Dysprosium-containing Cobalt Sulfide Nanoparticles as Anticancer Drug Carriers.

IF 2.8 4区 医学 Q2 PHARMACOLOGY & PHARMACY
Govindaraj Sri Varalakshmi, Charan Singh Pawar, Varnitha Manikantan, Archana Sumohan Pillai, Aleyamma Alexander, Bose Allben Akash, N Rajendra Prasad, Israel V M V Enoch
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引用次数: 0

Abstract

Background: Among various materials designed for anticancer drug transport, sulfide nanoparticles are uniquely intriguing owing to their spectral characteristics. Exploration of newer nanoscale copper sulfide particles with dysprosium doping is reported herein. It leads to a change in the physicochemical properties of the sulfide nanoparticles and hence the difference in drug release and cytotoxicity.

Objective: We intend to purport the suitably engineered cobalt sulfide and dysprosium-doped cobalt sulfide nanoparticles that are magnetic and NIR-absorbing, as drug delivery vehicles. The drug loading and release are based on the supramolecular drug complex formation on the surface of the nanoparticles.

Method: The nanomaterials are synthesized employing hydrothermal procedures, coated with a biocompatible poly-β-cyclodextrin, and characterized using the methods of diffractometry, microscopy, spectroscopy, thermogravimetry and magnetometry. The sustained drug release is investigated in vitro. 5-Fluorouracil is loaded in the nanocarriers. The empty and 5-fluorouracil-loaded nanocarriers are screened for their anti-breast cancer activity in vitro on MCF-7 cells.

Results: The size of the nanoparticles is below 10 nm. They show soft ferromagnetic characteristics. Further, they show broad NIR absorption bands extending up to 1200 nm, with the dysprosium-doped material displaying greater absorbance. The drug 5-fluorouracil is encapsulated in the nanocarriers and released sustainably, with the expulsion duration extending over 10 days. The IC50 of the blank and the drug-loaded cobalt sulfide are 16.24 ± 3.6 and 12.2 ± 2.6 μg mL-1, respectively. For the drug-loaded, dysprosium-doped nanocarrier, the IC50 value is 9.7 ± 0.3 μg mL-1.

Conclusion: The ultrasmall nanoparticles possess a size suitable for drug delivery and are dispersed well in the aqueous medium. The release of the loaded 5-fluorouracil is slow and sustained. The anticancer activity of the drug-loaded nanocarrier shows an increase in efficacy, and the cytotoxicity is appreciable due to the controlled release. The nanocarriers show multi-functional characteristics, i.e., magnetic and NIR-absorbing, and are promising drug delivery agents.

作为抗癌药物载体的含镝硫化钴纳米粒子。
背景:在各种用于抗癌药物运输的材料中,硫化物纳米粒子因其光谱特性而独具魅力。本报告探讨了掺杂镝的新型纳米级硫化铜颗粒。掺杂镝会导致硫化纳米粒子的物理化学特性发生变化,从而导致药物释放和细胞毒性的不同:我们打算将经过适当设计的具有磁性和近红外吸收能力的硫化钴和掺镝硫化钴纳米粒子作为药物输送载体。药物的装载和释放是基于纳米颗粒表面超分子药物复合物的形成:方法:采用水热法合成纳米材料,在其表面包覆生物相容性聚-β-环糊精,并使用衍射仪、显微镜、光谱仪、热重仪和磁力仪等方法对其进行表征。体外研究了药物的持续释放。纳米载体中含有 5-氟尿嘧啶。在 MCF-7 细胞上对空纳米载体和负载 5-氟尿嘧啶的纳米载体进行体外抗乳腺癌活性筛选:结果:纳米颗粒的尺寸小于 10 纳米。结果:纳米颗粒的尺寸小于 10 纳米。此外,它们还显示出延伸至 1200 纳米的宽近红外吸收带,其中掺镝材料的吸收率更高。药物 5-氟尿嘧啶被封装在纳米载体中并可持续释放,驱除持续时间超过 10 天。空白硫化钴和药物负载硫化钴的 IC50 分别为 16.24 ± 3.6 和 12.2 ± 2.6 μg mL-1。载药掺镝纳米载体的 IC50 值为 9.7 ± 0.3 μg mL-1:结论:超小型纳米颗粒具有适合药物输送的尺寸,并能很好地分散在水介质中。负载的 5-氟尿嘧啶释放缓慢而持续。载药纳米载体的抗癌活性提高了,而且由于控释,细胞毒性明显降低。该纳米载体具有磁性和近红外吸收等多功能特性,是一种很有前景的给药剂。
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来源期刊
Current drug delivery
Current drug delivery PHARMACOLOGY & PHARMACY-
CiteScore
5.10
自引率
4.20%
发文量
170
期刊介绍: Current Drug Delivery aims to publish peer-reviewed articles, research articles, short and in-depth reviews, and drug clinical trials studies in the rapidly developing field of drug delivery. Modern drug research aims to build delivery properties of a drug at the design phase, however in many cases this idea cannot be met and the development of delivery systems becomes as important as the development of the drugs themselves. The journal aims to cover the latest outstanding developments in drug and vaccine delivery employing physical, physico-chemical and chemical methods. The drugs include a wide range of bioactive compounds from simple pharmaceuticals to peptides, proteins, nucleotides, nucleosides and sugars. The journal will also report progress in the fields of transport routes and mechanisms including efflux proteins and multi-drug resistance. The journal is essential for all pharmaceutical scientists involved in drug design, development and delivery.
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