Anti-parasitic efficacy of green-synthesized silver nanoparticles on Argulus siamensis: An ectoparasite of fish and their effect on the expression of ion channel genes

IF 2.2 3区 农林科学 Q2 FISHERIES
Pushpa Kumari, Saurav Kumar, Rajive Kumar Brahmchari, Angom Baleshwor Singh, Kooloth Valappil Rajendran, Satya Prakash Shukla, Rupam Sharma, Ram Prakash Raman
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Abstract

Argulosis, a serious fish disease caused by the crustacean ectoparasite Argulus, results in considerable losses to the global aquaculture industry. This study evaluated the in vitro anti-parasitic efficacy (AE%) of synthesized silver nanoparticles (AgNPs) using an aqueous leaf extract of Azadirachta indica (neem) against the adult and copepodid stages of Argulus siamensis. The biosynthesized AgNPs were characterized using UV–Vis spectroscopy, which revealed a surface plasmon resonance peak at 425 nm, with a zeta potential value of − 28.5 mV. TEM analysis verified that the nanoparticles were ranging from 5 to 50 nm in size, spherical in shape, and capped by various phytochemicals identified through Fourier-transform infrared spectroscopy (FTIR). Treatment with AgNPs showed an AE of 100% against copepodids at 25 ppm and adult Argulus at 50 ppm, with an estimated 6-h EC50 of 9.66 and 16.03 ppm, respectively. No mortality was found in the control, leaf extract, and AgNO3-treated groups of parasites. Additionally, gene expression studies using β-actin as a reference gene revealed significantly upregulated levels of all tested genes, with the highest fold change in the GABA gene across all treatment groups. The increased AE of AgNPs may be due to altered signal transduction, as evidenced by the significantly increased expression of ion channel genes compared to control and neem leaf extract-treated groups. The findings of this study indicate the potential for developing a promising nanodrug for the safe and effective control of argulosis in aquaculture systems.

Abstract Image

绿色合成的银纳米粒子对暹罗箭鱼的抗寄生效果及其对离子通道基因表达的影响一种鱼类外寄生虫及其对离子通道基因表达的影响
弓形体病是由甲壳动物弓形体外寄生虫引起的一种严重鱼病,给全球水产养殖业造成了巨大损失。本研究评估了利用印度楝(Azadirachta indica)的水性叶提取物合成的银纳米粒子(AgNPs)对暹罗豚成虫和桡足类的体外抗寄生虫效力(AE%)。利用紫外可见光谱对生物合成的 AgNPs 进行了表征,结果显示其在 425 纳米波长处具有表面等离子共振峰,Zeta 电位值为 - 28.5 mV。TEM 分析表明,纳米粒子的大小为 5 至 50 nm,呈球形,并由通过傅立叶变换红外光谱(FTIR)鉴定的各种植物化学物质包裹。用 AgNPs 处理桡足类(25 ppm)和成虫(50 ppm)时,AgNPs 的 AE 值均为 100%,估计 6 小时 EC50 分别为 9.66 ppm 和 16.03 ppm。对照组、叶片提取物组和 AgNO3 处理组的寄生虫都没有死亡。此外,以β-肌动蛋白为参考基因进行的基因表达研究显示,所有受测基因的水平均显著上调,其中 GABA 基因在所有处理组中的变化倍数最高。与对照组和楝树叶提取物处理组相比,离子通道基因的表达明显增加,这表明 AgNPs 的 AE 增加可能是由于信号转导发生了改变。这项研究的结果表明,开发一种安全、有效控制水产养殖系统中箭鱼病的纳米药物是很有潜力的。
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来源期刊
Aquaculture International
Aquaculture International 农林科学-渔业
CiteScore
5.10
自引率
6.90%
发文量
204
审稿时长
1.0 months
期刊介绍: Aquaculture International is an international journal publishing original research papers, short communications, technical notes and review papers on all aspects of aquaculture. The Journal covers topics such as the biology, physiology, pathology and genetics of cultured fish, crustaceans, molluscs and plants, especially new species; water quality of supply systems, fluctuations in water quality within farms and the environmental impacts of aquacultural operations; nutrition, feeding and stocking practices, especially as they affect the health and growth rates of cultured species; sustainable production techniques; bioengineering studies on the design and management of offshore and land-based systems; the improvement of quality and marketing of farmed products; sociological and societal impacts of aquaculture, and more. This is the official Journal of the European Aquaculture Society.
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