三苯基膦功能化超支化纳米载体递送阿霉素导致线粒体快速且严重的细胞毒性。

Mitochondrial delivery of doxorubicin by triphenylphosphonium-functionalized hyperbranched nanocarriers results in rapid and severe cytotoxicity.

机构信息

Department of Physical Chemistry, IAMPPNM, NCSR "Demokritos", Patriarchou Gregoriou & Neapoleos, 15310, Ag. Paraskevi, Attiki, Greece,

出版信息

Pharm Res. 2013 Nov;30(11):2832-42. doi: 10.1007/s11095-013-1111-7. Epub 2013 Aug 7.

DOI:10.1007/s11095-013-1111-7

PMID:23921486

Abstract

PURPOSE

To develop a novel hyperbranched polymer-based nanocarrier for efficient drug delivery to cell mitochondria. Also to study for the first time the cytotoxic effect of doxorubicin via mitochondria-specific delivery system.

METHODS

We introduced alkyltriphenylphosphonium groups (TPP) to a poly(ethylene imine) hyperbranched polymer (PEI). We harnessed the hydrophobic assembly of these alkylTPP functionalized PEI molecules into ~100 nm diameter nanoparticles (PEI-TPP) and further encapsulated the chemotherapy agent doxorubicin (DOX), to produce the mitotropic nanoparticles PEI-TPP-DOX.

RESULTS

By administering PEI-TPP-DOX to human prostate carcinoma cells DU145, we found that: (i) PEI-TPP-DOX specifically localized at cell mitochondria as revealed by the inherent DOX fluorescence; (ii) in contrast to the slow apoptotic cell death incurred by DOX over the period of days at micromolar concentrations, PEI-TPP-DOX triggered rapid and severe cytotoxicity within few hours of incubation and at submicromolar incubation concentrations. This cytotoxicity was mainly found to be of a necrotic nature, not precluding autophagy related death pathways to a smaller extent.

CONCLUSIONS

We have elaborated a versatile mitotropic nanocarrier; furthermore, using this platform, we have developed a mitochondrial-doxorubicin formulation with exceptional cytocidal properties, even in nanomolar concentrations.

摘要

目的

开发一种新型超支化聚合物纳米载体，用于高效递送至细胞线粒体的药物输送。同时首次研究通过线粒体特异性递药系统的阿霉素的细胞毒性作用。

方法

我们将烷基三苯基膦基团（TPP）引入聚（乙二胺）超支化聚合物（PEI）。我们利用这些烷基 TPP 功能化的 PEI 分子的疏水性组装，形成约 100nm 直径的纳米颗粒（PEI-TPP），并进一步封装化疗药物阿霉素（DOX），产生亲线粒体的纳米颗粒 PEI-TPP-DOX。

结果

通过向人前列腺癌细胞 DU145 给予 PEI-TPP-DOX，我们发现：（i）PEI-TPP-DOX 特异性定位于细胞线粒体，如固有 DOX 荧光所揭示；（ii）与微米摩尔浓度下 DOX 导致的缓慢凋亡细胞死亡相反，PEI-TPP-DOX 在孵育数小时内，在亚微米摩尔孵育浓度下，引发快速和严重的细胞毒性。这种细胞毒性主要是坏死性质的，在较小程度上不排除自噬相关的死亡途径。

结论

我们详细阐述了一种多功能亲线粒体的纳米载体；此外，我们使用该平台开发了一种线粒体阿霉素制剂，具有优异的细胞杀伤特性，甚至在纳摩尔浓度下也是如此。

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三苯基膦功能化超支化纳米载体递送阿霉素导致线粒体快速且严重的细胞毒性。

Mitochondrial delivery of doxorubicin by triphenylphosphonium-functionalized hyperbranched nanocarriers results in rapid and severe cytotoxicity.

机构信息

出版信息

PURPOSE

METHODS

RESULTS

CONCLUSIONS

目的

方法

结果

结论

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