Novel biodegradable molecularly imprinted polymer nanoparticles for drug delivery of methotrexate anti-cancer; synthesis, characterization and cellular studies.

Sepideh Yoosefi, Mehdi Esfandyari-Manesh, Fatemeh Ghorbani-Bidkorpeh, Mahnaz Ahmadi, Fatemeh Moraffah, Rassoul Dinarvand
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引用次数: 4

Abstract

Background: Recently biodegradable nanoparticles are the center of attention for the development of drug delivery systems. Molecularly imprinted polymer (MIP) is an interesting candidate for designing drug nano-carriers. MIP-based nanoparticles could be used for cancer treatment and exhibited the potential to fill gaps regarding to ligand-based nanomaterials. Also, the presence of a cross-linker can play an essential role in nanoparticle stability and physicochemical properties of nanoparticles after synthesis.

Objectives: In this research, a biodegradable drug delivery system based on MIP nanoparticles was prepared using a biodegradable cross-linker (dimethacryloyl hydroxylamine, DMHA) for methotrexate (MTX). A hydrolysable functional group CO-O-NH-CO was added to the crosslinking agent to increase the final biodegradability of the polymer.

Methods: Firstly, a biodegradable cross-linker was synthesized. Then, the non-imprinted polymers were prepared through mini-emulsion polymerization in the absence of a template; and efficient particle size distribution was determined. Finally, methotrexate was placed in imprinted polymers to achieve the desired MIP. Different types of MIPs were synthesized using different molar ratios of template, cross-linker, and functional monomer, and the optimal molar ratio was obtained at 1:4:20, respectively.

Results: HNMR successfully confirmed the chemical structure of the cross-linker. According to SEM images, nanoparticles had a spherical shape with a smooth surface. The imprinted nanoparticles showed a narrow size distribution with an average of 120 nm at a high ratio of cross-linker. The drug loading and entrapment efficiency were 6.4% and 92%, respectively. The biodegradability studies indicated that the nanoparticles prepared by DMHA had a more degradability rate than ethylene glycol dimethacrylate as a conventional cross-linker. Also, the polymer degradation rate was higher in alkaline environments. Release studies in physiological and alkaline buffer showed an initial burst release of a quarter of loaded MTX during the day and a 70% release during a week. The Korsmeyer-Peppas model described the release pattern. The cytotoxicity of MTX loaded in nanoparticles was studied on the MCF-7 cell line, and the IC50 was 3.54 μg/ml.

Conclusion: It was demonstrated that nanoparticles prepared by DMHA have the potential to be used as biodegradable drug carriers for anticancer delivery. Synthesis schema of molecular imprinting of methotrexate in biodegradable polymer based on dimethacryloyl hydroxylamine cross-linker, for use as nanocarrier anticancer delivery to breast tumor.

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用于甲氨蝶呤抗癌药物递送的新型可生物降解分子印迹聚合物纳米颗粒合成,表征和细胞研究。
背景:可生物降解纳米颗粒是近年来药物传递系统发展的热点。分子印迹聚合物(MIP)是设计药物纳米载体的一个有趣的候选材料。基于mip的纳米颗粒可用于癌症治疗,并显示出填补有关配体基纳米材料空白的潜力。此外,交联剂的存在对纳米颗粒的稳定性和合成后纳米颗粒的物理化学性质起着至关重要的作用。目的:采用可生物降解交联剂二甲丙烯酰羟胺(DMHA)为甲氨蝶呤(MTX)制备了一种基于MIP纳米颗粒的可生物降解给药系统。在交联剂中加入可水解官能团CO-O-NH-CO,以提高聚合物的最终生物降解性。方法:首先合成可生物降解交联剂。然后,在没有模板的情况下,通过微乳液聚合制备非印迹聚合物;确定了有效粒径分布。最后,将甲氨蝶呤放置在印迹聚合物中以获得所需的MIP。采用模板、交联剂和功能单体的不同摩尔比合成了不同类型的mip,最佳摩尔比分别为1:4:20。结果:核磁共振成功地证实了交联剂的化学结构。扫描电镜显示,纳米颗粒呈球形,表面光滑。在交联剂比例较高的情况下,印迹纳米颗粒的尺寸分布较窄,平均为120 nm。载药量和包封率分别为6.4%和92%。生物降解性研究表明,DMHA制备的纳米颗粒具有比传统交联剂乙二醇二甲基丙烯酸酯更高的降解率。此外,聚合物在碱性环境下的降解率更高。生理缓冲液和碱性缓冲液的释放研究表明,在白天初始释放四分之一的负荷MTX,一周释放70%。Korsmeyer-Peppas模型描述了释放模式。研究了MTX纳米颗粒对MCF-7细胞株的细胞毒性,IC50为3.54 μg/ml。结论:DMHA制备的纳米颗粒具有作为生物可降解的抗癌药物载体的潜力。基于二甲基丙烯酰羟胺交联剂的生物可降解聚合物甲氨蝶呤分子印迹的合成方案及其用于乳腺肿瘤抗癌纳米载体的研究。
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