[Reactive oxygen species and defense mechanisms in marine bivalves].

J Torreilles, M C Guérin, P Roch
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Abstract

The main results published on the production of reactive oxygen intermediates by hemocytes and digestive glands of marine bivalves such as mussels, oysters or clams have been reviewed and discussed. Mussel and oyster hemocytes respond to appropriate stimuli with a burst of respiratory activity and the generation of reactive oxygen intermediates in a manner resembling the respiratory burst of mammalian phagocytes. However, interspecies differences in hemocytes-mediated antimicrobial defense mechanisms occur since clam hemocytes do not show any increase of reactive oxygen intermediate production upon similar stimulations. Hepatopancreatic gland of bivalves, as mammalian and fish liver produce reactive oxygen species during the one-electron reduction of xenobiotics, and mechanistic differences appear between bivalves and mammals. Thus, it appears that, in spite of some interspecies differences, the generation of cytotoxic reactive oxygen species is a general protective mechanism of most, if not all, animal species.

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[海洋双壳类动物的活性氧种类和防御机制]。
本文对海洋双壳类动物如贻贝、牡蛎和蛤的血细胞和消化腺产生活性氧中间体的主要研究成果进行了综述和讨论。贻贝和牡蛎的血细胞对适当的刺激作出反应,呼吸活动的爆发和活性氧中间体的产生类似于哺乳动物吞噬细胞的呼吸爆发。然而,由于蛤蚌血细胞在类似的刺激下没有表现出任何活性氧中间体产生的增加,因此在血细胞介导的抗微生物防御机制中存在物种间差异。作为哺乳动物的双壳类动物的肝胰腺和鱼类的肝脏在异种生物的单电子还原过程中产生活性氧,并且双壳类动物和哺乳动物在机理上存在差异。因此,尽管物种间存在一些差异,但细胞毒性活性氧的产生是大多数(如果不是全部)动物物种的一般保护机制。
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