Bimetallic nanoparticles green synthesis from litchi leaf extract: a promising approach for breast cancer treatment

Ramanjeet Kaur, Jitender Singh, Pramod K Avti, Vivek Kumar, Rajesh Kumar
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Abstract

Noble metal nanoparticles have demonstrated promising biomedical and nanomedicine applications, and their bimetallic equivalents from the green synthesis approach are expected to be more promising. This study concerns bimetallic nanoparticle’s synthesis, characterization, and structure-function analysis for their potential application in breast cancer. Silver core (SCNPs) and Gold core (GCNPs) bimetallic nanoparticles were synthesized using Litchi Chinesis leaf extract (LCLE) and characterized using various physio-chemical techniques. The results revealed the successful synthesis of SCNPs and GCNPs with distinct surface plasmon resonance peaks at 551 nm and 531 nm, hydrodynamic sizes of 66 nm and 53 nm, and Zeta potential values of −26.0 mV and −20.6 mV. XRD analysis confirmed the presence of silver and gold phases, while HR-TEM images revealed spherical shapes for SCNPs and heterogenous shapes for GCNPs. Both nanoparticles demonstrated dose and time-dependent inhibition of breast cancer cell growth, with GCNPs requiring a higher concentration than SCNPs at 48 h compared to 24 h. Cell cycle evaluation indicated a cell cycle arrest in the G2M phase for both nanoparticles, an impact on the S phase distribution, and reactive oxygen species (ROS) generation, further contributing to their antiproliferative effects.
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从荔枝叶提取物中绿色合成双金属纳米粒子:一种治疗乳腺癌的可行方法
贵金属纳米粒子在生物医学和纳米医药方面的应用前景广阔,而通过绿色合成方法制备的双金属等效纳米粒子预计会有更大的发展前景。本研究涉及双金属纳米粒子的合成、表征和结构功能分析,以探讨其在乳腺癌中的潜在应用。本研究利用荔枝叶提取物(LCLE)合成了银核(SCNPs)和金核(GCNPs)双金属纳米粒子,并利用各种物理化学技术对其进行了表征。结果表明,成功合成的 SCNPs 和 GCNPs 在 551 nm 和 531 nm 处具有明显的表面等离子体共振峰,流体力学尺寸分别为 66 nm 和 53 nm,Zeta 电位值分别为 -26.0 mV 和 -20.6 mV。XRD 分析证实了银相和金相的存在,而 HR-TEM 图像显示 SCNPs 为球形,GCNPs 为异形。细胞周期评估表明,两种纳米粒子都能使细胞周期停滞在 G2M 期,影响 S 期分布,并产生活性氧 (ROS),从而进一步增强了它们的抗增殖作用。
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