基于接触镜作为载体的镝基纳米粒子的设计、合成及抗阿米巴活性研究

Design, synthesis and antiamoebic activity of dysprosium-based nanoparticles using contact lenses as carriers against Acanthamoeba sp.

机构信息

Department of Chemical Engineering, Faculty of Engineering, Universitas Indonesia, Depok, Indonesia.

School of Fundamental Science, Universiti Malaysia Terengganu, Kuala Terengganu, Malaysia.

出版信息

Acta Ophthalmol. 2021 Mar;99(2):e178-e188. doi: 10.1111/aos.14541. Epub 2020 Jul 23.

DOI:10.1111/aos.14541

PMID:32701190

Abstract

PURPOSE

Contact lenses have direct contact with the corneal surface and can induce sight-threatening infection of the cornea known as Acanthamoeba keratitis. The objective of this study was to evaluate the dysprosium-based nanoparticles (Dy-based NPs), namely Fe O -PEG-Dy O nanocomposites and Dy(OH) nanorods, as an active component against Acanthamoeba sp., as well as the possibility of their loading onto contact lenses as the drug administering vehicle to treat Acanthamoeba keratitis (AK).

METHODS

The Dy-based NPs were synthesized, and they were loaded onto commercial contact lenses. The loading content of the NPs and their release kinetics was determined based on the absorbance of their colloidal solution before and after soaking the contact lenses. The cytotoxicity of the NPs was evaluated, and the IC values of their antiamoebic activity against Acanthamoeba sp. were determined by MTT colorimetric assay, followed by observation on the morphological changes by using light microscopy. The mechanism of action of the Dy-based NPs against Acanthamoeba sp. was evaluated by DNA laddering assays.

RESULTS

The loading efficiencies of the Dy-based NPs onto the contact lens were in the range of 30.6-36.1% with respect to their initial concentration (0.5 mg ml ). The Dy NPs were released with the flux approximately 5.5-11 μg cm hr , and the release was completed within 10 hr. The emission of the NPs consistently showed a peak at 575 nm due to Dy ion, offering the possible monitoring and tracking of the NPs. The SEM images indicated the NPs are aggregated on the surface of the contact lenses. The DNA ladder assay suggested that the cells underwent DNA fragmentation, and the cell death was due most probably to necrosis, rather than apoptosis. The cytotoxicity assay of Acanthamoeba sp. suggested that Fe O -PEG, Fe O -PEG-Dy O , Dy(NO ) .6H O and Dy(OH) NPs have an antiamoebic activity with the IC value being 4.5, 5.0, 9.5 and 22.5 μg ml , respectively.

CONCLUSIONS

Overall findings in this study suggested that the Dy-based NPs can be considered as active antiamoebic agents and possess the potential as drugs against Acanthamoeba sp. The NPs could be loaded onto the contact lenses; thus, they can be potentially utilized to treat Acanthamoeba keratitis (AK).

摘要

目的

隐形眼镜直接与角膜表面接触，可能会引起威胁视力的角膜感染，即棘阿米巴角膜炎。本研究的目的是评估基于镝的纳米粒子（Dy 基 NPs），即 Fe O -PEG-Dy O 纳米复合材料和 Dy(OH)纳米棒，作为对抗棘阿米巴属的有效成分，以及将其作为药物输送载体装载到隐形眼镜上以治疗棘阿米巴角膜炎（AK）的可能性。

方法

合成 Dy 基 NPs，并将其负载到商业隐形眼镜上。通过测量浸泡隐形眼镜前后胶体溶液的吸光度，确定 NPs 的负载含量及其释放动力学。评估 NPs 的细胞毒性，并通过 MTT 比色法测定其对棘阿米巴属的抗阿米巴活性的 IC 值，然后通过光镜观察形态变化。通过 DNA 梯状电泳试验评估 Dy 基 NPs 对棘阿米巴属的作用机制。

结果

Dy 基 NPs 对隐形眼镜的负载效率在初始浓度（0.5 mg ml ）的 30.6-36.1%范围内。Dy NPs 的释放通量约为 5.5-11μg cm hr ，10 小时内释放完全。由于 Dy 离子的存在，NPs 的发射始终在 575nm 处出现峰值，这为 NPs 的监测和跟踪提供了可能。SEM 图像表明 NPs 在隐形眼镜表面聚集。DNA 梯状电泳试验表明细胞发生了 DNA 片段化，细胞死亡很可能是由于坏死，而不是凋亡。棘阿米巴属的细胞毒性试验表明，Fe O -PEG、Fe O -PEG-Dy O 、Dy(NO ).6H O 和 Dy(OH) NPs 具有抗阿米巴活性，其 IC 值分别为 4.5、5.0、9.5 和 22.5μg ml 。