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一种用于多种体细胞类型直接重编程的药物诱导转基因系统。

A drug-inducible transgenic system for direct reprogramming of multiple somatic cell types.

作者信息

Wernig Marius, Lengner Christopher J, Hanna Jacob, Lodato Michael A, Steine Eveline, Foreman Ruth, Staerk Judith, Markoulaki Styliani, Jaenisch Rudolf

机构信息

Whitehead Institute for Biomedical Research, 9 Cambridge Center, Cambridge, Massachusetts 02142, USA.

出版信息

Nat Biotechnol. 2008 Aug;26(8):916-24. doi: 10.1038/nbt1483. Epub 2008 Jul 1.

DOI:10.1038/nbt1483
PMID:18594521
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2654269/
Abstract

The study of induced pluripotency is complicated by the need for infection with high-titer retroviral vectors, which results in genetically heterogeneous cell populations. We generated genetically homogeneous 'secondary' somatic cells that carry the reprogramming factors as defined doxycycline (dox)-inducible transgenes. These cells were produced by infecting fibroblasts with dox-inducible lentiviruses, reprogramming by dox addition, selecting induced pluripotent stem cells and producing chimeric mice. Cells derived from these chimeras reprogram upon dox exposure without the need for viral infection with efficiencies 25- to 50-fold greater than those observed using direct infection and drug selection for pluripotency marker reactivation. We demonstrate that (i) various induction levels of the reprogramming factors can induce pluripotency, (ii) the duration of transgene activity directly correlates with reprogramming efficiency, (iii) cells from many somatic tissues can be reprogrammed and (iv) different cell types require different induction levels. This system facilitates the characterization of reprogramming and provides a tool for genetic or chemical screens to enhance reprogramming.

摘要

诱导多能性的研究因需要用高滴度逆转录病毒载体进行感染而变得复杂,这会导致细胞群体基因异质性。我们生成了基因同质的“二级”体细胞,其携带作为强力霉素(dox)诱导型转基因定义的重编程因子。这些细胞通过用dox诱导型慢病毒感染成纤维细胞、添加dox进行重编程、选择诱导多能干细胞并产生嵌合小鼠而产生。来自这些嵌合体的细胞在暴露于dox时会重编程,无需病毒感染,其效率比使用直接感染和药物选择以重新激活多能性标记所观察到的效率高25至50倍。我们证明:(i)重编程因子的各种诱导水平均可诱导多能性;(ii)转基因活性的持续时间与重编程效率直接相关;(iii)许多体细胞组织的细胞均可被重编程;(iv)不同细胞类型需要不同的诱导水平。该系统有助于对重编程进行表征,并为增强重编程的遗传或化学筛选提供了一种工具。

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