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首页> 外文期刊>Angewandte Chemie >Disulfide-Unit Conjugation Enables Ultrafast Cytosolic Internalization of Antisense DNA and siRNA
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Disulfide-Unit Conjugation Enables Ultrafast Cytosolic Internalization of Antisense DNA and siRNA

机译:二硫键 - 单位缀合使得能够超快胞质囊肿内化反义DNA和siRNA

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摘要

Development of intracellular delivery methods for antisense DNA and siRNA is important. Previously reported methods using liposomes or receptor-ligands take several hours or more to deliver oligonucleotides to the cytoplasm due to their retention in endosomes. Oligonucleotides modified with low molecular weight disulfide units at a terminus reach the cytoplasm 10minutes after administration to cultured cells. This rapid cytoplasmic internalization of disulfide-modified oligonucleotides suggests the existence of an uptake pathway other than endocytosis. Mechanistic analysis revealed that the modified oligonucleotides are efficiently internalized into the cytoplasm through disulfide exchange reactions with the thiol groups on the cellular surface. This approach solves several critical problems with the currently available methods for enhancing cellular uptake of oligonucleotides and may be an effective approach in the medicinal application of antisense DNA and siRNA.
机译:用于反义DNA和siRNA的细胞内递送方法的发展是重要的。 以前报道了使用脂质体或受体 - 配体的方法需要几个小时或更长时间以由于其在底体中的保留而将寡核苷酸递送至细胞质。 用低分子量二硫化物单元在末端改性的寡核苷酸在给予培养细胞后达到细胞质10分钟。 这种快速的二硫化物改性寡核苷酸的细胞质内化表明存在于内吞作用之外的吸收途径。 机械分析显示,通过与细胞表面上的硫醇基团的二硫化物交换反应有效地将改性的寡核苷酸与细胞质有效地内化。 该方法解决了用于增强寡核苷酸细胞吸收的目前可用方法的几个关键问题,并且可以是反义DNA和siRNA的药用应用中的有效方法。

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  • 来源
    《Angewandte Chemie》 |2019年第20期|共5页
  • 作者

    Shu Zhaoma; Tanaka Iku; Ota Azumi; Fushihara Daichi; Abe Naoko; Kawaguchi Saki; Nakamoto Kosuke; Tomoike Fumiaki; Tada Seiichi; Ito Yoshihiro; Kimura Yasuaki; Abe Hiroshi;

  • 作者单位

    Nagoya Univ Chem Dept Chikusa Ku Furo Cho Nagoya Aichi 4648602 Japan;

    Nagoya Univ Chem Dept Chikusa Ku Furo Cho Nagoya Aichi 4648602 Japan;

    Nagoya Univ Chem Dept Chikusa Ku Furo Cho Nagoya Aichi 4648602 Japan;

    Nagoya Univ Chem Dept Chikusa Ku Furo Cho Nagoya Aichi 4648602 Japan;

    Nagoya Univ Chem Dept Chikusa Ku Furo Cho Nagoya Aichi 4648602 Japan;

    Nagoya Univ Chem Dept Chikusa Ku Furo Cho Nagoya Aichi 4648602 Japan;

    Nagoya Univ Chem Dept Chikusa Ku Furo Cho Nagoya Aichi 4648602 Japan;

    Nagoya Univ Res Ctr Mat Sci Chikusa Ku Furo Cho Nagoya Aichi 4648602 Japan;

    RIKEN Emergent Bioengn Mat Res Team Ctr Emergent Matter Sci 2-1 Hirosawa Wako Saitama 3510198 Japan;

    RIKEN Emergent Bioengn Mat Res Team Ctr Emergent Matter Sci 2-1 Hirosawa Wako Saitama 3510198 Japan;

    Nagoya Univ Chem Dept Chikusa Ku Furo Cho Nagoya Aichi 4648602 Japan;

    Nagoya Univ Chem Dept Chikusa Ku Furo Cho Nagoya Aichi 4648602 Japan;

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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; cellular uptake; cytosolic delivery; disulfide; siRNA;

    机译:反义;细胞摄取;细胞溶质递送;二硫化物;siRNA;

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