Hyaluronan-based theranostic nanomicelles for breast cancer-targeting and anticancer drug delivery

IF 8.4
Yibin Yu, Chong Huang, Fen Chen, Weisan Pan, Ling Zhang
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引用次数: 1

Abstract

Integration of diagnostic and therapeutic modalities into a single nanoplatform can play an important role in personalized cancer therapy. In this work, an all-in-one theranostic nanoplatform (HPCT nanomicelles) for breast cancer was fabricated, composed of the synthetic polymer hyaluronan-b-poly(ε-caprolactone) (HA-PCL), drug curcumin (Cur) and adjuvant tocopheryl polyethylene glycol succinate (TPGS). HPCT nanomicelles presented adequate drug loading efficiency, excellent stability, and attractive hyaluronidase-sensitive release features. Imaging agent radionuclide 99mTc was loaded into HPCT nanomicelles (denoted as 99mTc-HPCT nanomicelles) and in vivo SPECT/CT imaging verified the HA-based nanomicelles could actively target breast cancer in mice. In vivo anti-tumor pharmacodynamic studies indicated that HPCT nanomicelles exhibited desirable anti-tumor efficacy with favorable biosafety. 99mTc-HPCT nanomicelles, integrating imaging and therapeutic modalities, have the promising potential to be an all-in-one theranostic nanoplatform for breast cancer.
基于透明质酸的治疗性纳米胶束用于乳腺癌靶向和抗癌药物递送
将诊断和治疗方式整合到一个纳米平台中可以在个性化癌症治疗中发挥重要作用。本文制备了由透明质酸-聚(ε-己内酯)(HA-PCL)、药物姜黄素(Cur)和辅助剂生育酚基聚乙二醇琥珀酸酯(TPGS)组成的乳腺癌一体化治疗纳米平台(HPCT纳米胶束)。HPCT纳米胶束具有良好的载药效率、良好的稳定性和透明质酸酶敏感的释放特性。将显像剂放射性核素99mTc装载到HPCT纳米胶束中(表示为99mTc-HPCT纳米胶束),体内SPECT/CT成像验证了基于ha的纳米胶束可以积极靶向小鼠乳腺癌。体内抗肿瘤药效学研究表明,HPCT纳米胶束具有良好的抗肿瘤效果和良好的生物安全性。99mTc-HPCT纳米胶束集成像和治疗方式于一体,有望成为乳腺癌的一体化纳米治疗平台。
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期刊介绍: Materials and Design is a multidisciplinary journal that publishes original research reports, review articles, and express communications. It covers a wide range of topics including the structure and properties of inorganic and organic materials, advancements in synthesis, processing, characterization, and testing, as well as the design of materials and engineering systems, and their applications in technology. The journal aims to integrate various disciplines such as materials science, engineering, physics, and chemistry. By exploring themes from materials to design, it seeks to uncover connections between natural and artificial materials, and between experimental findings and theoretical models. Manuscripts submitted to Materials and Design are expected to offer elements of discovery and surprise, contributing to new insights into the architecture and function of matter.
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