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反义寡核苷酸靶向突变扩增重复序列激活铁蛋白表达

Activation of Frataxin Protein Expression by Antisense Oligonucleotides Targeting the Mutant Expanded Repeat.

机构信息

1 Department of Pharmacology, UT Southwestern Medical Center at Dallas , Dallas, Texas.

2 Department of Biochemistry, UT Southwestern Medical Center at Dallas , Dallas, Texas.

出版信息

Nucleic Acid Ther. 2018 Feb;28(1):23-33. doi: 10.1089/nat.2017.0703. Epub 2018 Jan 17.

DOI:10.1089/nat.2017.0703
PMID:29341839
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5790436/
Abstract

Friedreich's Ataxia (FA) is an inherited neurologic disorder caused by an expanded GAA repeat within intron 1 of the frataxin (FXN) gene that reduces expression of FXN protein. Agents that increase expression of FXN have the potential to alleviate the disease. We previously reported that duplex RNAs (dsRNAs) and antisense oligonucleotides (ASOs) complementary to the GAA repeat could enhance expression of FXN protein. We now explore the potential of a diverse group of chemically modified dsRNAs and ASOs to define the breadth of repeat-targeted synthetic nucleic acids as a platform for therapeutic development for FA. ASOs and dsRNAs can activate FXN protein expression in FA patient-derived cell lines that possess varied numbers of GAA repeats. Increased FXN protein expression was achieved by ASOs incorporating diverse chemical modifications with low nanomolar potencies, suggesting substantial flexibility in choosing compounds for further chemical optimization and animal studies. Our data encourage further development of ASOs as agents to treat FA.

摘要

弗里德里希共济失调(FA)是一种遗传性神经系统疾病,由 FXN 基因内含子 1 中的 GAA 重复扩增引起,导致 FXN 蛋白表达减少。增加 FXN 表达的药物有可能缓解这种疾病。我们之前报道过,与 GAA 重复互补的双链 RNA(dsRNA)和反义寡核苷酸(ASO)可以增强 FXN 蛋白的表达。我们现在探索了一组不同的化学修饰的 dsRNA 和 ASO 的潜力,以确定重复靶向合成核酸作为 FA 治疗开发的平台的广泛程度。ASO 和 dsRNA 可以激活具有不同数量 GAA 重复的 FA 患者来源细胞系中的 FXN 蛋白表达。通过具有低纳摩尔效力的不同化学修饰的 ASO 实现了 FXN 蛋白表达的增加,这表明在选择化合物进行进一步的化学优化和动物研究时有很大的灵活性。我们的数据鼓励进一步开发 ASO 作为治疗 FA 的药物。

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Activating frataxin expression by repeat-targeted nucleic acids.通过重复靶向核酸激活弗里德赖希共济失调蛋白表达。
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Hum Mol Genet. 2014 Dec 20;23(25):6848-62. doi: 10.1093/hmg/ddu408. Epub 2014 Aug 11.
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