用于顺次递送多柔比星和伊马替尼以克服转移性肿瘤耐药性的生物活性 PEG 化纳米结构化平台的开发。

Development of Bioactive PEGylated Nanostructured Platforms for Sequential Delivery of Doxorubicin and Imatinib to Overcome Drug Resistance in Metastatic Tumors.

机构信息

College of Pharmacy, Yeungnam University , 214-1 Dae-Dong, Gyeongsan 712-749, South Korea.

Department of Biochemistry and Molecular Biology, College of Medicine, Yeungnam University , Daegu 705-717, Republic of Korea.

出版信息

ACS Appl Mater Interfaces. 2017 Mar 22;9(11):9280-9290. doi: 10.1021/acsami.6b09163. Epub 2017 Mar 8.

DOI:10.1021/acsami.6b09163

PMID:28240860

Abstract

Metastasis of cancers accounts for almost all cancer-related deaths. In this study, we report a PEGylated nanostructured platform for coadministration of doxorubicin (DOX) and imatinib (IMT) intended to effectively inhibit metastatic tumors. The DOX and IMT coloaded nanostructured system (DOX/IMT-N) is characterized by an excellent encapsulation potential for both drugs and shows sequential and sustained drug release in vitro. DOX/IMT-N significantly inhibited the in vitro proliferation of MDA-MB-231 and SK-MEL-28 cells. The inhibitory effect on in vitro proliferation of the cells was significantly greater than the effect of free DOX, DOX/IMT cocktail, or the nanostructured system housing DOX only (DOX-N). DOX/IMT-N remarkably enhanced cellular drug uptake, resulting in enhanced apoptosis, caused by significant increases in the expression levels of apoptotic marker proteins. Intravenous administration of DOX/IMT-N to MBA-MB-231 xenograft tumor-bearing mice resulted in significantly improved inhibition of tumor progression compared to that with DOX, DOX/IMT, or DOX-N. Therefore, the nanostructured DOX/IMT-N system could potentially aid in overcoming drug resistance in metastatic tumors and improve the effectiveness of metastatic tumor therapeutics.

摘要

癌症转移几乎是所有癌症相关死亡的原因。在这项研究中，我们报告了一种聚乙二醇化的纳米结构平台，用于联合给予多柔比星（DOX）和伊马替尼（IMT），旨在有效抑制转移性肿瘤。载多柔比星和伊马替尼的纳米结构系统（DOX/IMT-N）具有极好的封装潜力，可同时包封这两种药物，并在体外表现出顺序和持续的药物释放。DOX/IMT-N 显著抑制了 MDA-MB-231 和 SK-MEL-28 细胞的体外增殖。与游离 DOX、DOX/IMT 混合物或仅含有 DOX 的纳米结构系统（DOX-N）相比，该系统对细胞体外增殖的抑制作用明显更大。DOX/IMT-N 显著增加了细胞内药物摄取，导致细胞凋亡增加，这是由于凋亡标志物蛋白表达水平的显著增加所致。与 DOX、DOX/IMT 或 DOX-N 相比，静脉给予 DOX/IMT-N 至 MBA-MB-231 异种移植肿瘤荷瘤小鼠，可显著改善肿瘤进展的抑制。因此，纳米结构 DOX/IMT-N 系统有可能有助于克服转移性肿瘤中的药物耐药性，并提高转移性肿瘤治疗的效果。

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用于顺次递送多柔比星和伊马替尼以克服转移性肿瘤耐药性的生物活性 PEG 化纳米结构化平台的开发。

Development of Bioactive PEGylated Nanostructured Platforms for Sequential Delivery of Doxorubicin and Imatinib to Overcome Drug Resistance in Metastatic Tumors.

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