Preparation, characterization, and determination of the therapeutic effects of copper nanoparticles green-formulated by Pistacia atlantica in diabetes-induced cardiac dysfunction in rat

IF 2.1 4区 化学 Q3 CHEMISTRY, MULTIDISCIPLINARY Open Chemistry Pub Date : 2024-09-13 DOI:10.1515/chem-2024-0071
Jiayue Lin, Yang Jiang, Xu Zhou, Ting Zhang, Xu Yan
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Abstract

The development and creation of innovative therapeutic supplements and medications with extraordinary efficacy for addressing severe diabetes are of utmost importance to both developing and developed nations. A bio-inspired method has been documented for producing copper nanoparticles (CuNPs) using Pistacia atlantica leaf extract as a natural stabilizing agent. This approach is applicable, easy, and environmentally friendly, as it avoids using any toxic or harmful reagents. The CuNPs that were synthesized through biological processes underwent characterization using sophisticated physicochemical methods such as energy-dispersive X-ray spectroscopy, transmission electron microscopy, field emission-scanning electron microscopy, and Fourier-transformed infrared spectroscopy. It is confirmed that CuNPs exhibit a spherical structure, with an average size ranging from approximately 30 to 70 nm. Diabetes was induced in vivo through a fructose-enriched diet combined with streptozotocin. Half the subjects were administered CuNPs (100 µg/kg) via oral gavage. In contrast to the animals that were given regular food, the diabetic animals revealed an increase in serum fasting glucose level and a decrease in glucose tolerance. The administration of CuNPs had a significant impact on reducing glucose intolerance and fasting hyperglycemia. Additionally, it helped alleviate the negative effects of diabetes on cardiac output and work. Furthermore, utilizing CuNPs effectively hindered the rise in cardiac signal transducer and activator of transcription 3-phosphorylation caused by diabetes. The findings from this investigation provide evidence of the therapeutic benefits of CuNPs in mitigating diabetes-induced cardiac dysfunction in rats.
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楷树绿色配方纳米铜粒子的制备、表征及对糖尿病诱发的大鼠心功能不全的治疗效果测定
对发展中国家和发达国家而言,开发和创造具有卓越疗效的创新型治疗补充剂和药物以解决严重的糖尿病问题至关重要。有文献记载了一种利用Pistacia atlantica 叶提取物作为天然稳定剂生产纳米铜粒子(CuNPs)的生物启发方法。这种方法适用、简便、环保,因为它避免了使用任何有毒或有害试剂。利用能量色散 X 射线光谱、透射电子显微镜、场发射扫描电子显微镜和傅立叶变换红外光谱等复杂的物理化学方法对通过生物过程合成的 CuNPs 进行了表征。研究证实,CuNPs 呈球形结构,平均尺寸约为 30 至 70 纳米。通过富含果糖的饮食和链脲佐菌素在体内诱发糖尿病。一半受试者通过口服给药的方式摄入 CuNPs(100 µg/kg)。与摄入普通食物的动物相比,糖尿病动物的血清空腹血糖水平升高,葡萄糖耐量下降。服用 CuNPs 对降低葡萄糖耐受性和空腹高血糖有显著影响。此外,它还有助于减轻糖尿病对心脏输出量和工作的负面影响。此外,使用 CuNPs 还能有效抑制糖尿病导致的心脏信号转导和转录激活因子 3 磷酸化的上升。这项研究结果证明了 CuNPs 在缓解糖尿病引起的大鼠心功能障碍方面的治疗效果。
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来源期刊
Open Chemistry
Open Chemistry CHEMISTRY, MULTIDISCIPLINARY-
CiteScore
3.80
自引率
4.30%
发文量
90
审稿时长
6 weeks
期刊介绍: Open Chemistry is a peer-reviewed, open access journal that publishes original research, reviews and short communications in the fields of chemistry in an ongoing way. The central goal is to provide a hub for researchers working across all subjects to present their discoveries, and to be a forum for the discussion of the important issues in the field. The journal is the premier source for cutting edge research in fundamental chemistry and it provides high quality peer review services for its authors across the world. Moreover, it allows for libraries everywhere to avoid subscribing to multiple local publications, and to receive instead all the necessary chemistry research from a single source available to the entire scientific community.
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Preparation, characterization, and determination of the therapeutic effects of copper nanoparticles green-formulated by Pistacia atlantica in diabetes-induced cardiac dysfunction in rat Scrutinizing the effect of additive and synergistic antibiotics against carbapenem-resistant Pseudomonas aeruginosa Development and characterization of functional low-fat frozen dairy dessert enhanced with dried lemongrass powder Evaluating polyphenol and ascorbic acid contents, tannin removal ability, and physical properties during hydrolysis and convective hot-air drying of cashew apple powder Effect of transition metal chloride (ZnCl2) on low-temperature pyrolysis of high ash bituminous coal
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