Effects of α-olefin sulfonate (AOS) on Tubifex tubifex: toxicodynamic-toxicokinetic inferences from the general unified threshold (GUTS) model, biomarker responses and molecular docking predictions.

IF 2.4 4区 环境科学与生态学 Q2 ECOLOGY
Ecotoxicology Pub Date : 2024-10-01 Epub Date: 2024-07-18 DOI:10.1007/s10646-024-02790-8
Debanjali Chakraborty, Azubuike Victor Chukwuka, Sanjoy Podder, Pramita Sharma, Shovonlal Bhowmick, Tapan Kumar Mistri, Nimai Chandra Saha
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引用次数: 0

Abstract

We investigated the potential ecological risks and harm to aquatic organisms posed by anionic surfactants such as α-olefin sulfonate (AOS), which are commonly found in industrial and consumer products, including detergents. This study assessed acute (96-h) and subchronic (14-day) responses using antioxidant activity, protein levels, and histopathological changes in Tubifex tubifex exposed to different AOS concentrations (10% of the LC50, 20% of the LC50, and a control). Molecular docking was used to investigate the potential interactions between the key stress biomarker enzymes (superoxide dismutase, catalase, and cytochrome c oxidase) of Tubifex tubifex. Acute AOS exposure showed a concentration-dependent decrease in survival, and the general unified threshold (GUTS) model revealed that survivorship is linked to individual response patterns rather than random (stochastic) fluctuations. The GUTS model also revealed dose-dependent toxicity patterns in Tubifex tubifex exposed to α-olefin sulfonate (AOS), with adaptive mechanisms at lower concentrations but significant increases in mortality beyond a certain threshold, emphasizing the role of the AOS concentration in shaping its toxicological impact. Exposure to AOS disrupted antioxidant activity, inducing oxidative stress, with GST and GPx showing positive associations with surfactant concentration and increased lipid peroxidation (elevated MDA levels); moreover, AOS exposure decreased protein concentration, signifying disturbances in vital cellular processes. Histopathological examinations revealed various tissue-level alterations, including cellular vacuolation, cytoplasmic swelling, inflammation, necrosis, and apoptosis. Molecular docking analysis demonstrated interactions between AOS and enzymes (-catalase, superoxide dismutase, and cytochrome c oxidase) in Tubifex tubifex, including hydrophobic and hydrogen bond interactions, with the potential to disrupt enzyme structures and activities, leading to cellular process disruptions, oxidative stress, and tissue damage. According to the species sensitivity distribution (SSD), the difference in toxicity between Tilapia melanopleura (higher sensitivity) and Daphnia magna (low sensitivity) to AOS suggests distinct toxicokinetic and toxicodynamic mechanisms attributable to more complex physiology in Tilapia and efficient detoxification in Daphnia due to its smaller size.

Abstract Image

α-烯烃磺酸盐(AOS)对Tubifex管圆线虫的影响:从一般统一阈值(GUTS)模型、生物标志物反应和分子对接预测中得出的毒效学-毒代动力学推论。
我们调查了α-烯烃磺酸盐(AOS)等阴离子表面活性剂对水生生物造成的潜在生态风险和危害,α-烯烃磺酸盐通常存在于包括洗涤剂在内的工业和消费品中。本研究使用抗氧化活性、蛋白质水平和组织病理学变化评估了暴露于不同浓度 AOS(半数致死浓度的 10%、半数致死浓度的 20% 和对照组)的 Tubifex tubifex 的急性(96 小时)和亚慢性(14 天)反应。采用分子对接法研究了Tubifex tubifex的关键应激生物标志物酶(超氧化物歧化酶、过氧化氢酶和细胞色素c氧化酶)之间的潜在相互作用。急性 AOS 暴露显示存活率下降与浓度有关,一般统一阈值(GUTS)模型显示存活率与个体反应模式有关,而不是随机波动。一般统一阈值(GUTS)模型还揭示了暴露于α-烯烃磺酸盐(AOS)的管鲍的剂量依赖性毒性模式,在较低浓度下具有适应机制,但超过一定阈值后死亡率显著增加,这强调了 AOS 浓度在形成其毒性影响方面的作用。暴露于 AOS 会破坏抗氧化活性,诱发氧化应激,GST 和 GPx 与表面活性剂浓度呈正相关,并增加脂质过氧化(MDA 水平升高);此外,暴露于 AOS 会降低蛋白质浓度,表明重要的细胞过程受到干扰。组织病理学检查显示了各种组织水平的改变,包括细胞空泡化、细胞质肿胀、炎症、坏死和凋亡。分子对接分析表明,AOS 与管虫体内的酶(-催化酶、超氧化物歧化酶和细胞色素 c 氧化酶)之间存在相互作用,包括疏水和氢键相互作用,有可能破坏酶的结构和活性,导致细胞过程紊乱、氧化应激和组织损伤。根据物种敏感性分布(SSD),黑色素罗非鱼(敏感性较高)和大型水蚤(敏感性较低)对 AOS 的毒性差异表明,罗非鱼的生理结构更为复杂,而大型水蚤由于体型较小,解毒效率较高,因此其毒动力学和毒效学机制各不相同。
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来源期刊
Ecotoxicology
Ecotoxicology 环境科学-毒理学
CiteScore
5.30
自引率
3.70%
发文量
107
审稿时长
4.7 months
期刊介绍: Ecotoxicology is an international journal devoted to the publication of fundamental research on the effects of toxic chemicals on populations, communities and terrestrial, freshwater and marine ecosystems. It aims to elucidate mechanisms and processes whereby chemicals exert their effects on ecosystems and the impact caused at the population or community level. The journal is not biased with respect to taxon or biome, and papers that indicate possible new approaches to regulation and control of toxic chemicals and those aiding in formulating ways of conserving threatened species are particularly welcome. Studies on individuals should demonstrate linkage to population effects in clear and quantitative ways. Laboratory studies must show a clear linkage to specific field situations. The journal includes not only original research papers but technical notes and review articles, both invited and submitted. A strong, broadly based editorial board ensures as wide an international coverage as possible.
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