Sequence-Controlled Spherical Nucleic Acids: Gene Silencing, Encapsulation, and Cellular Uptake.

IF 4 2区 医学 Q2 BIOCHEMISTRY & MOLECULAR BIOLOGY
Sepideh Kaviani, Hassan H Fakih, Jathavan Asohan, Adam Katolik, Masad J Damha, Hanadi F Sleiman
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引用次数: 0

Abstract

Antisense oligonucleotides (ASOs) can predictably alter RNA processing and control protein expression; however, challenges in the delivery of these therapeutics to specific tissues, poor cellular uptake, and endosomal escape have impeded progress in translating these agents into the clinic. Spherical nucleic acids (SNAs) are nanoparticles with a DNA external shell and a hydrophobic core that arise from the self-assembly of ASO strands conjugated to hydrophobic polymers. SNAs have recently shown significant promise as vehicles for improving the efficacy of ASO cellular uptake and gene silencing. However, to date, no studies have investigated the effect of the hydrophobic polymer sequence on the biological properties of SNAs. In this study, we created a library of ASO conjugates by covalently attaching polymers with linear or branched [dodecanediol phosphate] units and systematically varying polymer sequence and composition. We show that these parameters can significantly impact encapsulation efficiency, gene silencing activity, SNA stability, and cellular uptake, thus outlining optimized polymer architectures for gene silencing.

序列控制的球形核酸:基因沉默、包封和细胞摄取。
反义寡核苷酸(ASOs)可以预测地改变RNA加工和控制蛋白质表达;然而,在将这些药物递送到特定组织、细胞摄取不良和内体逃逸方面的挑战阻碍了将这些药物转化为临床的进展。球形核酸(SNAs)是一种具有DNA外壳和疏水核心的纳米颗粒,由ASO链与疏水聚合物共轭而成。最近,sna作为提高ASO细胞摄取和基因沉默功效的载体显示出巨大的前景。然而,迄今为止,尚未有研究调查疏水聚合物序列对sna生物学特性的影响。在这项研究中,我们创建了一个ASO偶联物库,通过与线性或支链的[十二烷二醇磷酸]共价连接聚合物,并系统地改变聚合物的序列和组成。我们发现这些参数可以显著影响包封效率、基因沉默活性、SNA稳定性和细胞摄取,从而概述了基因沉默的优化聚合物结构。
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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来源期刊
Nucleic acid therapeutics
Nucleic acid therapeutics BIOCHEMISTRY & MOLECULAR BIOLOGY-CHEMISTRY, MEDICINAL
CiteScore
7.60
自引率
7.50%
发文量
47
审稿时长
>12 weeks
期刊介绍: Nucleic Acid Therapeutics is the leading journal in its field focusing on cutting-edge basic research, therapeutic applications, and drug development using nucleic acids or related compounds to alter gene expression. The Journal examines many new approaches for using nucleic acids as therapeutic agents or in modifying nucleic acids for therapeutic purposes including: oligonucleotides, gene modification, aptamers, RNA nanoparticles, and ribozymes.
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