Fabrication of chitosan-hyaluronic acid nanoparticles and encapsulation into nanoparticles of dinitrosyl iron complexes as potential cardiological drugs

IF 1.4 Q4 NANOSCIENCE & NANOTECHNOLOGY Nanomedicine Journal Pub Date : 2020-07-01 DOI:10.22038/NMJ.2020.07.0004
N. Akentieva, Аrthur R. Gizatullin, N. Sanina, N. Dremova, Vladimír, I. Torbov, N. Shkondina, N. Zhelev, S. Aldoshin
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Abstract

Objective(s)Currently, the development of nanoparticles for the stabilization and targeted delivery of cardiac drugs has gained significance. The present study aimed to develop nontoxic nanoparticles based on chitosan-hyaluronic acid (HA), encapsulate dinitrosyl iron complexes (DNICs, donors NO) into the nanoparticles to increase the stability and effectiveness of their action, and assess the effect of the nanoparticle-DNIC complex on the cell viability of cardiomyocytes.Materials and MethodsNanoparticles were obtained from chitosan-HA using the ionotropic gelation technology, and the morphology and size of the nanoparticles were determined using electron microscopy. The DNICs were built into the nanoparticles using the physical association method, and the stability of the nanoparticle-DNIC complexes and NO release was investigated using the electrochemical method.ResultsAnalysis by the electron microscopy showed that the nanoparticles were homogeneous in terms of shape and had an optimal size of ~100 nanometers. In addition, the incorporation of the DNICs into the composition of the nanoparticles significantly increased the stability of the DNICs, while also prolonging the generation of NO and enhancing the yield of nitrogen monoxide. Fluorescence analysis indicated that the chitosan-HA nanoparticles increased the cell viability of rat cardiomyocytes.ConclusionThe nanoparticles were fabricated from chitosan and HA. The encapsulation of the DNICs into the composition of the nanoparticles could stabilize these compounds, while prolonging and increasing the generated nitric oxide. The nanoparticle-DNICs were water-soluble, biocompatible, biodegradable, and nontoxic, which could be used as potential cardiac drugs for the treatment of cardiovascular diseases.
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壳聚糖透明质酸纳米颗粒的制备及其作为潜在心脏病药物的二硝基铁配合物纳米颗粒的包封
目前,纳米颗粒用于心脏药物的稳定和靶向递送具有重要意义。本研究旨在开发基于壳聚糖透明质酸(HA)的无毒纳米颗粒,将二硝基铁复合物(dnic,供体NO)包裹在纳米颗粒中,以提高其作用的稳定性和有效性,并评估纳米颗粒- dnic复合物对心肌细胞活力的影响。材料与方法采用离子化胶凝法制备壳聚糖-透明质酸纳米颗粒,并用电镜观察纳米颗粒的形貌和大小。采用物理缔合法将dnic嵌入到纳米颗粒中,并采用电化学方法研究纳米颗粒- dnic配合物的稳定性和NO的释放。结果电镜分析表明,纳米颗粒形状均匀,最佳粒径为~100纳米。此外,在纳米颗粒的组成中加入dnic显著增加了dnic的稳定性,同时也延长了NO的生成时间,提高了一氧化氮的产率。荧光分析表明,壳聚糖-透明质酸纳米颗粒提高了大鼠心肌细胞的活力。结论壳聚糖和透明质酸制备了纳米颗粒。将dnic包封在纳米颗粒的组成中可以稳定这些化合物,同时延长和增加生成的一氧化氮。纳米颗粒- dnic具有水溶性、生物相容性、可生物降解性和无毒性,可作为治疗心血管疾病的潜在心脏药物。
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来源期刊
Nanomedicine Journal
Nanomedicine Journal NANOSCIENCE & NANOTECHNOLOGY-
CiteScore
3.40
自引率
0.00%
发文量
0
审稿时长
12 weeks
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