Resolving Cell Fate Decisions during Somatic Cell Reprogramming by Single-Cell RNA-Seq

Guo Lin; Lin Lihui; Wang Xiaoshan; Gao Mingwei; Cao Shangtao; Mai Yuanbang; Wu Fang; Kuang Junqi; Liu He; Yang Jiaqi; Chu Shilong; Song Hong; Li Dongwei; Liu Yujian; Wu Kaixin; Liu Jiadong; Wang Jinyong; Pan Guangjin; Hutchins Andrew P.; Liu Jing; Pei Duanqing; Chen Jiekai

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Resolving Cell Fate Decisions during Somatic Cell Reprogramming by Single-Cell RNA-Seq

机译：通过单细胞RNA-SEQ在体细胞重新编程中解决细胞命运决策

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Somatic cells can be reprogrammed into induced pluripotent stem cells (iPSCs), which is a highly heterogeneous process. Here we report the cell fate continuum during somatic cell reprogramming at single-cell resolution. We first develop SOT to analyze cell fate continuum from Oct4/Sox2/Klf4- or OSK-mediated reprogramming and show that cells bifurcate into two categories, reprogramming potential (RP) or non-reprogramming (NR). We further show that Klf4 contributes to Cd34+/Fxyd5+/Psca+ keratinocyte-like NR fate and that IFN-gamma impedes the final transition to chimera-competent pluripotency along the RP cells. We analyze more than 150,000 single cells from both OSK and chemical reprograming and identify additional NR/RP bifurcation points. Our work reveals a generic bifurcation model for cell fate decisions during somatic cell reprogramming that may be applicable to other systems and inspire further improvements for reprogramming.

机译：体细胞可以重新编程为诱导的多能干细胞（IPSC），其是高度异质的方法。在这里，我们在单细胞分辨率下在体细胞重新编程中报告细胞命运连续体。我们首先从Oct4 / SOX2 / KLF4-或OSK介导的重编程分析细胞命运连续体，并显示细胞分为两类，重编程潜力（RP）或非重编程（NR）。我们进一步表明，KLF4有助于CD34 + / FXYD5 + / PSCA +角质形成细胞样NR命运，并且IFN-Gamma将最终过渡到沿RP细胞沿着嵌合型多能程度的过渡。我们从OSK和化学重新编程分析了超过150,000个单细胞，并识别额外的NR / RP分叉点。我们的工作揭示了在体细胞重新编程期间的细胞命运决策的通用分岔模型，可能适用于其他系统，并激发进一步改进重新编程。

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《Molecular cell》 |2019年第4期|共22页
作者
Guo Lin; Lin Lihui; Wang Xiaoshan; Gao Mingwei; Cao Shangtao; Mai Yuanbang; Wu Fang; Kuang Junqi; Liu He; Yang Jiaqi; Chu Shilong; Song Hong; Li Dongwei; Liu Yujian; Wu Kaixin; Liu Jiadong; Wang Jinyong; Pan Guangjin; Hutchins Andrew P.; Liu Jing; Pei Duanqing; Chen Jiekai;
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作者单位

Chinese Acad Sci CAS Key Lab Regenerat Biol Guangzhou Inst Biomed &

Hlth Guangzhou 510530;

Chinese Acad Sci CAS Key Lab Regenerat Biol Guangzhou Inst Biomed &

Hlth Guangzhou 510530;

Chinese Acad Sci CAS Key Lab Regenerat Biol Guangzhou Inst Biomed &

Hlth Guangzhou 510530;

Chinese Acad Sci CAS Key Lab Regenerat Biol Guangzhou Inst Biomed &

Hlth Guangzhou 510530;

Chinese Acad Sci CAS Key Lab Regenerat Biol Guangzhou Inst Biomed &

Hlth Guangzhou 510530;

Chinese Acad Sci CAS Key Lab Regenerat Biol Guangzhou Inst Biomed &

Hlth Guangzhou 510530;

Chinese Acad Sci CAS Key Lab Regenerat Biol Guangzhou Inst Biomed &

Hlth Guangzhou 510530;

Chinese Acad Sci CAS Key Lab Regenerat Biol Guangzhou Inst Biomed &

Hlth Guangzhou 510530;

