In vitro evaluation of lipidic nanocarriers for mebendazole delivery to improve anticancer activity.

IF 2.4 4区医学 Q3 CHEMISTRY, MEDICINAL

Drug Development and Industrial Pharmacy Pub Date : 2024-11-11 DOI:10.1080/03639045.2024.2428405

M Amin Tamma, Hamdi Nsairat, Mohamed El-Tanani, Razan Madi

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引用次数: 0

Abstract

Objective: Enhance the anticancer activity of the repurposed drug Mebendazole (MBZ) against A549 cell lines by developing nanostructured lipid carriers (NLCs).

Significance: MBZ, an anthelmintic drug, exhibits anticancer properties primarily through the inhibition of Ran GTPase and mitotic spindle assembly. Enhancing its delivery and efficacy via NLC could provide a novel and effective approach for lung cancer treatment.

Methods: NLCs were prepared by mixing different ratios of solid lipid (Stearic acid) and liquid lipid (Oleic acid) with surfactants and emulsifiers. The NLCs were fully characterized to ensure stability, particle size, zeta potential, and encapsulation efficiency (EE%). The stability of the NLCs was monitored over a 3-week period. The anticancer activity of MBZ-NLCs was evaluated using IC₅₀ assays and in vitro scratch assays.

Results: The NLCs exhibited an average particle size of 300 ± 10 nm and a zeta potential of -27 ± 0.5 mV, indicating good stability. EE% significantly improved from 40% in conventional liposome formulations to 90.7% in NLCs. The anticancer activity of MBZ-NLCs was markedly enhanced, with an IC₅₀ of 62 nM compared to 581 nM for free MBZ, representing a 10-fold increase in potency. Additionally, in vitro scratch assays revealed that MBZ-NLCs effectively prevented cell-cell contact, further supporting their potential for improved therapeutic efficacy.

Conclusions: MBZ-NLCs exhibit significantly improved stability, encapsulation efficiency, and anticancer activity compared to free MBZ. These promising results suggest that MBZ-NLCs could be a potent therapeutic approach for lung cancer treatment, warranting further in vivo studies and exploration of different administration routes.

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体外评估脂质纳米载体输送甲苯咪唑以提高抗癌活性。

目的通过开发纳米结构脂质载体（NLCs），提高再利用药物甲苯咪唑（MBZ）对 A549 细胞系的抗癌活性：MBZ是一种抗蠕虫药物，主要通过抑制Ran GTP酶和有丝分裂纺锤体的组装而表现出抗癌特性。通过 NLC 增强其递送和药效可为肺癌治疗提供一种新颖有效的方法：方法：将不同比例的固体脂质（硬脂酸）和液体脂质（油酸）与表面活性剂和乳化剂混合，制备出 NLCs。对 NLCs 进行了全面表征，以确保其稳定性、粒度、zeta 电位和封装效率（EE%）。对 NLCs 的稳定性进行了为期 3 周的监测。使用 IC50 试验和体外划痕试验评估了 MBZ-NLCs 的抗癌活性：结果：NLCs 的平均粒径为 300 ± 10 nm，zeta 电位为 -27 ± 0.5 mV，显示出良好的稳定性。EE%从传统脂质体制剂的40%大幅提高到NLCs的90.7%。MBZ-NLCs 的抗癌活性明显增强，其 IC50 为 62 nM，而游离 MBZ 为 581 nM，效力提高了 10 倍。此外，体外划痕试验显示，MBZ-NLCs 能有效阻止细胞与细胞之间的接触，进一步支持了其改善疗效的潜力：结论：与游离 MBZ 相比，MBZ-NLC 在稳定性、封装效率和抗癌活性方面都有明显改善。这些令人鼓舞的结果表明，MBZ-NLCs 可能是治疗肺癌的一种有效方法，值得进一步进行体内研究和探索不同的给药途径。

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来源期刊

Drug Development and Industrial Pharmacy 医学-药学

CiteScore

6.80

自引率

0.00%

发文量

审稿时长

4.5 months

期刊介绍： The aim of Drug Development and Industrial Pharmacy is to publish novel, original, peer-reviewed research manuscripts within relevant topics and research methods related to pharmaceutical research and development, and industrial pharmacy. Research papers must be hypothesis driven and emphasize innovative breakthrough topics in pharmaceutics and drug delivery. The journal will also consider timely critical review papers.