Exposure to silver and titanium dioxide nanoparticles at supra-environmental concentrations decreased sperm motility and affected spermatozoa subpopulations in gilthead seabream, Sparus aurata.

IF 2.5 3区农林科学 Q3 BIOCHEMISTRY & MOLECULAR BIOLOGY

Fish Physiology and Biochemistry Pub Date : 2024-10-01 Epub Date: 2023-07-12 DOI:10.1007/s10695-023-01218-0

Catarina C V Oliveira, Leonor Ferrão, Victor Gallego, Cláudia Mieiro, Isabel B Oliveira, Ana Carvalhais, Mário Pachedo, Elsa Cabrita

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Abstract

Marine pollution by nanoparticles (NPs) can be reprotoxic for fish and disturb successful reproduction of wild populations. In gilthead seabream (Sparus aurata), a mild effect on sperm motility was observed after exposure to high concentrations of silver NPs. Considering the great heterogeneity traits within a sperm sample, it is possible that NPs affect spermatozoa accordingly, modulating subpopulation profile. Thus, this work aimed to analyse NP effects in sperm motility in general and considering spermatozoa population structure, using a subpopulation approach. Seabream sperm samples from mature males were exposed for 1 h to increasing concentrations of titanium dioxide (1, 10, 100, 1000 and 10,000 μg L^-1) and silver (0.25, 25 and 250 μg L^-1) NPs, including Ag NP and Ag⁺, dissolved in a non-activating medium (0.9 % NaCl). Concentrations chosen include realistic (10-100 and 0.25 μg L^-1, respectively, for TiO₂ and Ag) and supra-environmental values. The mean particle diameter was determined as 19.34 ± 6.72 and 21.50 ± 8.27 nm in the stock suspension, respectively, for titanium dioxide and silver. After the ex vivo exposure, sperm motility parameters were determined using computer-assisted sperm analysis, and sperm subpopulations were later identified using a two-step cluster analysis. Results revealed a significant reduction in total motility after exposure to the 2 highest concentrations of titanium dioxide NPs, while curvilinear and straight-line velocities were not altered. Exposure to silver NPs (Ag NP and Ag⁺) lowered significantly total and progressive motilities at all concentrations, while curvilinear and straight-line velocities were significantly lower only at the highest concentration. Sperm subpopulations were also affected by the exposure to both titanium dioxide and silver NPs. In both cases, the highest levels of NPs triggered a decrease in the percentage of fast sperm subpopulations (38.2% in TiO₂ 1000 μg L^-1, 34.8.% in Ag NP 250 μg L^-1, and 45.0% in Ag⁺ 250 μg L^-1 vs 53.4% in the control), while an increase on slow sperm subpopulations. A reprotoxic effect was proven for both NPs, but only at supra-environmental concentrations.

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接触超环境浓度的银和二氧化钛纳米粒子会降低金头鲷的精子活力并影响精子亚群。

纳米粒子（NPs）造成的海洋污染会对鱼类产生生殖毒性，并干扰野生种群的成功繁殖。在金头鲷（Sparus aurata）中，观察到暴露于高浓度银纳米粒子后，精子活力受到轻微影响。考虑到精子样本中存在巨大的异质性特征，氮氧化物可能会对精子产生相应的影响，从而调节亚群特征。因此，本研究旨在使用亚群方法分析 NP 对精子活力的总体影响，并考虑精子的群体结构。将成熟雄性鲷鱼精子样本暴露于溶解在非活性介质（0.9% NaCl）中的浓度不断增加的二氧化钛（1、10、100、1000 和 10,000 μg L-1）和银（0.25、25 和 250 μg L-1）NPs（包括 Ag NP 和 Ag+）中 1 小时。所选浓度包括现实值（TiO2 和 Ag 浓度分别为 10-100 和 0.25 μg L-1）和超环境值。二氧化钛和银在悬浮液中的平均粒径分别为 19.34 ± 6.72 nm 和 21.50 ± 8.27 nm。体内暴露后，使用计算机辅助精子分析法测定精子活力参数，然后使用两步聚类分析法确定精子亚群。结果表明，接触两种最高浓度的二氧化钛 NPs 后，精子的总运动能力明显下降，而曲线和直线速度则没有改变。接触银氧化物（Ag NP和Ag+）后，所有浓度下的总运动能力和渐进运动能力都显著降低，而曲线速度和直线速度只有在最高浓度下才显著降低。精子亚群也受到二氧化钛和银 NPs 的影响。在这两种情况下，最高浓度的 NPs 会导致快速精子亚群的百分比下降（TiO2 1000 μg L-1 中为 38.2%，Ag NP 250 μg L-1 中为 34.8.%，Ag+ 250 μg L-1 中为 45.0%，对照组为 53.4%），而慢速精子亚群则有所增加。事实证明，两种 NP 都具有生殖毒性，但只在超环境浓度下才具有生殖毒性。

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

Fish Physiology and Biochemistry 农林科学-生化与分子生物学

CiteScore

5.60

自引率

6.90%

发文量

106

审稿时长

4 months

期刊介绍： Fish Physiology and Biochemistry is an international journal publishing original research papers in all aspects of the physiology and biochemistry of fishes. Coverage includes experimental work in such topics as biochemistry of organisms, organs, tissues and cells; structure of organs, tissues, cells and organelles related to their function; nutritional, osmotic, ionic, respiratory and excretory homeostasis; nerve and muscle physiology; endocrinology; reproductive physiology; energetics; biochemical and physiological effects of toxicants; molecular biology and biotechnology and more.