[Toxicity Testing Organisms for Marine Ecotoxicological Research in China].

Since the late 1970s, marine ecotoxicology began to sprout and develop in China. Based on the principles of dose-response relationships, some marine organisms are used in toxicity tests to evaluate the impact of marine pollutants on marine organisms and marine ecosystems. At the early stage, marine ecotoxicological research mainly focused on the bioaccumulation, biomagnification, and biodegradation of traditional pollutants such as heavy metals, radioactive elements, organotin, petroleum hydrocarbons, and pesticides, as well as their toxic effects on survival, growth, and other physiological indicators. With the development of Chinese industry, marine pollution has become increasingly serious. In addition to the traditional marine pollutants, toxicological research has been conducted on emerging pollutants with potential risks to marine ecosystems, such as POPs, emerging organic pollutants, nanomaterials, and microplastics. Moreover, the species of marine organisms used in toxicity testing have become more diverse. The selection of testing organisms is essential for evaluating toxicity correctly. The toxicity tests should be conducted on a variety of organisms from different trophic levels to ensure the comprehensive understanding of the impact of pollutants on marine ecosystems. The major types of marine organisms used in the toxicity testing include marine alga, protozoa, rotifera, annelida, mollusc, echinoderma, arthropoda, cephalopoda, and marine fish, which have been used in the toxicological studies of various marine pollutants. The outcome results can serve as the scientific basis for the ecological risk assessment of marine pollutants and the establishment of seawater quality criteria. It should be noted that the sensitivity of different testing organisms to different types of pollutants is quite diverse. Therefore, in addition to conducting a battery of tests on a variety of species which play important roles in marine ecosystems, elucidating the toxic mechanisms in different species is also important for marine ecotoxicological studies. The application of the above-mentioned organisms in marine ecotoxicology research in recent years is briefly reviewed here. Particularly, the six commonly used marine model species (Skeletonema costatum, Euplotes vannus, oysters, sea urchins, Tigriopus japonicus, and Oryzias melastigma) used in toxicity testing are introduced in detail.

Interactions of paralytic shellfish toxins with xenobiotic-metabolizing and antioxidant enzymes in rodents.

Paralytic shellfish toxins (PSTs) are neurotoxins known to block voltage-gated sodium channels in intoxicated animals and humans. Their metabolism in mammalian systems and their effects on other receptors are not as well understood. In this study, we investigated the in vitro metabolism of two classes of PSTs, gonyautoxin 2/3 (GTX2/3) and C1/2 toxins (C1/2), using rat and mouse liver enzyme preparations. We also analyzed the effects of these toxins on several antioxidant and xenobiotic-metabolizing enzymes in mice. These toxins were selected for their prevalence in the coastal waters of Southern China. When the toxins were incubated with liver preparations containing Phase I and Phase II xenobiotic metabolizing enzymes and appropriate co-factors, no transformation of the toxins was detectable. When mice were given sub-lethal doses of GTX2/3, a loss of activity was observed in hepatic ethoxyresorufin-O-deethylase, penthoxyresorufin-O-deethylase, glutathione peroxidase and superoxide dismutase, but not in glutathione S-transferase, catalase and glutathione reductase. Exposure to the same mouse units of C1/2 caused only a slight reduction in the activity of penthoxyresorufin-O-deethylase and glutathione peroxidase. Our results indicated that these toxins may not be metabolized readily in mammals and that they may cause adverse effects other than sodium channel blocking.