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Somatic mutations and cell identity linked by Genotyping of Transcriptomes

机译:通过转录om的基因分型连接的体细胞突变和细胞同一性

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摘要

Defining the transcriptomic identity of malignant cells is challenging in the absence of surface markers that distinguish cancer clones from one another, or from admixed non-neoplastic cells. To address this challenge, here we developed Genotyping of Transcriptomes (GoT), a method to integrate genotyping with high-throughput droplet-based single-cell RNA sequencing. We apply GoT to profile 38,290 CD34(+) cells from patients with CALR-mutated myeloproliferative neoplasms to study how somatic mutations corrupt the complex process of human haematopoiesis. High-resolution mapping of malignant versus normal haematopoietic progenitors revealed an increasing fitness advantage with myeloid differentiation of cells with mutated CALR. We identified the unfolded protein response as a predominant outcome of CALR mutations, with a considerable dependency on cell identity, as well as upregulation of the NF-kappa B pathway specifically in uncommitted stem cells. We further extended the GoT toolkit to genotype multiple targets and loci that are distant from transcript ends. Together, these findings reveal that the transcriptional output of somatic mutations in myeloproliferative neoplasms is dependent on the native cell identity.
机译:定义恶性细胞的转录组特征在没有表面标记的情况下挑战,这些标记物彼此区分癌症克隆或来自混合的非肿瘤细胞。为了解决这一挑战,在这里,我们开发了转录om(GOT)的基因分型,一种与基于高通量液滴的单细胞RNA测序整合基因分型的方法。我们申请从患有钙突变的髓鞘瘤患者的患者进行概况38,290cd34(+)细胞,以研究躯体突变如何损坏人血杂草的复杂过程。恶性对常规血化祖细胞的高分辨率映射揭示了具有突变Calr的细胞的骨髓分化的适当性优势。我们将展开的蛋白质反应鉴定为Calr突变的主要结果,具有相当大的细胞同一性的依赖性,以及特异性在未提交的干细胞中的NF-Kappa B途径的上调。我们进一步将Get Toolkit扩展到基因型多个目标和遥远的基因座,该目标远端远端。这些发现揭示了肌酚植物肿瘤中体细胞突变的转录产量取决于天然细胞标识。

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  • 来源
    《Nature》 |2019年第7765期|355-360|共6页
  • 作者

    Nam Anna S.; Kim Kyu-Tae; Chaligne Ronan; Izzo Franco; Ang Chelston; Taylor Justin; Myers Robert M.; Abu-Zeinah Ghaith; Brand Ryan; Omans Nathaniel D.; Alonso Alicia; Sheridan Caroline; Mariani Marisa; Dai Xiaoguang; Harrington Eoghan; Pastore Alessandro; Cubillos-Ruiz Juan R.; Tam Wayne; Hoffman Ronald; Rabadan Raul; Scandura Joseph M.; Abdel-Wahab Omar; Smibert Peter; Landau Dan A.;

  • 作者单位

    Weill Cornell Med Dept Pathol & Lab Med New York NY USA|New York Genome Ctr New York NY 10013 USA|Weill Cornell Med Sandra & Edward Meyer Canc Ctr New York NY 10065 USA;

    New York Genome Ctr New York NY 10013 USA|Weill Cornell Med Sandra & Edward Meyer Canc Ctr New York NY 10065 USA|Weill Cornell Med Dept Med Div Hematol & Med Oncol New York NY 10065 USA;

    New York Genome Ctr New York NY 10013 USA|Weill Cornell Med Sandra & Edward Meyer Canc Ctr New York NY 10065 USA|Weill Cornell Med Dept Med Div Hematol & Med Oncol New York NY 10065 USA;

    New York Genome Ctr New York NY 10013 USA|Weill Cornell Med Sandra & Edward Meyer Canc Ctr New York NY 10065 USA|Weill Cornell Med Dept Med Div Hematol & Med Oncol New York NY 10065 USA;

    New York Genome Ctr New York NY 10013 USA|Weill Cornell Med Sandra & Edward Meyer Canc Ctr New York NY 10065 USA|Weill Cornell Med Dept Med Div Hematol & Med Oncol New York NY 10065 USA;

    Mem Sloan Kettering Canc Ctr Human Oncol & Pathogenesis Program 1275 York Ave New York NY 10021 USA;

    New York Genome Ctr New York NY 10013 USA|Weill Cornell Med Sandra & Edward Meyer Canc Ctr New York NY 10065 USA|Weill Cornell Med Dept Med Div Hematol & Med Oncol New York NY 10065 USA|Rockefeller Univ Mem Sloan Kettering Canc Ctr Weill Cornell Med Triinst MD PhD Program 1230 York Ave New York NY 10021 USA;

    Weill Cornell Med Dept Med Div Hematol & Med Oncol New York NY 10065 USA|Weill Cornell Med Div Hematol & Med Oncol Dept Med Richard T Silver MD Myeloproliferat Neoplasms Ctr New York NY USA;

    New York Genome Ctr New York NY 10013 USA|Weill Cornell Med Sandra & Edward Meyer Canc Ctr New York NY 10065 USA|Weill Cornell Med Dept Med Div Hematol & Med Oncol New York NY 10065 USA;

    New York Genome Ctr New York NY 10013 USA|Weill Cornell Med Sandra & Edward Meyer Canc Ctr New York NY 10065 USA|Weill Cornell Med Dept Med Div Hematol & Med Oncol New York NY 10065 USA|Cornell Univ Mem Sloan Kettering Canc Ctr Weill Cornell Med Triinst Training Program Computat Biol & Med New York NY 10021 USA;

    Weill Cornell Med Epigen Core Facil New York NY USA;

    Weill Cornell Med Epigen Core Facil New York NY USA;

    Weill Cornell Med Epigen Core Facil New York NY USA;

    Oxford Nanopore Technol New York NY USA;

    Oxford Nanopore Technol New York NY USA;

    Mem Sloan Kettering Canc Ctr Human Oncol & Pathogenesis Program 1275 York Ave New York NY 10021 USA;

    Weill Cornell Med Dept Obstet & Gynecol New York NY USA;

    Weill Cornell Med Dept Pathol & Lab Med New York NY USA;

    Icahn Sch Med Mt Sinai Dept Med Tisch Canc Inst Div Hematol & Med Oncol New York NY 10029 USA;

    Columbia Univ Dept Syst Biol Med Ctr New York NY USA;

    Weill Cornell Med Sandra & Edward Meyer Canc Ctr New York NY 10065 USA|Weill Cornell Med Div Hematol & Med Oncol Dept Med Richard T Silver MD Myeloproliferat Neoplasms Ctr New York NY USA;

    Mem Sloan Kettering Canc Ctr Human Oncol & Pathogenesis Program 1275 York Ave New York NY 10021 USA;

    New York Genome Ctr Technol Innovat Lab New York NY USA;

    New York Genome Ctr New York NY 10013 USA|Weill Cornell Med Sandra & Edward Meyer Canc Ctr New York NY 10065 USA|Weill Cornell Med Dept Med Div Hematol & Med Oncol New York NY 10065 USA|Weill Cornell Med Inst Computat Biomed New York NY 10065 USA;

  • 收录信息 美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);美国《化学文摘》(CA);
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  • 入库时间 2022-08-18 22:15:19

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