Argyreia nervosa (Samudra pala) leaf extract mediated silver nanoparticles and evaluation of their antioxidant, antibacterial activity, in vitro anticancer and apoptotic studies in KB oral cancer cell lines.

IF 4.5 3区 生物学 Q1 BIOTECHNOLOGY & APPLIED MICROBIOLOGY
Gunashekar Kalvakunta Subramanyam, Susmila Aparna Gaddam, Venkata Subbaiah Kotakadi, Sashikiran Palithya, Josthna Penchalaneni, Varadarajulu Naidu Challagundla
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引用次数: 8

Abstract

Abstract In the present investigation, green synthesis of silver nanoparticles (AgNPs) was carried out using aqueous leaf extract of Argyreia nervosa. The results of the spectral characterisation have revealed that the surface Plasmon resonance band was observed at 421 nm confirms the formation of AgNPs. The Fourier Transform Infra-red Spectroscopy result shows the reduction of silver nitrate into AgNPs by the reduction of different functional groups. Transmission Electron Microscope analysis revealed that the particles are roughly spherical and poly-disperse in shape and size, the particles are within the size range of 10–55 nm. Dynamic Light Scattering revealed that the nanoparticles were also within the range of 10–50 nm, An-AgNPs have a high negative zeta potential value of −38.9 mV. An-AgNPs showed efficient free radical scavenging activity and showed excellent antimicrobial activity. Anti-proliferative and cytotoxic effect of An-AgNPs was carried out by MTT assay against KB oral cancer cells, the IC50 value of An-AgNPs is 58.64 µg/ml. The cell's growth is arrested at the G2/M phase, so the An-AgNPs activated the Caspase 3 pathway which leads to the Apoptosis of KB oral cancer cells. So it is concluded that the green synthesised An-AgNPs have manifold functions.
银杏叶提取物介导的银纳米颗粒及其在KB口腔癌细胞系中的抗氧化、抗菌活性、体外抗癌和凋亡研究
本研究以银叶提取物为原料,进行了银纳米粒子(AgNPs)的绿色合成。光谱表征结果表明,在421 nm处观察到表面等离子体共振带,证实了AgNPs的形成。傅里叶变换红外光谱结果表明硝酸银通过还原不同的官能团而还原成AgNPs。透射电镜分析表明,颗粒的形状和大小大致为球形和多分散,颗粒尺寸在10 ~ 55 nm之间。动态光散射结果表明,纳米颗粒也在10-50 nm范围内,An-AgNPs具有-38.9 mV的高负zeta电位值。An-AgNPs具有良好的自由基清除活性和抗菌活性。MTT法检测了An-AgNPs对KB口腔癌细胞的抗增殖和细胞毒作用,其IC50值为58.64µg/ml。细胞生长被阻滞在G2/M期,因此An-AgNPs激活了Caspase 3通路,导致KB口腔癌细胞凋亡。由此可见,绿色合成的An-AgNPs具有多种功能。
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来源期刊
Artificial Cells, Nanomedicine, and Biotechnology
Artificial Cells, Nanomedicine, and Biotechnology BIOTECHNOLOGY & APPLIED MICROBIOLOGY-ENGINEERING, BIOMEDICAL
CiteScore
10.90
自引率
0.00%
发文量
48
审稿时长
20 weeks
期刊介绍: Artificial Cells, Nanomedicine and Biotechnology covers the frontiers of interdisciplinary research and application, combining artificial cells, nanotechnology, nanobiotechnology, biotechnology, molecular biology, bioencapsulation, novel carriers, stem cells and tissue engineering. Emphasis is on basic research, applied research, and clinical and industrial applications of the following topics:artificial cellsblood substitutes and oxygen therapeuticsnanotechnology, nanobiotecnology, nanomedicinetissue engineeringstem cellsbioencapsulationmicroencapsulation and nanoencapsulationmicroparticles and nanoparticlesliposomescell therapy and gene therapyenzyme therapydrug delivery systemsbiodegradable and biocompatible polymers for scaffolds and carriersbiosensorsimmobilized enzymes and their usesother biotechnological and nanobiotechnological approachesRapid progress in modern research cannot be carried out in isolation and is based on the combined use of the different novel approaches. The interdisciplinary research involving novel approaches, as discussed above, has revolutionized this field resulting in rapid developments. This journal serves to bring these different, modern and futuristic approaches together for the academic, clinical and industrial communities to allow for even greater developments of this highly interdisciplinary area.
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