通过编辑脆性 X 诱导多能干细胞衍生神经元中的三核苷酸重复序列来逆转 FMR1 甲基化和沉默。

Reversion of FMR1 Methylation and Silencing by Editing the Triplet Repeats in Fragile X iPSC-Derived Neurons.

机构信息

Department of Physiology and Brain Korea 21 Plus Project for Medical Science, Yonsei University College of Medicine, Seoul 120-752, Korea.

The Azrieli Center for Stem Cells and Genetic Research, Department of Genetics, Institute of Life Sciences, the Hebrew University, Givat-Ram, Jerusalem 91904, Israel.

出版信息

Cell Rep. 2015 Oct 13;13(2):234-41. doi: 10.1016/j.celrep.2015.08.084. Epub 2015 Oct 1.

DOI:10.1016/j.celrep.2015.08.084

PMID:26440889

Abstract

Fragile X syndrome (FXS) is the most common form of inherited intellectual disability, resulting from a CGG repeat expansion in the fragile X mental retardation 1 (FMR1) gene. Here, we report a strategy for CGG repeat correction using CRISPR/Cas9 for targeted deletion in both embryonic stem cells and induced pluripotent stem cells derived from FXS patients. Following gene correction in FXS induced pluripotent stem cells, FMR1 expression was restored and sustained in neural precursor cells and mature neurons. Strikingly, after removal of the CGG repeats, the upstream CpG island of the FMR1 promoter showed extensive demethylation, an open chromatin state, and transcription initiation. These results suggest a silencing maintenance mechanism for the FMR1 promoter that is dependent on the existence of the CGG repeat expansion. Our strategy for deletion of trinucleotide repeats provides further insights into the molecular mechanisms of FXS and future therapies of trinucleotide repeat disorders.

摘要

脆性 X 综合征（FXS）是最常见的遗传性智力障碍，由脆性 X 智力低下 1 基因（FMR1）中的 CGG 重复扩展引起。在这里，我们报告了一种使用 CRISPR/Cas9 进行靶向删除的策略，用于在 FXS 患者的胚胎干细胞和诱导多能干细胞中进行 CGG 重复校正。在 FXS 诱导多能干细胞中的基因校正后，FMR1 的表达在神经前体细胞和成熟神经元中得到恢复和维持。引人注目的是，在去除 CGG 重复后，FMR1 启动子的上游 CpG 岛显示出广泛的去甲基化、开放染色质状态和转录起始。这些结果表明，FMR1 启动子的沉默维持机制依赖于 CGG 重复扩展的存在。我们的三核苷酸重复缺失策略为 FXS 的分子机制和未来的三核苷酸重复疾病治疗提供了进一步的见解。

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通过编辑脆性 X 诱导多能干细胞衍生神经元中的三核苷酸重复序列来逆转 FMR1 甲基化和沉默。

Reversion of FMR1 Methylation and Silencing by Editing the Triplet Repeats in Fragile X iPSC-Derived Neurons.

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