植物源银、金及双金属纳米颗粒作为新型抗结核药物。

Phytogenic silver, gold, and bimetallic nanoparticles as novel antitubercular agents.

作者信息

Singh Richa, Nawale Laxman, Arkile Manisha, Wadhwani Sweety, Shedbalkar Utkarsha, Chopade Snehal, Sarkar Dhiman, Chopade Balu Ananda

机构信息

Department of Microbiology, Savitribai Phule Pune University, Pune, India.

Combichem-Bioresource Center, Organic Chemistry Division, National Chemical Laboratory, Pune, India.

出版信息

Int J Nanomedicine. 2016 May 4;11:1889-97. doi: 10.2147/IJN.S102488. eCollection 2016.

DOI:10.2147/IJN.S102488

PMID:27217751

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4862349/

Abstract

PURPOSE

Multi- and extensively drug-resistant tuberculosis (TB) is a global threat to human health. It requires immediate action to seek new antitubercular compounds and devise alternate strategies. Nanomaterials, in the present scenario, have opened new avenues in medicine, diagnosis, and therapeutics. In view of this, the current study aims to determine the efficacy of phytogenic metal nanoparticles to inhibit mycobacteria.

METHODS

Silver (AgNPs), gold (AuNPs), and gold-silver bimetallic (Au-AgNPs) nanoparticles synthesized from medicinal plants, such as Barleria prionitis, Plumbago zeylanica, and Syzygium cumini, were tested against Mycobacterium tuberculosis and M. bovis BCG. In vitro and ex vivo macrophage infection model assays were designed to determine minimum inhibitory concentration (MIC) and half maximal inhibitory concentration of nanoparticles. Microscopic analyses were carried out to demonstrate intracellular uptake of nanoparticles in macrophages. Besides this, biocompatibility, specificity, and selectivity of nanoparticles were also established with respect to human cell lines.

RESULTS

Au-AgNPs exhibited highest antitubercular activity, with MIC of <2.56 μg/mL, followed by AgNPs. AuNPs did not show such activity at concentrations of up to 100 μg/mL. In vitro and ex vivo macrophage infection model assays revealed the inhibition of both active and dormant stage mycobacteria on exposure to Au-AgNPs. These nanoparticles were capable of entering macrophage cells and exhibited up to 45% cytotoxicity at 30 μg/mL (ten times MIC concentration) after 48 hours. Among these, Au-AgNPs synthesized from S. cumini were found to be more specific toward mycobacteria, with their selectivity index in the range of 94-108.

CONCLUSION

This is the first study to report the antimycobacterial activity of AuNPs, AgNPs, and Au-AgNPs synthesized from medicinal plants. Among these, Au-AgNPs from S. cumini showed profound efficiency, specificity, and selectivity to kill mycobacteria. These should be investigated further to develop novel TB nanoantibiotics.

摘要

目的

多重耐药和广泛耐药结核病对全球人类健康构成威胁。需要立即采取行动寻找新的抗结核化合物并制定替代策略。在当前情况下，纳米材料在医学、诊断和治疗领域开辟了新途径。有鉴于此，本研究旨在确定植物源金属纳米颗粒抑制分枝杆菌的效果。

方法

测试了从药用植物如假杜鹃、白花丹和乌墨中合成的银纳米颗粒（AgNPs）、金纳米颗粒（AuNPs）和金银双金属纳米颗粒（Au-AgNPs）对结核分枝杆菌和牛分枝杆菌卡介苗的作用。设计了体外和体内巨噬细胞感染模型试验，以确定纳米颗粒的最低抑菌浓度（MIC）和半数最大抑制浓度。进行显微镜分析以证明纳米颗粒在巨噬细胞中的细胞内摄取。除此之外，还确定了纳米颗粒对人类细胞系的生物相容性、特异性和选择性。

结果

Au-AgNPs表现出最高的抗结核活性，MIC<2.56μg/mL，其次是AgNPs。AuNPs在浓度高达100μg/mL时未显示出这种活性。体外和体内巨噬细胞感染模型试验表明，暴露于Au-AgNPs时，活跃期和休眠期分枝杆菌均受到抑制。这些纳米颗粒能够进入巨噬细胞，48小时后在30μg/mL（MIC浓度的10倍）时表现出高达45%的细胞毒性。其中，从乌墨中合成的Au-AgNPs对分枝杆菌更具特异性，其选择性指数在94-108范围内。

结论

这是第一项报道从药用植物中合成的AuNPs、AgNPs和Au-AgNPs抗分枝杆菌活性的研究。其中，来自乌墨的Au-AgNPs在杀灭分枝杆菌方面表现出显著的效率、特异性和选择性。应进一步研究这些纳米颗粒以开发新型结核纳米抗生素。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a1de/4862349/30d4ec1c286c/ijn-11-1889Fig1.jpg

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植物源银、金及双金属纳米颗粒作为新型抗结核药物。

Phytogenic silver, gold, and bimetallic nanoparticles as novel antitubercular agents.

作者信息

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目的

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