Sublethal exposure of eastern oyster Crassostrea virginica to the goniodomin-producing dinoflagellate Alexandrium monilatum: Fate of toxins, histopathology, and gene expression

IF 1.5 4区农林科学 Q3 FISHERIES Journal of aquatic animal health Pub Date : 2024-12-30 DOI:10.1002/aah.10227

Sylvain Gaillard, Hamish J. Small, Ryan B. Carnegie, Thomas M. Harris, Simon Tanniou, Damien Réveillon, Philipp Hess, Kimberly S. Reece

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Abstract

Objective

The dinoflagellate Alexandrium monilatum forms blooms during summer in tributaries of the lower Chesapeake Bay. Questions persist about the potential for A. monilatum to negatively affect aquatic organisms. Its main toxin, goniodomin A (GDA), a polyketide macrolide, has been shown to have adverse effects on animals, for example through cytotoxicity and interaction with actin.

Methods

Eastern oysters Crassostrea virginica were exposed for 96 h to sublethal concentrations of A. monilatum (615 ± 47 cells/mL [average ± SD]; containing mainly intracellular GDA [215 ± 7.15 pg/cell] and to a lesser extent goniodomin B, goniodomin C, and GDA seco-acid as quantified by liquid chromatography coupled to tandem mass spectrometry) or to nontoxic phytoplankton or were unexposed. They were subsequently depurated for 96 h by exposure to nontoxic phytoplankton. Clearance rates were estimated, and oysters were sampled daily and tissue (gill, digestive gland, and remaining tissues) excised for analyses by histopathology, gene expression quantified by quantitative PCR, and goniodomin quantification.

Result

A positive clearance rate, no mortality, and no tissue pathologies were observed in oysters exposed to A. monilatum. Goniodomin A was detected in gill 6 h after exposure (504 ± 329 μg/kg [average ± SE]) and to a lesser extent in the digestive gland and remaining soft tissues. In the digestive gland, a trend of transformation of GDA to GDA seco-acid was observed. The majority of toxins (≥83%) were depurated after 96 h. Expression of genes involved in oxidative response increased 14-fold after 6 h, and those involved in actin synthesis showed a 27-fold change after 24 h, while expression of apoptosis genes increased 6.9-fold after 96 h compared with the control (eastern oysters exposed to nontoxic phytoplankton).

Conclusion

Exposure experiments (nonsublethal or chronic) should be carried out to better assess the threat of this species and toxins for eastern oysters and other marine organisms.

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东方牡蛎对产性腺激素的甲藻monilatum Alexandrium的亚致死暴露：毒素的命运、组织病理学和基因表达。

目的：在切萨皮克湾下游的支流中，甲藻monilatum在夏季形成了大量的水华。莫尼拉坦对水生生物产生负面影响的可能性仍然存在问题。它的主要毒素，性腺素A (GDA)，一种聚酮大环内酯，已被证明对动物有不良影响，例如通过细胞毒性和与肌动蛋白的相互作用。方法：将东方牡蛎（Crassostrea virginica）暴露于亚致死浓度（615±47个细胞/mL[平均±SD]）下96 h；主要含有胞内GDA[215±7.15 pg/细胞]，少量含有性腺蛋白B、性腺蛋白C和GDA二酸（通过液相色谱耦合串联质谱测定）或无毒浮游植物或未暴露。随后，它们暴露于无毒浮游植物中净化96小时。估计清除率，每天对牡蛎进行采样，并切除组织（鳃，消化腺和剩余组织）进行组织病理学分析，通过定量PCR定量基因表达和性腺蛋白定量。结果：暴露于monilatum的牡蛎清除率阳性，无死亡，无组织病变。暴露6 h后鳃中检出性腺蛋白A(504±329 μg/kg[平均±SE])，消化腺和其余软组织中检出较少。在消化腺中，观察到GDA向GDA二酸转化的趋势。96 h后大部分毒素（≥83%）被去除。与对照（暴露于无害浮游植物的东部牡蛎）相比，6 h后参与氧化反应的基因表达增加了14倍，24 h后参与肌动蛋白合成的基因表达增加了27倍，96 h后凋亡基因表达增加了6.9倍。结论：应开展非亚致死或慢性暴露试验，以更好地评估该物种及其毒素对东部牡蛎和其他海洋生物的威胁。

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来源期刊

Journal of aquatic animal health 农林科学-兽医学

CiteScore

2.50

自引率

0.00%

发文量

审稿时长

>24 weeks

期刊介绍： The Journal of Aquatic Animal Health serves the international community of scientists and culturists concerned with the health of aquatic organisms. It carries research papers on the causes, effects, treatments, and prevention of diseases of marine and freshwater organisms, particularly fish and shellfish. In addition, it contains papers that describe biochemical and physiological investigations into fish health that relate to assessing the impacts of both environmental and pathogenic features.