Chinese Acad Sci CAS Key Lab Regenerat Biol Guangzhou Inst Biomed &

Hlth Guangzhou 510530;

Chinese Acad Sci CAS Key Lab Regenerat Biol Guangzhou Inst Biomed &

Hlth Guangzhou 510530;

Chinese Acad Sci CAS Key Lab Regenerat Biol Guangzhou Inst Biomed &

Hlth Guangzhou 510530;

Chinese Acad Sci CAS Key Lab Regenerat Biol Guangzhou Inst Biomed &

Hlth Guangzhou 510530;

Chinese Acad Sci CAS Key Lab Regenerat Biol Guangzhou Inst Biomed &

Hlth Guangzhou 510530;

Chinese Acad Sci CAS Key Lab Regenerat Biol Guangzhou Inst Biomed &

Hlth Guangzhou 510530;

Chinese Acad Sci CAS Key Lab Regenerat Biol Guangzhou Inst Biomed &

Hlth Guangzhou 510530;

Chinese Acad Sci CAS Key Lab Regenerat Biol Guangzhou Inst Biomed &

Hlth Guangzhou 510530;

Chinese Acad Sci CAS Key Lab Regenerat Biol Guangzhou Inst Biomed &

Hlth Guangzhou 510530;

Chinese Acad Sci CAS Key Lab Regenerat Biol Guangzhou Inst Biomed &

Hlth Guangzhou 510530;

Chinese Acad Sci CAS Key Lab Regenerat Biol Guangzhou Inst Biomed &

Hlth Guangzhou 510530;

Chinese Acad Sci CAS Key Lab Regenerat Biol Guangzhou Inst Biomed &

Hlth Guangzhou 510530;

Chinese Acad Sci CAS Key Lab Regenerat Biol Guangzhou Inst Biomed &

Hlth Guangzhou 510530;

Chinese Acad Sci CAS Key Lab Regenerat Biol Guangzhou Inst Biomed &

Hlth Guangzhou 510530;

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中图分类细胞生物学;
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专利

1. 以单细胞免疫荧光技术观察烟草细胞融合过程中微管骨架的变化 [J] . 孟丽, 彭雄波, 孙蒙祥分子细胞生物学报（英文版） . 2005,第004期
2. Resolving Cell Fate Decisions during Somatic Cell Reprogramming by Single-Cell RNA-Seq [J] . Guo Lin, Lin Lihui, Wang Xiaoshan, Molecular cell . 2019,第4期

机译：通过单细胞RNA-SEQ在体细胞重新编程中解决细胞命运决策
3. Analysis of allelic expression patterns in clonal somatic cells by single-cell RNA-seq [J] . Reinius Bjorn, Mold Jeff E., Ramskold Daniel, Nature Genetics . 2016,第11期

机译：通过单细胞RNA序列分析克隆体细胞中的等位基因表达模式
4. Dissecting Cell Lineage Specification and Sex Fate Determination in Gonadal Somatic Cells Using Single-Cell Transcriptomics [J] . Isabelle Stévant, Fran?oise Kühne, Andy Greenfield, Cell Reports . 2019,第12期

机译：使用单细胞转录组学剖析性腺体细胞中的细胞谱系规范和性别命运测定。
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机译：不同体细胞诱导多能干细胞和神经祖细胞重编程的定量蛋白质组学分析
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机译：多顺反子慢病毒载体，用于将小鼠和人类体细胞命中和运行重编程为诱导性多能干细胞。
7. Single-cell RNA-seq and computational analysis using temporal mixture modelling resolves Th1/Tfh fate bifurcation in malaria [O] . Tapio Lönnberg, Valentine Svensson, Kylie R. James, -1

机译：单细胞RNA-seq和使用时间混合建模的计算分析解决了疟疾中的Th1 / Tfh命运分叉
8. Single-cell RNA-Seq Resolves Cellular Heterogeneity and Transcriptional Dynamics in Spermatogonial Stem Cells Establishment [O] . Jinyue Liao, Shuk Han Ng, Jiajie Tu, 2017

机译：单细胞RNA-SEQ决定精术干细胞的细胞异质性和转录动力学

Resolving Cell Fate Decisions during Somatic Cell Reprogramming by Single-Cell RNA-Seq

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