Objective: To assess the genotoxicity and embryotoxicity of bicyclol methyl ether(BME), the main impurity in bicyclol. Methods: Five concentrations of BME(0.5, 5, 50, 500 and 5000 μg/plate) were used in the Ames test...Objective: To assess the genotoxicity and embryotoxicity of bicyclol methyl ether(BME), the main impurity in bicyclol. Methods: Five concentrations of BME(0.5, 5, 50, 500 and 5000 μg/plate) were used in the Ames test to detect gene mutation. In the chromosome aberration test, Chinese hamster lung cells were used to detect chromosomal aberration of BME(15, 30, 60, 120 μg/m L) with or without S9 mixture. Embryotoxicity test was also conducted to determine any embryotoxicity of BME(7.5, 22.5, 67.5 μg/L) using zebrafish embryos. Results: No significant differences were observed in the Ames test and the chromosome aberration test in the BME groups compared with the vehicle control group. The zebrafish embryos toxicity test also showed no embryo development toxicity of BME, including hatching rate, body length, pericardial area and yolk sac area. Conclusions: Bicyclol methyl ether has no genotoxicity in vitro and embryotoxicity in zebrafish embryos, and the impurity in bicyclol is qualified.展开更多
Nano-sized zinc oxide(n ZnO) particles are one kind of the most commonly used metal oxide nanoparticles(NPs). This study compared the cytotoxic and embryotoxic effects of three increasing sized ZnO particles(φ30 nm, ...Nano-sized zinc oxide(n ZnO) particles are one kind of the most commonly used metal oxide nanoparticles(NPs). This study compared the cytotoxic and embryotoxic effects of three increasing sized ZnO particles(φ30 nm, 80-150 nm and 2 μm) in the flounder gill(FG) cells and zebrafish embryos, and analyzed the contribution of size, agglomeration and released Zn^(2+) to the toxic effects. All the tested ZnO particles were found to be highly toxic to both FG cells and zebrafish embryos. They induced growth inhibition, LDH release, morphological changes and apoptosis in FG cells in a concentration-, size-and time-dependent manner. Moreover, the release of LDH from the exposed FG cells into the medium occurred before the observable morphological changes happened. The ultrasonication treatment and addition of serum favored the dispersion of ZnO particles and alleviated the agglomeration, thus significantly increased the corresponding cytotoxicity. The released Zn^(2+) ions from ZnO particles into the extracellular medium only partially contributed to the cytotoxicity. All the three sizes of ZnO particles tested induced developmental malformations, decrease of hatching rates and lethality in zebrafish embryos, but size-and concentration-dependent toxic effects were not so obvious as in FG cells possibly due to the easy aggregation of ZnO particles in freshwater. In conclusion, both FG cells and zebrafish embryos are sensitive bioassay systems for safety assessment of ZnO particles and the environmental release of ZnO particles should be closely monitored as far as the safety of aquatic organisms is concerned.展开更多
文摘Objective: To assess the genotoxicity and embryotoxicity of bicyclol methyl ether(BME), the main impurity in bicyclol. Methods: Five concentrations of BME(0.5, 5, 50, 500 and 5000 μg/plate) were used in the Ames test to detect gene mutation. In the chromosome aberration test, Chinese hamster lung cells were used to detect chromosomal aberration of BME(15, 30, 60, 120 μg/m L) with or without S9 mixture. Embryotoxicity test was also conducted to determine any embryotoxicity of BME(7.5, 22.5, 67.5 μg/L) using zebrafish embryos. Results: No significant differences were observed in the Ames test and the chromosome aberration test in the BME groups compared with the vehicle control group. The zebrafish embryos toxicity test also showed no embryo development toxicity of BME, including hatching rate, body length, pericardial area and yolk sac area. Conclusions: Bicyclol methyl ether has no genotoxicity in vitro and embryotoxicity in zebrafish embryos, and the impurity in bicyclol is qualified.
基金supported by the National Natural Science Foundation of China(Grant Nos.41076075,31472274 and 31172391)Scholarship Foundation for Excellent Scientists of Shandong Province(Grant No.BS2011 SW054)open foundation from Institute of Marine Biodiversity and Evolution(Grant No.20132017)
文摘Nano-sized zinc oxide(n ZnO) particles are one kind of the most commonly used metal oxide nanoparticles(NPs). This study compared the cytotoxic and embryotoxic effects of three increasing sized ZnO particles(φ30 nm, 80-150 nm and 2 μm) in the flounder gill(FG) cells and zebrafish embryos, and analyzed the contribution of size, agglomeration and released Zn^(2+) to the toxic effects. All the tested ZnO particles were found to be highly toxic to both FG cells and zebrafish embryos. They induced growth inhibition, LDH release, morphological changes and apoptosis in FG cells in a concentration-, size-and time-dependent manner. Moreover, the release of LDH from the exposed FG cells into the medium occurred before the observable morphological changes happened. The ultrasonication treatment and addition of serum favored the dispersion of ZnO particles and alleviated the agglomeration, thus significantly increased the corresponding cytotoxicity. The released Zn^(2+) ions from ZnO particles into the extracellular medium only partially contributed to the cytotoxicity. All the three sizes of ZnO particles tested induced developmental malformations, decrease of hatching rates and lethality in zebrafish embryos, but size-and concentration-dependent toxic effects were not so obvious as in FG cells possibly due to the easy aggregation of ZnO particles in freshwater. In conclusion, both FG cells and zebrafish embryos are sensitive bioassay systems for safety assessment of ZnO particles and the environmental release of ZnO particles should be closely monitored as far as the safety of aquatic organisms is concerned.