Cytosolic Delivery of Doxorubicin from Liposomes to Multidrug-Resistant Cancer Cells via Vaporization of Perfluorocarbon Droplets

Jacob B. Williams, Clara M. Buchanan, G. Husseini, W. Pitt
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引用次数: 2

Abstract

A common mechanism of multidrug resistance is the upregulation of efflux pumps in the cancer cells that can more rapidly export unwanted materials (e.g. cancer drugs) out of the cell, compared to sensitive cancer cells. This research seeks to overcome this mechanism by vaporizing a perfluoropentane emulsion droplet inside of a drug-containing liposome (eLiposome) that was endocytosed into a cancer cell. Folate attached to the eLiposome facilitates uptake into the cell as observed by confocal microscopy. Ultrasound was examined as a trigger to initiate the vaporization of the perfluoropentane droplet and release doxorubicin from folated eLiposomes (feLD). Two seconds of ultrasound released 78% of encapsulated doxorubicin from feLD. Doxorubicin-sensitive KB-3-1 cells and doxorubicin-resistant KB-V1 cells treated with feLD (without ultrasound) had cell viabilities of 33% and 60%, respectively. Ultrasound had negligible additional effect on the cell viability of KB-3-1 and KB-V1 cells treated with feLD (33% and 53%, respectively). We hypothesized that the doxorubicin sulfate fibers that were formed during the loading of doxorubicin into the eLiposome present a site for heterogeneous nucleation once the feLD is endocytosed by the cell, and thus droplet vaporization occurs with or without ultrasound.
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通过全氟碳液滴汽化,脂质体向多药耐药癌细胞的胞质递送阿霉素
多药耐药的一个常见机制是癌细胞外排泵的上调,与敏感的癌细胞相比,它可以更快地将不需要的物质(如抗癌药物)排出细胞。本研究试图克服这一机制,通过汽化含药物脂质体(脂质体)内的全氟戊烷乳液液滴,该脂质体被内吞入癌细胞。共聚焦显微镜观察到,附着在脂质体上的叶酸有利于细胞摄取。超声检查作为触发启动蒸发全氟戊烷液滴和释放阿霉素从叶酸脂质体(feLD)。超声两秒释放出78%的封装阿霉素。经feLD(无超声)处理的阿霉素敏感的KB-3-1细胞和耐药的KB-V1细胞存活率分别为33%和60%。超声对feLD处理的KB-3-1和KB-V1细胞活力的额外影响可以忽略不计(分别为33%和53%)。我们假设,在将阿霉素装入脂质体过程中形成的硫酸阿霉素纤维,一旦feLD被细胞内吞,就会出现一个异质成核的位点,因此液滴在有或没有超声的情况下都会汽化。
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