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首页> 外文期刊>Cell stem cell >Identification of Embryonic Neural Plate Border Stem Cells and Their Generation by Direct Reprogramming from Adult Human Blood Cells
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Identification of Embryonic Neural Plate Border Stem Cells and Their Generation by Direct Reprogramming from Adult Human Blood Cells

机译:成年人血细胞直接重新编程胚胎神经板边界干细胞的鉴定及其生成

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摘要

We report the direct reprogramming of both adult human fibroblasts and blood cells into induced neural plate border stem cells (iNBSCs) by ectopic expression of four neural transcription factors. Self-renewing, clonal iNBSCs can be robustly expanded in defined media while retaining multilineage differentiation potential. They generate functional cell types of neural crest and CNS lineages and could be used to model a human pain syndrome via gene editing of SCN9A in iNBSCs. NBSCs can also be derived from human pluripotent stem cells and share functional and molecular features with NBSCs isolated from embryonic day 8.5 (E8.5) mouse neural folds. Single- cell RNA sequencing identified the anterior hindbrain as the origin of mouse NBSCs, with human iNBSCs sharing a similar regional identity. In summary, we identify embryonic NBSCs and report their generation by direct reprogramming in human, which may facilitate insights into neural development and provide a neural stem cell source for applications in regenerative medicine.
机译:我们通过四个神经转录因子的异位表达向诱导神经板边界干细胞(INBSC)进行直接重新编程诱导的神经板边界干细胞(INBSC)。自更新,克隆INBSC可以在定义的介质中强大地扩展,同时保持多线性分化潜力。它们产生神经波峰和CNS谱系的功能细胞类型,并且可以用于通过INBSC中的SCN9a的基因编辑来模拟人疼痛综合征。 NBSC也可以衍生自人多能干细胞,并用与胚胎第8.5天(E8.5)小鼠神经折叠分离的NBSC共用官能和分子特征。单细胞RNA测序确定了前后后脑作为小鼠NBSC的起源,具有人机的INBSC分享类似的区域身份。总之,我们识别胚胎NBSCS通过直接重新编程的人类报告他们的发电,这可能促进神经发育的见解,并为再生医学提供神经干细胞来源。

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  • 来源
    《Cell stem cell》 |2019年第1期|共17页
  • 作者

    Thier Marc Christian; Hommerding Oliver; Panten Jasper; Pinna Roberta; Garcia-Gonzalez Diego; Berger Thomas; Woersdoefer Philipp; Assenov Yassen; Scognamiglio Roberta; Przybylla Adriana; Kaschutnig Paul; Becker Lisa; Milsom Michael D.; Jauch Anna; Utikal Jochen; Herrmann Carl; Monyer Hannah; Edenhofer Frank; Trumpp Andreas;

  • 作者单位

    HI STEM gGmbH Heidelberg Inst Stem Cell Technol &

    Expt Med Neuenheimer Feld 280 D-69120;

    Univ Bonn Inst Reconstruct Neurobiol Stem Cell Engn Grp Life &

    Brain Ctr Sigmund Freud Str 25;

    HI STEM gGmbH Heidelberg Inst Stem Cell Technol &

    Expt Med Neuenheimer Feld 280 D-69120;

    Heidelberg Univ Med Fac Dept Clin Neurobiol D-69120 Heidelberg Germany;

    Heidelberg Univ Med Fac Dept Clin Neurobiol D-69120 Heidelberg Germany;

    HI STEM gGmbH Heidelberg Inst Stem Cell Technol &

    Expt Med Neuenheimer Feld 280 D-69120;

    Julius Maximilians Univ Wurzburg Inst Anat &

    Cell Biol Stem Cell &

    Regenerat Med Grp;

    German Canc Res Ctr Div Epigen &

    Canc Risk Factors Heidelberg Germany;

    HI STEM gGmbH Heidelberg Inst Stem Cell Technol &

    Expt Med Neuenheimer Feld 280 D-69120;

    HI STEM gGmbH Heidelberg Inst Stem Cell Technol &

    Expt Med Neuenheimer Feld 280 D-69120;

    HI STEM gGmbH Heidelberg Inst Stem Cell Technol &

    Expt Med Neuenheimer Feld 280 D-69120;

    HI STEM gGmbH Heidelberg Inst Stem Cell Technol &

    Expt Med Neuenheimer Feld 280 D-69120;

    HI STEM gGmbH Heidelberg Inst Stem Cell Technol &

    Expt Med Neuenheimer Feld 280 D-69120;

    Univ Hosp Heidelberg Inst Human Genet Heidelberg Germany;

    German Canc Res Ctr Skin Canc Unit Heidelberg Germany;

    German Canc Res Ctr Div Theoret Bioinformat D-69120 Heidelberg Germany;

    Heidelberg Univ Med Fac Dept Clin Neurobiol D-69120 Heidelberg Germany;

    Univ Bonn Inst Reconstruct Neurobiol Stem Cell Engn Grp Life &

    Brain Ctr Sigmund Freud Str 25;

    HI STEM gGmbH Heidelberg Inst Stem Cell Technol &

    Expt Med Neuenheimer Feld 280 D-69120;

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  • 中图分类 细胞生物学;
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