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寡核苷酸结构会影响阳离子聚合物与寡核苷酸之间的相互作用。

Oligonucleotide structure influences the interactions between cationic polymers and oligonucleotides.

作者信息

Sundaram Sumati, Viriyayuthakorn Sandra, Roth Charles M

机构信息

Department of Chemical & Biochemical Engineering, Rutgers University, 98 Brett Road, Piscataway, New Jersey 08854, USA.

出版信息

Biomacromolecules. 2005 Nov-Dec;6(6):2961-8. doi: 10.1021/bm0502314.

DOI:10.1021/bm0502314
PMID:16283715
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2519154/
Abstract

We examined the effect of oligodeoxynucleotide (ODN) structure on the interactions between cationic polymers and ODNs. Unstructured and hairpin structured ODNs were used to form complexes with the model cationic polymer, poly-L-lysine (pLL), and the characteristics of these polymer-ODN interactions were subsequently examined. We found that hairpin structured ODNs formed complexes with pLL at slightly lower pLL:ODN charge ratios as compared to unstructured ODNs and that, at high charge ratios, greater fractions of the hairpin ODNs were complexed, as measured by dye exclusion. The dissociation of pLL-ODN interactions was tested further by challenge with heparin, which induced complex disruption. Both the kinetics and heparin dose response of ODN release were determined. The absolute amount and the kinetic rate of ODN release from the complexes of pLL and unstructured ODN were greater, as compared to hairpin ODNs. Our results therefore highlight the role of ODN structure on the association-dissociation behavior of polymer-ODN complexes. These findings have implications for the selection of ODN sequences and design of polymeric carriers used for cellular delivery of ODNs.

摘要

我们研究了寡脱氧核苷酸(ODN)结构对阳离子聚合物与ODN之间相互作用的影响。使用无结构和发夹结构的ODN与模型阳离子聚合物聚-L-赖氨酸(pLL)形成复合物,随后研究这些聚合物-ODN相互作用的特征。我们发现,与无结构的ODN相比,发夹结构的ODN在略低的pLL:ODN电荷比下与pLL形成复合物,并且在高电荷比下,通过染料排斥法测量,更大比例的发夹ODN形成了复合物。通过用肝素进行挑战进一步测试了pLL-ODN相互作用的解离,肝素会导致复合物破坏。测定了ODN释放的动力学和肝素剂量反应。与发夹ODN相比,pLL与无结构ODN形成的复合物中ODN释放的绝对量和动力学速率更大。因此,我们的结果突出了ODN结构对聚合物-ODN复合物缔合-解离行为的作用。这些发现对于用于ODN细胞递送的ODN序列选择和聚合物载体设计具有重要意义。

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