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碘化钾纳米颗粒通过利用钠碘转运体增强乳腺癌的放射治疗。

Potassium Iodide Nanoparticles Enhance Radiotherapy against Breast Cancer by Exploiting the Sodium-Iodide Symporter.

机构信息

Department of Chemistry, University of Georgia, Athens, Georgia 30602, United States.

Department of Radiology, University of North Carolina at Chapel Hill, Chapel Hill, North Carolina 27599, United States.

出版信息

ACS Nano. 2021 Nov 23;15(11):17401-17411. doi: 10.1021/acsnano.1c01435. Epub 2021 Oct 25.

DOI:10.1021/acsnano.1c01435
PMID:34694109
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9035482/
Abstract

Iodine has shown promise in enhancing radiotherapy. However, conventional iodine compounds show fast clearance and low retention inside cancer cells, limiting their application as a radiosensitizer. Herein, we synthesize poly(maleic anhydride--1-octadecene) coated KI nanoparticles (PMAO-KI NPs) and evaluate their potential for enhancing radiotherapy. Owing to the polymer coating, the KI core of PMAO-KI NPs is not instantly dissolved in aqueous solutions but slowly degraded, allowing for controlled release of iodide (I). I is transported into cells via the sodium iodide symporter (NIS), which is upregulated in breast cancer cells. Our results show that PMAO-KI NPs can enhance radiation-induced production of reactive oxygen species such as hydroxyl radicals. When tested with MCF-7 cells, PMAO-KI NPs promote radiation-induced DNA double-strand breaks and lipid peroxidation, causing a drop in cancer cell viability and reproductivity. When tested in MCF-7 bearing mice, PMAO-KI NPs show significant radiosensitizing effects, leading to complete tumor eradication in 80% of the treated animals without inducing additional toxicity. Overall, our strategy exploits electrolyte nanoparticles to deliver iodide into cancer cells through NIS, thus promoting radiotherapy against breast cancer.

摘要

碘已被证明具有增强放射治疗的潜力。然而,传统的碘化合物在癌细胞内清除速度快且保留率低,限制了其作为放射增敏剂的应用。在此,我们合成了聚(马来酸酐-1-十八烯)包覆碘化钾纳米颗粒(PMAO-KI NPs),并评估了它们在增强放射治疗中的潜力。由于聚合物涂层的存在,PMAO-KI NPs 的碘化钾核心不会立即溶解在水溶液中,而是缓慢降解,从而实现了碘化物(I)的控制释放。I 通过钠碘同向转运体(NIS)被转运到细胞内,而 NIS 在乳腺癌细胞中被上调。我们的结果表明,PMAO-KI NPs 可以增强辐射诱导的活性氧物质(如羟基自由基)的产生。在 MCF-7 细胞中进行测试时,PMAO-KI NPs 促进了辐射诱导的 DNA 双链断裂和脂质过氧化,导致癌细胞活力和繁殖力下降。在 MCF-7 荷瘤小鼠中进行测试时,PMAO-KI NPs 表现出显著的放射增敏作用,导致 80%的治疗动物完全消除肿瘤,而没有引起额外的毒性。总的来说,我们的策略利用电解质纳米颗粒通过 NIS 将碘化物递送到癌细胞内,从而促进了针对乳腺癌的放射治疗。

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