基于靶向性和活性渗透性的离子液体纳米脂质体可提高联合化疗效率

IF 1 4区 材料科学 Q4 MATERIALS SCIENCE, MULTIDISCIPLINARY Nano Pub Date : 2024-01-29 DOI:10.1142/s1793292023501151
Kai Su, Peng Chen, Hao Gao, Yuan Zhai, Youbei Qiao, Chaoli Wang, Feng Yang
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引用次数: 0

摘要

肿瘤微环境严重限制了化疗药物的输送。微环境响应型纳米粒子往往设计复杂,临床转化能力有限。在这里,我们展示了一种以大豆卵磷脂(SL)为阳离子、叶酸(FA)为阴离子的离子液体(ILs),特别是它可以通过薄膜蒸发法制成纳米脂质体,用于递送顺式二氯二氨铂(顺铂,Cis)和盐酸多柔比星(DOX)。这些特殊的ILs脂质体可通过叶酸受体介导的内吞作用靶向肿瘤细胞,提高细胞摄取率,并由于SL-FA ILs与细胞膜之间的特殊非共价键作用,可积极渗透到整个肿瘤组织,从而显著提高深层渗透性。此外,ILs 脂质体还能提高顺式和 DOX 的递送效率,增强联合化疗效果。ILs纳米脂质体的制备工艺简单,有助于纳米药物的临床转化。
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Ionic Liquids Nanoliposomes Based on Targeted and Active Permeability for Enhanced Combination Chemotherapy Efficiency

Tumor microenvironment severely restricts the delivery of chemotherapy drugs. The microenvironment responsive nanoparticles often have complex designs with hampered clinical translatability. Here, we show a kind of ionic liquids (ILs) with soybean lecithin (SL) as cation, folic acid (FA) as anion, in particular, it could formulate nanoliposome by film evaporation method to deliver cis-Diamineplatinum (II) dichloride (cisplatin, Cis) and doxorubicin hydrochloride (DOX). These special ILs liposome could target tumor cells via folate receptor-mediated endocytosis by enhancing the cellular uptake, and significantly improve the deep permeability by actively infiltrating throughout the tumor tissue owing to the special noncovalent bond between SL–FA ILs with cell membrane. Moreover, ILs liposomes improve delivery efficiency of Cis and DOX and enhance the combined chemotherapeutic effect. The simple preparation process of the ILs nanoliposome should facilitate the clinical transformation of nanodrugs.

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来源期刊
Nano
Nano 工程技术-材料科学:综合
CiteScore
2.10
自引率
0.00%
发文量
95
审稿时长
1.6 months
期刊介绍: NANO is an international peer-reviewed monthly journal for nanoscience and nanotechnology that presents forefront fundamental research and new emerging topics. It features timely scientific reports of new results and technical breakthroughs and also contains interesting review articles about recent hot issues. NANO provides an ideal forum for presenting original reports of theoretical and experimental nanoscience and nanotechnology research. Research areas of interest include: nanomaterials including nano-related biomaterials, new phenomena and newly developed characterization tools, fabrication methods including by self-assembly, device applications, and numerical simulation, modeling, and theory. However, in light of the current stage development of nanoscience, manuscripts on numerical simulation, modeling, and/or theory only without experimental evidences are considered as not pertinent to the scope of NANO.
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