Antimicrobial efficacy of CS-SeNPs against pathogens in aquaculture: A potential trade-off with fish gut health?

IF 3.8 Q2 BIOTECHNOLOGY & APPLIED MICROBIOLOGY

Biocatalysis and agricultural biotechnology Pub Date : 2025-09-03 DOI:10.1016/j.bcab.2025.103760

Sowmiya Prasad , Tharmathass Stalin Dhas , Sherlin John , Prathas Selvaraj , J. Francis Borgio , Sayed AbdulAzeez , Inbakandan Dhinakarasamy , Anandakumar Natarajan , Ramesh Kumar Varadharajan , Karthick Velu , C.M. Vineeth Kumar

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引用次数: 0

Abstract

Aquatic pathogens pose a major challenge to the aquaculture industry, leading to significant economic losses. Selenium-based nanoparticles (SeNPs) are emerging as effective antimicrobials, but their impact on beneficial fish microbiota remains underexplored. This study evaluates the antimicrobial efficacy and cytotoxicity of chitosan–selenium nanoparticles (CS-SeNPs) against aquatic pathogens and fish gut bacteria. CS-SeNPs were synthesized by heat-assisted synthesis and characterized using various spectroscopic techniques (UV–Vis, FTIR, DLS, XRD, and Raman Spectroscopy), Antimicrobial and cytotoxic effects were tested against Vibrio cholerae and Shewanella algae (aquaculture wastewater isolates) and Brachybacterium sp. and Mammalicoccus sciuri (fish gut isolates). Cytotoxicity, lipid peroxidation and ROS generation assays were performed across a concentration gradient (up to 1000 μg/mL) to evaluate dose-dependent responses. CS-SeNPs showed Amax at 250 nm, indicating the formation of CS-SeNPs. XRD spectrum revealed amorphous nature of CS-SeNPs and a Raman analysis peak at 251 cm⁻¹, indicated presence of localized monoclinic Se and Se₈. The average particle size was 164 nm. CS-SeNPs showed maximum cytotoxicity of 73.65 % (V. cholerae), 99.06 % (S. algae), 75.88 % (Brachybacterium sp.), and 89.0 % (M. sciuri). Corresponding lipid peroxidation values were 73.7 %, 99.06 %, 69.68 %, and 74.90 %, respectively, suggesting ROS-mediated cell damage. ROS production was estimated by DCFH-DA assay and confirmed elevated ROS levels. CS-SeNPs exhibited potent antimicrobial activity via oxidative stress mechanisms but also significantly affected beneficial gut bacteria. These findings highlight the need for cautious application of CS-SeNPs in aquaculture to prevent unintended microbiome disruption and ensure sustainable disease management.

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CS-SeNPs对水产养殖病原菌的抗菌效果：与鱼类肠道健康的潜在权衡？

水生病原体对水产养殖业构成重大挑战，造成重大经济损失。硒基纳米颗粒（SeNPs）正在成为有效的抗菌剂，但它们对有益鱼类微生物群的影响仍未得到充分研究。本研究评价了壳聚糖硒纳米颗粒（CS-SeNPs）对水生病原体和鱼类肠道细菌的抗菌效果和细胞毒性。采用热辅助合成方法合成了CS-SeNPs，并利用紫外-可见、红外光谱、DLS、XRD和拉曼光谱等多种光谱技术对CS-SeNPs进行了表征，测试了CS-SeNPs对霍乱弧菌和Shewanella藻类（水产养殖废水分离株）以及Brachybacterium sp.和mammaliccoccus sciuri（鱼肠分离株）的抗菌和细胞毒作用。细胞毒性、脂质过氧化和ROS生成测定在浓度梯度（高达1000 μg/mL）下进行，以评估剂量依赖性反应。CS-SeNPs在250 nm处出现Amax，表明CS-SeNPs形成。XRD谱图显示CS-SeNPs具有非晶态性质，在251 cm−1处有拉曼分析峰，表明CS-SeNPs存在局部单斜Se和Se8。平均粒径为164 nm。CS-SeNPs的最大细胞毒性分别为73.65%（霍乱弧菌）、99.06%（海藻弧菌）、75.88%（短毛杆菌）和89.0% (sciuri m.s。相应的脂质过氧化值分别为73.7%、99.06%、69.68%和74.90%，提示ros介导的细胞损伤。通过DCFH-DA测定来估计ROS的产生，并证实ROS水平升高。CS-SeNPs通过氧化应激机制表现出强大的抗菌活性，但也显著影响有益肠道细菌。这些发现强调了在水产养殖中谨慎应用CS-SeNPs的必要性，以防止意外的微生物群破坏并确保可持续的疾病管理。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Biocatalysis and agricultural biotechnology Agricultural and Biological Sciences-Agronomy and Crop Science

CiteScore

7.70

自引率

2.50%

发文量

308

审稿时长

48 days

期刊介绍： Biocatalysis and Agricultural Biotechnology is the official journal of the International Society of Biocatalysis and Agricultural Biotechnology (ISBAB). The journal publishes high quality articles especially in the science and technology of biocatalysis, bioprocesses, agricultural biotechnology, biomedical biotechnology, and, if appropriate, from other related areas of biotechnology. The journal will publish peer-reviewed basic and applied research papers, authoritative reviews, and feature articles. The scope of the journal encompasses the research, industrial, and commercial aspects of biotechnology, including the areas of: biocatalysis; bioprocesses; food and agriculture; genetic engineering; molecular biology; healthcare and pharmaceuticals; biofuels; genomics; nanotechnology; environment and biodiversity; and bioremediation.