人类肠道干细胞培养中的连续癌症突变。

Sequential cancer mutations in cultured human intestinal stem cells.

机构信息

1] Hubrecht Institute, Royal Netherlands Academy of Arts and Sciences (KNAW) and UMC Utrecht, 3584CT Utrecht, The Netherlands [2] Cancer Genomics Netherlands, UMC Utrecht, 3584CG Utrecht, The Netherlands.

1] Cancer Genomics Netherlands, UMC Utrecht, 3584CG Utrecht, The Netherlands [2] Molecular Cancer Research, Centre for Molecular Medicine, UMC Utrecht, 3584CG, Utrecht, The Netherlands.

出版信息

Nature. 2015 May 7;521(7550):43-7. doi: 10.1038/nature14415. Epub 2015 Apr 29.

DOI:10.1038/nature14415

PMID:25924068

Abstract

Crypt stem cells represent the cells of origin for intestinal neoplasia. Both mouse and human intestinal stem cells can be cultured in medium containing the stem-cell-niche factors WNT, R-spondin, epidermal growth factor (EGF) and noggin over long time periods as epithelial organoids that remain genetically and phenotypically stable. Here we utilize CRISPR/Cas9 technology for targeted gene modification of four of the most commonly mutated colorectal cancer genes (APC, P53 (also known as TP53), KRAS and SMAD4) in cultured human intestinal stem cells. Mutant organoids can be selected by removing individual growth factors from the culture medium. Quadruple mutants grow independently of all stem-cell-niche factors and tolerate the presence of the P53 stabilizer nutlin-3. Upon xenotransplantation into mice, quadruple mutants grow as tumours with features of invasive carcinoma. Finally, combined loss of APC and P53 is sufficient for the appearance of extensive aneuploidy, a hallmark of tumour progression.

摘要

隐窝干细胞是肠道肿瘤的起源细胞。在含有干细胞龛因子 WNT、R-spondin、表皮生长因子（EGF）和 noggin 的培养基中，无论是小鼠还是人类的肠道干细胞都可以被长期培养成具有遗传和表型稳定性的上皮类器官。在这里，我们利用 CRISPR/Cas9 技术对培养的人类肠道干细胞中四个最常见的结直肠癌基因突变基因（APC、P53（也称为 TP53）、KRAS 和 SMAD4）进行靶向基因修饰。通过从培养基中去除单个生长因子，可以选择突变的类器官。四突变体在没有任何干细胞龛因子的情况下仍能独立生长，并能耐受 P53 稳定剂 nutlin-3 的存在。在异种移植到小鼠体内后，四突变体生长为具有侵袭性癌特征的肿瘤。最后，APC 和 P53 的联合缺失足以导致广泛的非整倍体的出现，这是非肿瘤进展的一个标志。

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人类肠道干细胞培养中的连续癌症突变。

Sequential cancer mutations in cultured human intestinal stem cells.

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