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基于自组装肽的纳米颗粒通过 caveolae 依赖性内吞作用增强疏水性抗癌药物椭圆醇的细胞递送。

Self-assembling peptide-based nanoparticles enhance cellular delivery of the hydrophobic anticancer drug ellipticine through caveolae-dependent endocytosis.

机构信息

Latner Thoracic Surgery Research Laboratories, University Health Network Toronto General Research Institute, Toronto, Ontario, Canada.

出版信息

Nanomedicine. 2012 Jul;8(5):647-54. doi: 10.1016/j.nano.2011.08.007. Epub 2011 Sep 1.

DOI:10.1016/j.nano.2011.08.007
PMID:21889478
Abstract

UNLABELLED

A special class of self-assembling peptide (EAK16-II) has been found to stabilize the hydrophobic anticancer agent ellipticine (EPT) in aqueous solution. In this study, the mechanism of such peptide-EPT complexes to enhance cellular delivery and anticancer activity was evaluated. Results revealed that EAK16-II can form nanoparticles with EPT, having an average size of ∼100 nm. This nanoformulation had cytotoxicity to human lung carcinoma A549 cells that was comparable to EPT dissolved in dimethyl sulfoxide. It enhanced EPT uptake drastically when compared to the microformulation. Such enhanced uptake was significantly reduced by inhibitors specifically for the caveolae-dependent pathway. We also found both protonated and neutral forms of EPT present in the cells. Interestingly, both were found in the cytoplasm, co-localized with LysoTracker, whereas only protonated EPT was seen in the nucleus. The promising therapeutic efficacy, specific delivery pathway, and intracellular distribution pattern discovered in this work may help further develop EPT as a nanoformulation for clinical applications.

FROM THE CLINICAL EDITOR

A special class of self-assembling peptide (EAK16-II) has been found to stabilize ellipticine in aqueous solution. The authors demonstrate therapeutic efficacy, describe specific delivery pathways, and effective intracellular distribution pattern, which will aid the development of this technology for future clinical applications.

摘要

未加标签

已发现一类特殊的自组装肽(EAK16-II)可在水溶液中稳定抗癌药物表鬼臼毒素(EPT)。在这项研究中,评估了这种肽-EPT 复合物增强细胞递药和抗癌活性的机制。结果表明,EAK16-II 可以与 EPT 形成纳米颗粒,平均粒径约为 100nm。该纳米制剂对人肺癌 A549 细胞具有与溶解在二甲基亚砜中的 EPT 相当的细胞毒性。与微制剂相比,它大大增强了 EPT 的摄取。这种增强的摄取可被专门针对胞吞小窝途径的抑制剂显著降低。我们还发现细胞内存在质子化和中性形式的 EPT。有趣的是,两者均存在于细胞质中,与 LysoTracker 共定位,而只有质子化的 EPT 存在于细胞核中。这项工作中发现的有前途的治疗效果、特定的递药途径和细胞内分布模式可能有助于进一步将 EPT 开发为用于临床应用的纳米制剂。

临床编辑按语

已发现一类特殊的自组装肽(EAK16-II)可在水溶液中稳定表鬼臼毒素。作者展示了治疗效果,描述了特定的递药途径和有效的细胞内分布模式,这将有助于该技术未来的临床应用。

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