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首页> 外文期刊>Angewandte Chemie >Self-Assembled and Size-Controllable Oligonucleotide Nanospheres for Effective Antisense Gene Delivery through an Endocytosis-Independent Pathway
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Self-Assembled and Size-Controllable Oligonucleotide Nanospheres for Effective Antisense Gene Delivery through an Endocytosis-Independent Pathway

机译:通过内吞作用的途径,自组装和尺寸可控的寡核苷酸纳米球,用于有效反义基因递送

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摘要

The development of efficient gene delivery vectors has faced two major challenges, namely endo- and lysosomal escape and intracellular release. To address these problems, we developed an oligonucleotide (ON)-template-assisted polymerization approach to create ON nanospheres as gene vectors. Guanidinium-containing disulfide monomers were organized on the ON templates to increase their effective local concentrations. Consequently, ring-opening disulfide-exchange polymerization between monomers was accelerated, further facilitating the self-assembly of ON nanospheres. The size of these nanospheres was controlled by varying the length of the ON templates. Importantly, the nanospheres can be directly delivered into the cytosol through an endocytosis-independent pathway, which is followed by intracellular depolymerization in the reductive cytosolic environment to release the packaged ONs, resulting in efficient gene silencing. The ON nanospheres thus hold great promise as candidates for gene therapy.
机译:高效基因递送载体的发展面临两个主要挑战,即终点和溶酶体逸出和细胞内释放。为了解决这些问题,我们开发了一种寡核苷酸(ON) - 辅助聚合方法,以在纳米球上产生作为基因载体。组织含含胍二硫化物单体,用于增加其有效的局部浓度。因此,加速单体之间的开环二硫键 - 交换聚合,进一步促进纳米球的自组装。通过改变模板的长度来控制这些纳米球的尺寸。重要的是,纳米球可以通过与内吞作用无关的途径直接递送到胞质溶溶胶中,然后在还原性细胞环境中进行细胞内解聚以释放包装的内部,导致有效的基因沉默。因此,在纳米球中作为基因治疗的候选者持有巨大的希望。

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  • 来源
    《Angewandte Chemie》 |2019年第16期|共5页
  • 作者

    Zhou Jie; Sun Ligin; Wang Liping; Liu Yichang; Li Jinyu; Li Jingying; Li Juan; Yang Huanghao;

  • 作者单位

    Fuzhou Univ Coll Chem State Key Lab Photocatalysis Energy &

    Environm MOE Key Lab Analyt Sci Food Safety &

    Biol Fujian Fuzhou 350108 Fujian Peoples R China;

    Fuzhou Univ Coll Biol Sci &

    Engn Fuzhou 350108 Fujian Peoples R China;

    Fuzhou Univ Coll Chem State Key Lab Photocatalysis Energy &

    Environm MOE Key Lab Analyt Sci Food Safety &

    Biol Fujian Fuzhou 350108 Fujian Peoples R China;

    Fuzhou Univ Coll Chem State Key Lab Photocatalysis Energy &

    Environm MOE Key Lab Analyt Sci Food Safety &

    Biol Fujian Fuzhou 350108 Fujian Peoples R China;

    Shanghai Jiao Tong Univ Sch Med Renji Hosp Inst Mol Med Shanghai 200240 Peoples R China;

    Fuzhou Univ Coll Chem State Key Lab Photocatalysis Energy &

    Environm MOE Key Lab Analyt Sci Food Safety &

    Biol Fujian Fuzhou 350108 Fujian Peoples R China;

    Fuzhou Univ Coll Chem State Key Lab Photocatalysis Energy &

    Environm MOE Key Lab Analyt Sci Food Safety &

    Biol Fujian Fuzhou 350108 Fujian Peoples R China;

    Fuzhou Univ Coll Chem State Key Lab Photocatalysis Energy &

    Environm MOE Key Lab Analyt Sci Food Safety &

    Biol Fujian Fuzhou 350108 Fujian Peoples R China;

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  • 原文格式 PDF
  • 正文语种 eng
  • 中图分类 应用化学;
  • 关键词

    antisense agents; gene delivery; nanospheres oligonucleotides; self-assembly;

    机译:反义药剂;基因递送;纳米球寡核苷酸;自组装;

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