用于增殖巨噬细胞选择性成像及化疗/放疗联合治疗的响应性海藻酸盐-顺铂纳米凝胶
Responsive alginate-cisplatin nanogels for selective imaging and combined chemo/radio therapy of proliferating macrophages.
作者信息
Hong Suk Ho, Li Yan, Eom Joo Beom, Choi Yongdoo
机构信息
Biomarker Branch, National Cancer Center, Goyang-si, Gyeonggi-do, Korea.
Medical Photonics Research Center, Korea Photonics Technology Institute (KOPTI), Gwangju, Korea.
出版信息
Quant Imaging Med Surg. 2018 Sep;8(8):733-742. doi: 10.21037/qims.2018.09.01.
BACKGROUND
Atherosclerosis is a major global health concern. Targeting macrophages is hypothesized as an alternative treatment for atherosclerosis.
METHODS
We synthesized alginate-based cisplatin-loaded nanogels (TANgel) as a pH-responsive drug-releasing theranostic nanoplatform for macrophage cells. Carboxylic acid groups of alginic acid were modified with iminodiacetic acid (IDA) to enhance chelation of platinum ions. The near infrared (NIR) fluorophore ATTO655 was conjugated to the modified alginic acid. Cisplatin was used as an antiproliferation drug and as a crosslinking agent between alginate molecules to form TANgel. Release behavior of cisplatin from TANgel was analyzed under different pH conditions. Cellular uptake and therapeutic efficacy of TANgel were tested in the macrophage cell line J774A.1 and normal human cell lines such as HDMVECn.
RESULTS
The nanogel had a narrow size distribution of approximately 100 nm. The nanogel showed highly pH-responsive drug release behavior. All incorporated cisplatin was released at pH 5 within 48 h, while less than 15% was released at pH 7.4. The nanogel was preferentially taken up by J774A.1 cells compared to normal human cells, enabling selective NIR fluorescence imaging and chemotherapy of macrophage cells. In addition, the nanogel formulation lowered the therapeutic concentration of the drug with and without low dose radiation therapy (RT) compared to the free drug form.
CONCLUSIONS
This nanogel system may have potential utility for selective NIR fluorescence imaging and combined chemo/radio therapy of proliferating macrophage cells in atherosclerotic regions, allowing for reduction of systemic toxicity.
背景
动脉粥样硬化是全球主要的健康问题。将巨噬细胞作为靶点被认为是治疗动脉粥样硬化的一种替代方法。
方法
我们合成了基于藻酸盐的载顺铂纳米凝胶(TANgel),作为一种对pH敏感的药物释放诊疗纳米平台用于巨噬细胞。用亚氨基二乙酸(IDA)修饰海藻酸的羧基,以增强铂离子的螯合作用。将近红外(NIR)荧光团ATTO655与修饰后的海藻酸偶联。顺铂用作抗增殖药物和藻酸盐分子之间的交联剂以形成TANgel。在不同pH条件下分析顺铂从TANgel中的释放行为。在巨噬细胞系J774A.1和正常人细胞系如HDMVECn中测试TANgel的细胞摄取和治疗效果。
结果
纳米凝胶的粒径分布狭窄,约为100nm。纳米凝胶表现出高度pH响应性的药物释放行为。所有包封的顺铂在pH 5时于48小时内释放,而在pH 7.4时释放少于15%。与正常人细胞相比,纳米凝胶优先被J774A.1细胞摄取,从而实现巨噬细胞的选择性近红外荧光成像和化疗。此外,与游离药物形式相比,纳米凝胶制剂在有和没有低剂量放射治疗(RT)的情况下都降低了药物的治疗浓度。
结论
这种纳米凝胶系统可能对动脉粥样硬化区域增殖巨噬细胞的选择性近红外荧光成像以及联合化学/放射治疗具有潜在应用价值,可降低全身毒性。
Zotero 插件