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新型生物相容的聚乙二醇-聚(γ-胆固醇-L-谷氨酸)的研制作为疏水性药物载体。

Development of a novel biocompatible poly(ethylene glycol)-block-poly(γ-cholesterol-L-glutamate) as hydrophobic drug carrier.

机构信息

State Key Laboratory of Biotherapy, West China Hospital, Sichuan University, Chengdu, Sichuan 610041, China.

出版信息

Int J Pharm. 2013 Mar 10;445(1-2):88-92. doi: 10.1016/j.ijpharm.2013.01.046. Epub 2013 Jan 31.

DOI:10.1016/j.ijpharm.2013.01.046
PMID:23376505
Abstract

A novel biomaterial poly(ethylene glycol)-block-poly(γ-cholesterol-l-glutamate) (mPEG-PCHLG) was designed and synthesized by introducing cholesterol side chains into this pegylated poly(amino acid) copolymers to enlarge the core space to increase the drug capacity. Paclitaxel (PTX) loaded mPEG-PCHLG nanoparticles (PTX-mPEG-PCHLG-Nps) were developed for the first time. The preparation method of nanoparticles was screened and optimized systemically. The optimal PTX-mPEG-PCHLG-Nps with the average diameter of 213.71 nm were constructed through the O/W single-emulsion solvent evaporation method. The entrapment efficiency and drug loading was 38.02 ± 4.51% and 93.90 ± 4.56%, respectively. PTX-mPEG-PCHLG-Nps were spherical and well-dispersed and displayed a dramatic sustained-release property. The in vitro cytotoxicity experiments demonstrated that the blank mPEG-PCHLG nanoparticles had no cytotoxicities on four tumor cell lines including A549, HepG-2, MCF-7 and C26, which implied that mPEG-PCHLG might be biocompatible. PTX-mPEG-PCHLG-Nps obtained the same cell growth inhibition activities as free PTX when incubated with the above tumor cells for 48h. It can be inferred that PTX-mPEG-PCHLG-Nps could probably have higher anticancer efficacy due to the inadequate release of PTX from nanoparticles. PTX-mPEG-PCHLG-Nps achieved the highest antitumor activity in A549 rather than HepG-2, MCF-7 and C26, thus PTX-mPEG-PCHLG-Nps could have a potential application in lung cancer therapy. All the data indicated that mPEG-PCHLG was one of biocompatible biomaterials and worth being widely investigated as hydrophobic antitumor drug carrier.

摘要

一种新型生物材料聚乙二醇-聚(γ-胆固醇-L-谷氨酸)(mPEG-PCHLG)被设计并通过将胆固醇侧链引入这种聚乙二醇化的聚(氨基酸)共聚物中合成,以扩大核心空间以增加药物容量。首次开发了紫杉醇(PTX)负载的 mPEG-PCHLG 纳米颗粒(PTX-mPEG-PCHLG-Nps)。系统地筛选和优化了纳米颗粒的制备方法。通过 O/W 单乳液溶剂蒸发法构建了平均直径为 213.71nm 的最佳 PTX-mPEG-PCHLG-Nps。包封效率和载药量分别为 38.02±4.51%和 93.90±4.56%。PTX-mPEG-PCHLG-Nps 呈球形且分散良好,并表现出明显的缓释性能。体外细胞毒性实验表明,空白 mPEG-PCHLG 纳米颗粒对包括 A549、HepG-2、MCF-7 和 C26 在内的四种肿瘤细胞系均无细胞毒性,这表明 mPEG-PCHLG 可能具有生物相容性。当用上述肿瘤细胞孵育 48h 时,PTX-mPEG-PCHLG-Nps 与游离 PTX 获得相同的细胞生长抑制活性。可以推断,由于纳米颗粒中 PTX 的释放不足,PTX-mPEG-PCHLG-Nps 可能具有更高的抗癌功效。PTX-mPEG-PCHLG-Nps 在 A549 中实现了最高的抗肿瘤活性,而不是在 HepG-2、MCF-7 和 C26 中,因此 PTX-mPEG-PCHLG-Nps 可能在肺癌治疗中有潜在的应用。所有数据表明 mPEG-PCHLG 是一种生物相容性生物材料,值得作为疏水性抗肿瘤药物载体进行广泛研究。

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