Anton A Volkov, Natal'ya S Kruglova, Mariya I Meschaninova, Alya G Venyaminova, Marina A Zenkova, Valentin V Vlassov, Elena L Chernolovskaya
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引用次数: 75
Abstract
Small interfering RNAs (siRNAs) are considered as potent agents for specific gene silencing; however, nuclease sensitivity of siRNA limits their biomedical applications. Till date, no universal methodology has been developed to improve the nuclease resistance of siRNA, preserving low toxicity and high activity. In this study, we proposed an algorithm for the site-specific modification of siRNAs based on the mapping of their nuclease-sensitive sites in the presence of serum followed by the incorporation of 2'-O-methyl analogs of ribonucleotides at the identified positions of cleavage. We found that the protection of nuclease-sensitive sites considerably enhanced nuclease resistance of siRNA and only slightly reduced the efficiency of silencing. Modification of all nuclease-sensitive sites prolonged the duration of the silencing effect of the siRNA compared to nonmodified, partially modified, or randomly modified siRNA of the same sequence. This study showed that the targeted chemical modification of nuclease-sensitive sites could provide highly efficient siRNA-based therapeutics for the control of disease-related genes.
小干扰rna (sirna)被认为是特异性基因沉默的有效药物;然而,siRNA的核酸酶敏感性限制了它们在生物医学上的应用。到目前为止,还没有一种通用的方法来提高siRNA的核酸酶抗性,同时保持低毒性和高活性。在这项研究中,我们提出了一种基于血清中核酸酶敏感位点定位的sirna位点特异性修饰算法,然后在鉴定的切割位置加入核糖核苷酸的2'- o -甲基类似物。我们发现对核酸酶敏感位点的保护显著增强了siRNA对核酸酶的抗性,只略微降低了沉默的效率。与相同序列的未修饰、部分修饰或随机修饰的siRNA相比,所有核酸酶敏感位点的修饰延长了siRNA沉默效应的持续时间。本研究表明,核酸酶敏感位点的靶向化学修饰可以为控制疾病相关基因提供高效的基于sirna的治疗方法。
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