高分子纳米颗粒的细胞内靶向激活克服了人原发性乳腺癌细胞的化学药物耐药性。

Activation of polymeric nanoparticle intracellular targeting overcomes chemodrug resistance in human primary patient breast cancer cells.

机构信息

Zoology Department, Faculty of Sciences, Mansoura University, Mansoura 35516, Egypt.

Department of Basic Science, Faculty of Dentistry, Horus University in Egypt (HUE), New Damietta 34517, Egypt.

出版信息

Int J Nanomedicine. 2018 Nov 29;13:8153-8164. doi: 10.2147/IJN.S182184. eCollection 2018.

DOI:10.2147/IJN.S182184

PMID:30555232

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6278841/

Abstract

BACKGROUND

Successfully overcoming obstacles due to anticancer drugs' toxicity and achieving effective treatment using unique nanotechnology is challenging. The complex nature of breast tumors is mainly due to chemoresistance. Successful docetaxel (DTX) delivery by nanoparticles (NPs) through inhibition of multidrug resistance (MDR) can be a bridge to enhance intracellular dose and achieve higher cytotoxicity for cancer cells.

PURPOSE

This study tested primary patient breast cancer cells in vitro with traditional free DTX in comparison with polymeric nanocarriers based on poly lactic co-glycolic acid (PLGA) NPs.

MATERIALS AND METHODS

Establishment of primary cell line from breast malignant tumor depends on enzymatic digestion. Designed DTX-loaded PLGA NPs were prepared with a solvent evaporation method; one design was supported by the use of folic acid (FA) conjugated to PLGA. The physical properties of NPs were characterized as size, charge potential, surface morphology, DTX loading, and encapsulation efficiency. In vitro cellular uptake of fluorescent NPs was examined visually with confocal fluorescence microscopy and quantitatively with flow cytometry. In vitro cytotoxicity of all DTX designed NPs against cancer cells was investigated with MTT assay. RT-PCR measurements were done to examine the expression of chemoresistant and apoptotic genes of the tested DTX NPs.

RESULTS

Cellular uptake of DTX was time dependent and reached the maximum after loading on PLGA NPs and with FA incorporation, which activated the endocytosis mechanism. MTT assay revealed significant higher cytotoxicity of DTX-loaded FA/PLGA NPs with higher reduction of IC50 (8.29 nM). In addition, PLGA NPs, especially FA incorporated, limited DTX efflux by reducing expression of (3.2-fold) and (2.86-fold), which were highly activated by free DTX. DTX-loaded FA/PLGA NPs showed the highest apoptotic effect through the activation of Caspase-9, Caspase-3, and TP53 genes by 2.8-, 1.6-, and 1.86-fold, respectively.

CONCLUSION

FA/PLGA NPs could be a hopeful drug delivery system for DTX in breast cancer treatment.

摘要

背景

克服抗癌药物毒性带来的障碍并利用独特的纳米技术进行有效治疗极具挑战性。乳腺癌的复杂性主要归因于化疗耐药性。通过抑制多药耐药（MDR），纳米颗粒（NPs）成功输送多西紫杉醇（DTX）可以作为一种桥梁，增加细胞内剂量并实现更高的癌细胞细胞毒性。

目的

本研究通过比较基于聚乳酸-共-羟基乙酸（PLGA）纳米载体的传统游离多西紫杉醇与聚合物纳米载体，在体外测试原发性患者乳腺癌细胞。

材料和方法

从乳腺恶性肿瘤中建立原代细胞系依赖于酶消化。设计的载多西紫杉醇的 PLGA NPs 采用溶剂蒸发法制备；一种设计是通过使用与 PLGA 缀合的叶酸（FA）来支持。 NPs 的物理性质特征为大小、电荷电位、表面形态、DTX 负载和包封效率。使用共聚焦荧光显微镜和流式细胞术分别直观和定量地检测荧光 NPs 的细胞内摄取。MTT 测定法研究了所有设计的 DTX NPs 对癌细胞的体外细胞毒性。通过 RT-PCR 测量检查了测试 DTX NPs 的化疗耐药和凋亡基因的表达。

结果

DTX 的细胞摄取是时间依赖性的，在负载到 PLGA NPs 上并与 FA 结合后达到最大值，这激活了内吞作用机制。MTT 测定表明，FA/PLGA NPs 载药具有更高的细胞毒性，IC50（8.29 nM）降低。此外，PLGA NPs，特别是与 FA 结合，通过降低（3.2 倍）和（2.86 倍）的表达来限制 DTX 外排，这两种物质在游离 DTX 作用下被高度激活。FA/PLGA NPs 载药通过激活 Caspase-9、Caspase-3 和 TP53 基因分别提高 2.8 倍、1.6 倍和 1.86 倍，显示出最高的促凋亡作用。

结论

FA/PLGA NPs 可能是治疗乳腺癌中 DTX 的有希望的药物递送系统。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/59c7/6278841/a666a66c0856/ijn-13-8153Fig1.jpg

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高分子纳米颗粒的细胞内靶向激活克服了人原发性乳腺癌细胞的化学药物耐药性。

Activation of polymeric nanoparticle intracellular targeting overcomes chemodrug resistance in human primary patient breast cancer cells.

机构信息

出版信息

BACKGROUND

PURPOSE

MATERIALS AND METHODS

RESULTS

CONCLUSION

背景

目的

材料和方法

结果

结论

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