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首页> 外文期刊>Blood: The Journal of the American Society of Hematology >Developing HSCs become Notch independent by the end of maturation in the AGM region
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Developing HSCs become Notch independent by the end of maturation in the AGM region

机译:开发HSC在AGM地区成熟结束时变得独立于陷波

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摘要

The first definitive hematopoietic stem cells (dHSCs) in the mouse emerge in the dorsal aorta of the embryonic day (E) 10.5 to 11 aorta-gonad-mesonephros (AGM) region. Notch signaling is essential for early HSC development but is dispensable for the maintenance of adult bone marrow HSCs. How Notch signaling regulates HSC formation in the embryo is poorly understood. We demonstrate here that Notch signaling is active in E10.5 HSC precursors and involves both Notch1 and Notch2 receptors, but is gradually downregulated while they progress toward dHSCs at E11.5. This downregulation is accompanied by gradual functional loss of Notch dependency. Thus, as early as at final steps in the AGM region, HSCs begin acquiring the Notch independency characteristic of adult bone marrow HSCs as part of the maturation program. Our data indicate that fine stage-dependent tuning of Notch signaling may be required for the generation of definitive HSCs from pluripotent cells.
机译:小鼠中的第一造血干细胞(DHSCs)出现在胚胎日(e)10.5至11α-11-100至11A11-11-11-蒙酮(AGM)区域的背部主动脉中。 Notch信号传导对于早期的HSC开发至关重要,但可以随时用于维持成人骨髓HSC。 如何调节胚胎中的HSC形成如何理解。 我们在此证明,Notch信号传导在E10.5 HSC前体中活性,并且涉及Notch1和Notch2受体,但是在E11.5对DHSC的进展过程中逐渐下调。 该下调伴随着逐渐的缺口依赖性的功能丧失。 因此,早在AGM区域的最后步骤中,HSC就开始获得成年骨髓HSC的Notch独立性特征作为成熟程序的一部分。 我们的数据表明,可能需要从多能细胞产生最终HSC的Notch信号传导的细阶段依赖性调整。

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    Souilhol Celine; Lendinez Javier G.; Rybtsov Stanislav; Murphy Fiona; Wilson Heather; Hills David; Batsivari Antoniana; Binagui-Casas Anahi; McGarvey Alison C.; MacDonald H. Robson; Kageyama Ryoichiro; Siebel Christian; Zhao Suling; Medvinsky Alexander;

  • 作者单位

    Univ Edinburgh Inst Stem Cell Res Med Res Council Ctr Regenerat Med SCRM Bioquarter 5 Little;

    Univ Edinburgh Inst Stem Cell Res Med Res Council Ctr Regenerat Med SCRM Bioquarter 5 Little;

    Univ Edinburgh Inst Stem Cell Res Med Res Council Ctr Regenerat Med SCRM Bioquarter 5 Little;

    Univ Edinburgh Inst Stem Cell Res Med Res Council Ctr Regenerat Med SCRM Bioquarter 5 Little;

    Univ Edinburgh Inst Stem Cell Res Med Res Council Ctr Regenerat Med SCRM Bioquarter 5 Little;

    Univ Edinburgh Inst Stem Cell Res Med Res Council Ctr Regenerat Med SCRM Bioquarter 5 Little;

    Univ Edinburgh Inst Stem Cell Res Med Res Council Ctr Regenerat Med SCRM Bioquarter 5 Little;

    Univ Edinburgh Inst Stem Cell Res Med Res Council Ctr Regenerat Med SCRM Bioquarter 5 Little;

    Univ Edinburgh Inst Stem Cell Res Med Res Council Ctr Regenerat Med SCRM Bioquarter 5 Little;

    Univ Lausanne Ludwig Ctr Canc Res Lausanne Switzerland;

    Kyoto Univ Inst Virus Res Kyoto Japan;

    Genentech Inc Dept Discovery Oncol San Francisco CA USA;

    Univ Edinburgh Inst Stem Cell Res Med Res Council Ctr Regenerat Med SCRM Bioquarter 5 Little;

    Univ Edinburgh Inst Stem Cell Res Med Res Council Ctr Regenerat Med SCRM Bioquarter 5 Little;

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  • 正文语种 eng
  • 中图分类 血液及淋巴系疾病;
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