cells》 |2015年第3期|共13页
作者
Hishida Tomoaki; Nakachi Yutaka; Mizuno Yosuke; Katano Miyuki; Okazaki Yasushi; Ema Masatsugu; Takahashi Satoru; Hirasaki Masataka; Suzuki Ayumu; Ueda Atsushi; Nishimoto Masazumi; Hishida-Nozaki Yuriko; Vazquez-Ferrer Eric; Sancho-Martinez Ignacio; Belmonte Juan Carlos Izpisua; Okuda Akihiko;
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作者单位

Saitama Med Univ Res Ctr Genom Med Div Dev Biol Hidaka Saitama Japan;

Saitama Med Univ Res Ctr Genom Med Div Translat Res Hidaka Saitama Japan;

Saitama Med Univ Res Ctr Genom Med Div Funct Genom &

Syst Med Hidaka Saitama Japan;

Saitama Med Univ Res Ctr Genom Med Div Dev Biol Hidaka Saitama Japan;

Japan Sci &

Technol Agcy CREST Kawaguchi Saitama Japan;

Univ Tsukuba Inst Basic Med Sci Grad Sch Comprehens Human Sci Dep Anat &

Embryol Tsukuba;

Japan Sci &

Technol Agcy CREST Kawaguchi Saitama Japan;

Saitama Med Univ Res Ctr Genom Med Div Dev Biol Hidaka Saitama Japan;

Saitama Med Univ Res Ctr Genom Med Div Dev Biol Hidaka Saitama Japan;

Saitama Med Univ Res Ctr Genom Med Div Dev Biol Hidaka Saitama Japan;

Saitama Med Univ Res Ctr Genom Med Radioisotope Expt Lab Hidaka Saitama Japan;

Salk Inst Biol Studies Gene Express Lab La Jolla CA 92037 USA;

Salk Inst Biol Studies Gene Express Lab La Jolla CA 92037 USA;

Salk Inst Biol Studies Gene Express Lab La Jolla CA 92037 USA;

Salk Inst Biol Studies Gene Express Lab La Jolla CA 92037 USA;

Saitama Med Univ Res Ctr Genom Med Div Dev Biol Hidaka Saitama Japan;

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原文格式 PDF
正文语种 eng
中图分类生物医学工程;
关键词
Embryonic stem cells; Pluripotency; Myc; PI3K; MAPK;

机译：胚胎干细胞;多能性;myc;pi3k;mapk;
入库时间 2022-08-20 05:47:49

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专利

1. Functional Compensation Between Myc and PI3K Signaling Supports Self- Renewal of Embryonic Stem Cells [J] . Hishida Tomoaki, Nakachi Yutaka, Mizuno Yosuke, Stem Cells . 2015,第3期

机译：Myc和PI3K信号之间的功能补偿支持胚胎干细胞的自我更新。
2. A Novel Signaling by Vitamin A/Retinol Promotes Self Renewal of Mouse Embryonic Stem Cells by Activating PI3K/Akt Signaling Pathway via Insulin-Like Growth Factor-1 Receptor § [J] . Liguo Chen, Jaspal S. Khillan STEM CELLS . 2010,第1期

机译：维生素A /视黄醇的新型信号传导通过胰岛素样生长因子1受体激活PI3K / Akt信号通路，从而促进小鼠胚胎干细胞的自我更新 §
3. A novel signaling by vitamin A/retinol promotes self renewal of mouse embryonic stem cells by activating PI3K/Akt signaling pathway via insulin-like growth factor-1 receptor. [J] . Chen L, Khillan JS Stem Cells . 2010,第1期

机译：维生素A /视黄醇的新型信号传导通过胰岛素样生长因子-1受体激活PI3K / Akt信号传导途径，从而促进小鼠胚胎干细胞的自我更新。
4. Spatially Patterned Notch Signaling Through Functionalized Biomaterials: Towards Pre-designed Differentiation Of Embryonic Stem Cells Into Lymphoid Lineages [C] . S.Z. Taqvi, K.Roy Society for Biomaterials Transactions 30th Annual Meeting & Exposition vol.28: New Applications and Technologies . 2005

机译：通过功能化的生物材料的空间模式的缺口信号：向胚胎干细胞分化为淋巴谱系的预先设计的分化。
5. Regulation of self-renewal in human embryonic stem cells by nanostructured surfaces: A study into the role of nanoscale adhesive ligand presentation in directing stem cell fate. [D] . Kong, Yen Peng. 2010

机译：纳米结构表面在人类胚胎干细胞中自我更新的调控：对纳米级粘合剂配体呈递在指导干细胞命运中的作用的研究。
6. Regulatory interactions maintaining self-renewal of human embryonic stem cells as revealed through a systems analysis of PI3K/AKT pathway [O] . Shibin Mathew, Sankaramanivel Sundararaj, Hikaru Mamiya, -1

机译：通过PI3K / AKT途径的系统分析揭示了维持人类胚胎干细胞自我更新的调控相互作用
7. Functional compensation between Myc and PI3K signaling supports self-renewal of embryonic stem cells [O] . Hishida, Tomoaki, Nakachi, Yutaka, Mizuno, Yosuke, 2015

机译：Myc和PI3K信号转导之间的功能性补偿支持胚胎干细胞的自我更新

Functional Compensation Between Myc and PI3K Signaling Supports Self- Renewal of Embryonic Stem Cells

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