赖氨酸衍生肽核酸(PNA)和磷酸化锁定核酸(LNA)/2'- o -甲基(OMe)混合抗mir在没有转染剂的情况下有效和持续的细胞抑制miR-122。

Adrian G Torres, Richard N Threlfall, Michael J Gait
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引用次数: 26

摘要

反义寡核苷酸(ONs)的有效细胞递送是其潜在治疗用途的关键问题。最近有研究表明,一些ONs可以在不使用转染剂的情况下被递送到细胞中(裸体),但这通常需要细胞孵育数天和大量的ONs(微摩尔浓度)。在这里,我们靶向microRNA 122 (miR-122),这是一种参与脂质代谢调节和丙型肝炎病毒复制的小非编码RNA,在细胞培养中通过裸体递送具有不同化学成分的on (anti-miRs)。使用灵敏的双荧光素酶报告试验,筛选抗mir进入肝细胞裸体和抑制miR-122活性的能力。当与细胞孵育仅4小时时,阳离子PNAs和含有亚微摩尔浓度的磷酸二酯(PO)或硫代磷酸(PS)键的2'- o -甲基(OMe)和锁定核酸(LNA)/OMe混合器获得了有效的miR-122抑制作用。此外,PNA和含有ps的抗mir能够维持miR-122抑制作用至少4天。LNA/OMe PS抗mir是本研究中测试的最有效的抗mir化学物质,迄今为止,这种化学物质很少被用作抗mir治疗药物。
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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Potent and sustained cellular inhibition of miR-122 by lysine-derivatized peptide nucleic acids (PNA) and phosphorothioate locked nucleic acid (LNA)/2'-O-methyl (OMe) mixmer anti-miRs in the absence of transfection agents.

Efficient cell delivery of antisense oligonucleotides (ONs) is a key issue for their potential therapeutic use. It has been shown recently that some ONs can be delivered into cells without the use of transfection agents (gymnosis), but this generally requires cell incubation over several days and high amounts of ONs (micromolar concentrations). Here we have targeted microRNA 122 (miR-122), a small non-coding RNA involved in regulation of lipid metabolism and in the replication of hepatitis C virus, with ONs of different chemistries (anti-miRs) by gymnotic delivery in cell culture. Using a sensitive dual-luciferase reporter assay, anti-miRs were screened for their ability to enter liver cells gymnotically and inhibit miR-122 activity. Efficient miR-122 inhibition was obtained with cationic PNAs and 2'-O-methyl (OMe) and Locked Nucleic Acids (LNA)/OMe mixmers containing either phosphodiester (PO) or phosphorothioate (PS) linkages at sub-micromolar concentrations when incubated with cells for just 4 hours. Furthermore, PNA and PS-containing anti-miRs were able to sustain miR-122 inhibitory effects for at least 4 days. LNA/OMe PS anti-miRs were the most potent anti-miR chemistry tested in this study, an ON chemistry that has been little exploited so far as anti-miR agents towards therapeutics.

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