番荔枝鲜叶乙醇提取物合成纳米银颗粒及其抗氧化、抗关节炎和溶栓活性的研究

G. Kiranmayi
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摘要

目的:植物介导的纳米材料合成由于其环保设计和成本效益而迅速受到欢迎。本研究以番槐科药用植物鲜叶乙醇提取物为生物还原剂,合成银纳米颗粒。材料与方法:该方法合成了纳米颗粒,并通过紫外-可见分光光度法和透射电镜进行了验证。紫外可见光谱和肉眼观察表明,银前驱体处理后的鲜鳞叶提取物的颜色分别变为灰褐色和棕黄色。此外,我们还分别测试了鳞片银纳米颗粒乙醇提取物(AgNPs)的体外抗氧化、抗关节炎和溶栓活性。使用体外凝块溶解模型评估溶栓活性。用牛血清白蛋白(BSA)评价其抗关节炎潜能。结果:与使用的标准参比抗坏血酸相比,合成AgNPs的一氧化氮自由基清除活性、还原能力和磷钼含量呈剂量依赖性增加。在200 μg/mL浓度下,BSA法对抗关节炎活性的最大抑制率为71.4%。在溶栓活性测定中,溶栓率为85.620±2.6%,而标准链激酶和水作为阳性和阴性对照,溶栓率分别为72.835±1.702%和2.725±0.983%。结论:该结果证实了鳞状棘球蚴具有抗氧化、抗关节炎和溶栓活性,是一种潜在的合成AgNPs的生物材料。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Synthesis of silver nanoparticles using ethanolic extract of Annona squamosa fresh leaves and investigation of antioxidant, anti-arthritic, and thrombolytic activities
Aim: Plant-mediated synthesis of nanomaterials has been rapidly gaining popularity due to its eco-friendly design and cost-effectiveness. In the present research, we synthesized silver (Ag) nanoparticles using ethanolic extracts of fresh leaves of Annona squamosa (family Annonaceae) medicinal plant as bioreducing agents. Materials and Methods: This method allowed the synthesis of nanoparticles, which was confirmed by ultraviolet-visible (UV-vis) spectrophotometry and transmission electron microscopy. UV-vis spectra and visual observation showed that the color of the fresh leaf extract of A. squamosa turned into grayish brown and brownish yellow, respectively, after treatment with Ag precursors. Moreover, ethanolic leaf extract of A. squamosa silver nanoparticles (AgNPs) was separately tested for their In vitro antioxidant, anti-arthritic, and thrombolytic activity. Thrombolytic activity was evaluated using the in vitro clot lysis model. Bovine serum albumin (BSA) was used to evaluate the antiarthritic potential. Results: Nitric oxide generation radical scavenging activity, reducing power, and Phosphomolybdenum assay of the synthesized AgNPs increased in a dose-dependent manner as compared to ascorbic acid the standard reference used. The maximum percentage inhibition by BSA method was observed as 71.4% at 200 μg/mL concentration for antiarthritic activity. During assay for thrombolytic activity, it revealed that 85.620 ± 2.6% lysis of clot, while standard streptokinase and water used as positive and negative controls, demonstrated 72.835 ± 1.702% and 2.725 ± 0.983% lysis of clot, respectively. Conclusion: This result confirmed that A. squamosa is a potential biomaterial for synthesizing AgNPs which can be exploited for its antioxidant activity, anti-arthritic, and thrombolytic activity.
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