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首页> 外文期刊>Materials science & engineering >Multi-transformable nanocarrier with tumor extracellular acidity-activated charge reversal, size reduction and ligand reemergence for in vitro efficient doxorubicin loading and delivery
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Multi-transformable nanocarrier with tumor extracellular acidity-activated charge reversal, size reduction and ligand reemergence for in vitro efficient doxorubicin loading and delivery

机译:具有肿瘤细胞外酸度活化电荷反转,尺寸减少和配体的体外高效多柔比星负载和递送的多变性纳米载体

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摘要

Various nanoparticles as drug delivery system provide significant improvements in the cancer treatment. However, their clinical success remains elusive in large part due to their inability to overcome both systemic and tumor tissue barriers. The nanosystems with nanoproperty-transformability (surface, size, stability and target) hold great promise for achieving enhanced delivery efficacy. However, currently available systems that are mainly polymer-based assemblies usually suffer from the intrinsic drawbacks of poor stability, premature leakage and low drug loading as well as limited transformability. In this study, we designed a facile strategy to build a novel multi-transformable MSNs@GO nanosystem for efficient doxorubicin (DOX) loading and delivery. This novel nanosystem was well characterized and investigated in vitro. The results indicated that the MSNs@GO can realize a very high drug loading ability due to the large pore surface area of MSNs and the demonstrated donor-acceptor (boron-nitrogen) coordination interactions between phenylboronic acid-containing nanocarriers and electron donor-containing DOX. More importantly, the novel nanocarriers can simultaneously achieve charge reversal, size reduction and ligand reemergence by shielding/deshielding transition via acid-cleavable dynamic boronate bonds under in vitro simulated acidic microenvironment of tumor tissues, opening a new avenue for improving delivery efficiency of chemotherapeutics.
机译:作为药物递送系统的各种纳米颗粒在癌症治疗中提供显着改善。然而,由于无法克服全身和肿瘤组织屏障,它们的临床成功仍然难以实现。纳米骨灰 - 变革性(表面,尺寸,稳定性和目标)的纳米系统对实现增强的递送疗效具有很大的承担。然而,目前主要是基于聚合物的组件的可用系统通常遭受稳定性差,过早泄漏和低药物负载的内在缺点以及有限的可变性性。在这项研究中,我们设计了一种容易策略,用于构建新型多变换的MSNS @ Go纳米系统,以获得高效的多码蛋白(DOX)装载和交付。这种新型纳米系统在体外表征和研究。结果表明,由于MSN的大孔表面积和含苯基硼酸的纳米载体和含电子给体的DOX之间的大孔表面区域和所示的供体 - 受体(硼 - 氮)配位相互作用,MSNS @ Go可以实现非常高的药物负载能力。更重要的是,新型纳米载体可以通过在体外模拟酸性微环境下屏蔽/脱离过渡,通过肿瘤组织的体外模拟酸性微环境来同时实现电荷反转,尺寸减小和配体综合性,开启了一种提高化学治疗效率的新途径。

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  • 来源
    《Materials science & engineering》 |2020年第11期|111250.1-111250.9|共9页
  • 作者

    Yang Jumin; Liu Shuai; Ye Zhanpeng; Deng Liandong; Dong Anjie; Zhang Jianhua;

  • 作者单位

    Tianjin Univ Sch Chem Engn & Technol Dept Polymer Sci & Engn Key Lab Syst Bioengn Minist Educ Tianjin 300072 Peoples R China;

    Tianjin Univ Sch Chem Engn & Technol Dept Polymer Sci & Engn Key Lab Syst Bioengn Minist Educ Tianjin 300072 Peoples R China;

    Tianjin Univ Sch Chem Engn & Technol Dept Polymer Sci & Engn Key Lab Syst Bioengn Minist Educ Tianjin 300072 Peoples R China;

    Tianjin Univ Sch Chem Engn & Technol Dept Polymer Sci & Engn Key Lab Syst Bioengn Minist Educ Tianjin 300072 Peoples R China;

    Tianjin Univ Sch Chem Engn & Technol Dept Polymer Sci & Engn Key Lab Syst Bioengn Minist Educ Tianjin 300072 Peoples R China|Collaborat Innovat Ctr Chem Sci & Engn Tianjin Tianjin 300072 Peoples R China;

    Tianjin Univ Sch Chem Engn & Technol Dept Polymer Sci & Engn Key Lab Syst Bioengn Minist Educ Tianjin 300072 Peoples R China|Tianjin Univ Tianjin Key Lab Membrane Sci & Desalinat Technol Tianjin 300072 Peoples R China;

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  • 正文语种 eng
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  • 关键词

    Nanocarrier; Charge reversal; Size reduction; Ligand reemergence; Drug delivery;

    机译:纳米载波;充电逆转;减少尺寸;配体综合症;药物递送;

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