In Vivo Tumorigenicity of the 20q11.21 Amplicon in an Engraftment Model of hPSCs and Differentiated Liver Cells.

IF 1.1 Q4 CELL & TISSUE ENGINEERING
Chris S Pridgeon, Shiva Seyed Forootan, Fang Zhang, Nicholas Harper, Daniel Palmer, Richard Weightmann, Sian Gregory, Zoe Hewitt, Duncan Baker, Jason Halliwell, Harry Moore, Emanuele Ricci, Peter W Andrews, Harish Poptani, David C Hay, B Kevin Park, Chris E P Goldring
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引用次数: 1

Abstract

Human pluripotent stem cells (hPSCs) are a promising source of somatic cells for clinical applications and disease modelling. However, during culture they accumulate genetic aberrations such as amplification of 20q11.21 which occurs in approximately 20% of extensively cultured hPSC lines and confers a BCL2L1-mediated survival advantage. During the production of the large number of cells required for transplantation and therapy these aberrations may become unavoidable which has important safety implications for therapies and may also impact upon disease modelling. Presently, these risks are poorly understood; whilst it is apparent that large-scale genetic aberrations can pose an oncogenic risk, the risks associated with smaller, more insidious changes have not been fully explored. In this report, the effects of engraftment of human embryonic stem cells (hESCs) and hESC-derived hepatocyte-like cells (HLCs) with and without amplification of the 20q11.21 minimal amplicon and isochromosome 20q (i20q) in SCID-beige mice are presented. The cells were tracked in vivo using a luminescent reporter over a period of approximately four months. Intrasplenic injection of hESCs showed greater engraftment potential and the formation of more severely disruptive lesions in the liver and spleen of animals injected with cells containing 20q11.21 compared with i20q and wild type. HLCs with 20q11.21 engrafted more successfully and formed more severely disruptive lesions than wild type cells or cells with i20q. These results reinforce the notion that karyotyping of therapeutic hPSC is required for transplant, and suggest that screening for known common aberrations is necessary. Further work to identify commonly arising genetic aberrations should be performed and routine screening for hPSCs intended for therapeutic use should be used.

20q11.21扩增子在人造血干细胞和分化肝细胞移植模型中的体内致瘤性
人类多能干细胞(hPSCs)是临床应用和疾病建模的有前途的体细胞来源。然而,在培养过程中,它们积累遗传畸变,如20q11.21的扩增,在大约20%的广泛培养的hPSC系中发生,并赋予bcl2l1介导的生存优势。在移植和治疗所需的大量细胞的生产过程中,这些畸变可能是不可避免的,这对治疗具有重要的安全性影响,也可能影响疾病建模。目前,人们对这些风险知之甚少;虽然很明显,大规模的基因畸变会造成致癌风险,但与较小的、更隐蔽的变化相关的风险尚未得到充分探索。在本报告中,研究了人类胚胎干细胞(hESCs)和hesc来源的肝细胞样细胞(HLCs)在SCID-beige小鼠中植入20q11.21最小扩增子和同工染色体20q (i20q)的效果。在大约四个月的时间里,使用发光报告器在体内跟踪这些细胞。与i20q和野生型相比,含20q11.21的小鼠脾内注射hESCs具有更大的移植潜力,在肝脏和脾脏形成更严重的破坏性病变。与野生型细胞或i20q细胞相比,携带20q11.21的肝癌细胞移植更成功,形成更严重的破坏性病变。这些结果强化了治疗性hPSC的核型是移植所需的概念,并提示筛查已知的常见畸变是必要的。应开展进一步的工作,以确定常见的遗传畸变,并对用于治疗用途的人造血干细胞进行常规筛查。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
3.40
自引率
0.00%
发文量
5
审稿时长
14 weeks
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