Multifunctional Magnetic Ionic Liquid-Carbon Nanohorn Complexes for Targeted Cancer Theranostics.

IF 11.1 Q1 MATERIALS SCIENCE, MULTIDISCIPLINARY

Small Science Pub Date : 2025-03-03 eCollection Date: 2025-05-01 DOI:10.1002/smsc.202400640

Yun Qi, Eijiro Miyako

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Abstract

Establishing a rational and simplified design for nanoparticles that selectively target and eliminate cancer cells is a crucial aspect of cancer treatment. In this study, a new multifunctional nanocomplex is developed based on a photoexothermic carbon nanohorn comprising the magnetic and anticancer ionic liquids 1-butyl-3-methylimidazolium tetrachloroferrate and fluorescent indocyanine green, synthesized through a convenient sonication process. The synthesized nanocomplexes exhibit unique therapeutic, photothermal, magnetic, and fluorescent properties, enabling chemotherapeutic, light-, and magnetic-field-driven cancer theranostics. Furthermore, this nanocomplex demonstrates prolonged water-dispersing stability (7 days), high photothermal conversion efficiency (63%), and remarkable stability under biologically permeable near-infrared laser irradiation. Simple magnetic guidance significantly enhances the accumulation of nanocomplexes at tumor sites, facilitating targeted delivery. In vitro and in vivo studies have demonstrated potent anticancer efficacy, high selective cytotoxicity against cancer cells, and minimal impact on normal tissues. This study represents the first application of magnetic ionic liquids in cancer treatment and provides a valuable platform for advanced nanotheranostics.

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用于靶向癌症治疗的多功能磁性离子液体-碳纳米角复合物。

建立合理和简化的纳米粒子设计，选择性地靶向和消除癌细胞是癌症治疗的关键方面。本研究以光热碳纳米角为基础，制备了一种新型多功能纳米配合物，该配合物由磁性抗癌离子液体1-丁基-3-甲基咪唑四氯铁酸盐和荧光吲哚菁绿组成。合成的纳米复合物表现出独特的治疗、光热、磁性和荧光特性，使化疗、光和磁场驱动的癌症治疗成为可能。此外，该纳米配合物在具有生物渗透性的近红外激光照射下具有较长的水分散稳定性（7天）、较高的光热转换效率（63%）和显著的稳定性。简单的磁引导可以显著增强纳米复合物在肿瘤部位的积累，促进靶向递送。体外和体内研究已经证明了强大的抗癌功效，对癌细胞具有高选择性的细胞毒性，对正常组织的影响最小。本研究代表了磁性离子液体在癌症治疗中的首次应用，为先进的纳米治疗提供了有价值的平台。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Small Science

CiteScore

14.00

自引率

2.40%

发文量

期刊介绍： Small Science is a premium multidisciplinary open access journal dedicated to publishing impactful research from all areas of nanoscience and nanotechnology. It features interdisciplinary original research and focused review articles on relevant topics. The journal covers design, characterization, mechanism, technology, and application of micro-/nanoscale structures and systems in various fields including physics, chemistry, materials science, engineering, environmental science, life science, biology, and medicine. It welcomes innovative interdisciplinary research and its readership includes professionals from academia and industry in fields such as chemistry, physics, materials science, biology, engineering, and environmental and analytical science. Small Science is indexed and abstracted in CAS, DOAJ, Clarivate Analytics, ProQuest Central, Publicly Available Content Database, Science Database, SCOPUS, and Web of Science.