长角麦哲伦牡蛎暴露于连翘裸子和马里诺骨骼肌胁迫下的短期生化生物标志物

Decis. Sci. Pub Date : 2023-07-17 DOI:10.3390/sci5030030
R. Cereja, J. Cruz, J. Heumüller, B. Vicente, A. Amorim, Frederico Carvalho, S. Cabral, P. Chainho, A. Brito, I. Ferreira, M. Diniz
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引用次数: 0

摘要

双壳类积累微藻产生的毒素,对人体有害。然而,关于它们对双壳类动物本身的毒性的信息很少。在本研究中,以绿藻Tetraselmis sp为对照,研究了食入有毒鞭毛藻(Gymnodinium catenatum)和一种硅藻(对人类无毒但对食草动物可能有害的marinoi)对Magallana angulata牡蛎的生理应激和损害。牡蛎分别暴露于浓度为4 × 104个细胞/L的catenatum和2 × 107个细胞/L的S. marinoi中2小时。检测生物标志物超氧化物歧化酶(SOD)、过氧化氢酶(CAT)、谷胱甘肽s -转移酶、总泛素(Ubi)和乙酰胆碱酯酶(AchE)。与对照处理相比,角田鼠暴露于连翘草导致SOD、AchE活性和泛素浓度降低。此外,它增加了内收肌中CAT的活性,并保持了其在其他组织中的活性。这可能与代谢减少与解毒过程的部署相结合有关。S. marinoi还会导致鳃和消化腺中所有生物标志物的减少。因此,两种被测物种在暴露两小时后都引起了角田鼠的生理变化。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Short-Term Biochemical Biomarkers of Stress in the Oyster Magallana angulata Exposed to Gymnodinium catenatum and Skeletonema marinoi
Bivalves accumulate toxins produced by microalgae, thus becoming harmful for humans. However, little information is available about their toxicity to the bivalve itself. In the present work, the physiological stress and damage after the ingestion of toxic dinoflagellate species (Gymnodinium catenatum) and a diatom species (Skeletonema marinoi, which is non-toxic to humans but may be to grazers) in the oyster Magallana angulata are evaluated against a control treatment fed with the chlorophyte Tetraselmis sp. Oysters were exposed for two hours to a concentration of 4 × 104 cells/L of G. catenatum and 2 × 107 cells/L of S. marinoi. The biomarkers superoxide dismutase (SOD), catalase (CAT), glutathione S-Transferase, total Ubiquitin (Ubi) and Acetylcholinesterase (AchE) were assessed. The exposure of M. angulata to G. catenatum lead to a reduction in SOD and AchE activity and ubiquitin concentrations when compared to the control treatment. Moreover, it increased CAT activity in the adductor muscle, and maintained its activity in the other tissues tested. This may be related to the combination of reduced metabolism with the deployment of detoxification processes. S. marinoi also lead to a decrease in all biomarkers tested in the gills and digestive glands. Therefore, both species tested caused physiological alterations in M. angulata after two hours of exposure.
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