核心剪接体蛋白的表达水平调节了 MBNL 介导的 DM1 剪接病。

IF 3.1 2区 生物学 Q3 BIOCHEMISTRY & MOLECULAR BIOLOGY
Jiss M Louis, Jesus A Frias, Jacob H Schroader, Lindsey A Jones, Emily E Davey, Claudia D Lennon, Jacob Chacko, John D Cleary, J Andrew Berglund, Kaalak Reddy
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引用次数: 0

摘要

肌营养不良症 1 型(DM1)是一种异质性多系统疾病,由 DMPK 中的 CTG 重复扩增引起。扩增等位基因的转录会产生有毒的 CUG 重复 RNA,将替代剪接(AS)调节因子 MBNL 家族封闭在核糖核病灶中,导致致病性错误剪接。为了确定毒性 CUG RNA 水平和剪接病的遗传修饰因子,我们利用已建立的 HeLa DM1 重复选择性筛选平台进行了基因组规模的 siRNA 筛选。我们意外地发现,核心剪接体蛋白是一类新的修饰因子,能挽救 DM1 中的剪接病。在 DM1 成纤维细胞和成肌细胞中适度敲除我们发现的最重要的蛋白之一 SNRPD2,可显著降低 DMPK 的表达,并部分挽救 MBNL 调节的 AS 功能障碍。虽然 DM1 剪接病的焦点集中在 MBNL 蛋白上,但我们的工作揭示了 MBNL:剪接体蛋白比例在调节剪接病中未被重视的作用,为 DM1 揭示了新的生物学和治疗途径。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Expression levels of core spliceosomal proteins modulate the MBNL-mediated spliceopathy in DM1.

Myotonic dystrophy type 1 (DM1) is a heterogeneous multisystemic disease caused by a CTG repeat expansion in DMPK. Transcription of the expanded allele produces toxic CUG repeat RNA that sequesters the MBNL family of alternative splicing (AS) regulators into ribonuclear foci, leading to pathogenic mis-splicing. To identify genetic modifiers of toxic CUG RNA levels and the spliceopathy, we performed a genome-scale siRNA screen using an established HeLa DM1 repeat-selective screening platform. We unexpectedly identified core spliceosomal proteins as a new class of modifiers that rescue the spliceopathy in DM1. Modest knockdown of one of our top hits, SNRPD2, in DM1 fibroblasts and myoblasts, significantly reduces DMPK expression and partially rescues MBNL-regulated AS dysfunction. While the focus on the DM1 spliceopathy has centered around the MBNL proteins, our work reveals an unappreciated role for MBNL:spliceosomal protein stoichiometry in modulating the spliceopathy, revealing new biological and therapeutic avenues for DM1.

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来源期刊
Human molecular genetics
Human molecular genetics 生物-生化与分子生物学
CiteScore
6.90
自引率
2.90%
发文量
294
审稿时长
2-4 weeks
期刊介绍: Human Molecular Genetics concentrates on full-length research papers covering a wide range of topics in all aspects of human molecular genetics. These include: the molecular basis of human genetic disease developmental genetics cancer genetics neurogenetics chromosome and genome structure and function therapy of genetic disease stem cells in human genetic disease and therapy, including the application of iPS cells genome-wide association studies mouse and other models of human diseases functional genomics computational genomics In addition, the journal also publishes research on other model systems for the analysis of genes, especially when there is an obvious relevance to human genetics.
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