叶酸壳聚糖稳定的 pH 响应性硒纳米颗粒递送阿霉素用于克服耐药癌细胞。

pH-responsive selenium nanoparticles stabilized by folate-chitosan delivering doxorubicin for overcoming drug-resistant cancer cells.

机构信息

Department of Chemistry, Faculty of Science, Chulalongkorn University, Bangkok 10330, Thailand.

Antibody Production Research Unit, Institute of Biotechnology and Genetic Engineering, Chulalongkorn University, Bangkok 10330, Thailand.

出版信息

Carbohydr Polym. 2018 Feb 1;181:841-850. doi: 10.1016/j.carbpol.2017.11.068. Epub 2017 Nov 22.

DOI:10.1016/j.carbpol.2017.11.068

PMID:29254044

Abstract

Herein, we first report pH-responsive SeNPs stabilized with modified folic acid-N-trimethyl chitosan (TMC-FA) as nanocarriers for delivery of doxorubicin (DOX) to overcome drug-resistant cancer cells, which could enhance the activity of DOX by approximately 10-fold for a reduced IC value compared to free DOX. When nanoparticles were taken up by cells, the DOX-loaded SeNPs@TMC-FA demonstrated a faster release rate under acidic conditions. The cumulative release amount of DOX at pH 5.3 was 54.1% within 2h and 95.5% at 6h, whereas the release rate at pH 7.4 was 12.3% in 2h and 42.2% for 6h; release was not completed at the end of the study, 72h. Mechanistic studies suggested that DOX-SeNPs@TMC-FA induced cell death through the apoptosis pathway by involvement of caspase-3 and PARP proteins. The results demonstrated that pH-responsive SeNPs@TMC-FA, as targeted nanocarriers, promoted the efficacy of DOX and overcame drug resistance in NCI/ADR-RES cells.

摘要

在此，我们首次报道了用经过修饰的叶酸-N-三甲基壳聚糖（TMC-FA）稳定的 pH 响应性硒纳米颗粒（SeNPs）作为载药纳米载体来输送阿霉素（DOX）以克服耐药癌细胞，与游离 DOX 相比，其 IC 值降低了约 10 倍，从而增强了 DOX 的活性。当纳米颗粒被细胞摄取时，载 DOX 的 SeNPs@TMC-FA 在酸性条件下表现出更快的释放速度。在 pH 5.3 下，2h 时 DOX 的累积释放量为 54.1%，6h 时达到 95.5%，而在 pH 7.4 下，2h 时的释放率为 12.3%，6h 时为 42.2%；在研究结束时（72h），释放并未完成。机制研究表明，DOX-SeNPs@TMC-FA 通过半胱天冬酶-3 和 PARP 蛋白的参与，通过凋亡途径诱导细胞死亡。结果表明，作为靶向纳米载体的 pH 响应性 SeNPs@TMC-FA 增强了 DOX 的疗效并克服了 NCI/ADR-RES 细胞的耐药性。

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叶酸壳聚糖稳定的 pH 响应性硒纳米颗粒递送阿霉素用于克服耐药癌细胞。

pH-responsive selenium nanoparticles stabilized by folate-chitosan delivering doxorubicin for overcoming drug-resistant cancer cells.

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