Department of Pharmacology, Faculty of Veterinary Medicine, Kasetsart University, Bangkok, Thailand.
Department of Anatomy, Faculty of Veterinary Medicine, Kasetsart University, Bangkok, Thailand.
J Aquat Anim Health. 2024 Sep;36(3):265-274. doi: 10.1002/aah.10229. Epub 2024 Aug 16.
Metals have been reported to alter the oxidative status of both redox-active and redox-inactive metals accompanying oxidative stress induction. In aquatic ecosystems, metal contamination is regarded as serious pollutants and bioaccumulation, especially when aquatic seafood products are involved, which results in human risk. The blue swimming crab Portunus pelagicus is a highly popular crab species for consumption as seafood in Thailand. The meat parts and the hepatopancreas (HP) together with gonad are consumed and in high demand. Therefore, the present study aimed to investigate bioaccumulation of cadmium (Cd) and lead (Pb) along with tissue oxidative responses in P. pelagicus.
Sixty-seven samples of P. pelagicus were obtained from small-scale fishers along the coastline of Trang Province. Bioaccumulation of Cd and Pb and oxidative response in gill, muscle, and HP + gonad were evaluated.
Cadmium and Pb accumulation levels were highest in the HP and gonad, followed by the gill and then muscle, indicating that Cd and Pb have a high affinity to be concentrated in the HP and gonad. An organ-specific oxidative response to Cd and Pb accumulation was demonstrated in which Cd significantly activated superoxide dismutase (SOD) activity in the gills and muscle tissue, while Pb significantly activated the SOD activity only in the HP and gonad. Only Cd accumulation in gill tissue represented a significant activation of lipid peroxidation, as indicated by the malondialdehyde level.
This study implied that P. pelagicus exhibits an "adaptive stage" in the oxidative response of tissue due to metal accumulation. Additionally, the data presented here further indicate that the consumption of only the meat parts and removal of the HP and gonad would reduce human exposure to metal toxicity.
据报道,金属会改变伴随氧化应激诱导的氧化活性和非氧化活性金属的氧化状态。在水生生态系统中,金属污染被视为严重的污染物,尤其是当涉及到水生海鲜产品时,会对人类造成风险。蓝蟹 Portunus pelagicus 是一种在泰国非常受欢迎的食用海鲜蟹。其肉和肝胰腺(HP)以及性腺一起被食用,需求量很大。因此,本研究旨在调查 P. pelagicus 体内镉(Cd)和铅(Pb)的生物累积以及组织氧化反应。
从 Trang 省沿海的小规模渔民那里获得了 67 个 P. pelagicus 样本。评估了 Cd 和 Pb 的生物累积以及鳃、肌肉和 HP+性腺的氧化反应。
Cd 和 Pb 的积累水平在 HP 和性腺中最高,其次是鳃,然后是肌肉,表明 Cd 和 Pb 具有高度亲和性,容易在 HP 和性腺中浓缩。Cd 和 Pb 积累的器官特异性氧化反应表明,Cd 显著激活了鳃和肌肉组织中的超氧化物歧化酶(SOD)活性,而 Pb 仅在 HP 和性腺中显著激活了 SOD 活性。只有 Cd 在鳃组织中的积累表现出脂质过氧化的显著激活,如丙二醛水平所示。
本研究表明,P. pelagicus 由于金属积累而表现出组织氧化反应的“适应阶段”。此外,这里提供的数据进一步表明,只食用肉部分并去除 HP 和性腺可以减少人类接触金属毒性的风险。
