Causes of shear sensitivity of the toxic dinoflagellate Protoceratium reticulatum

Dinoflagellates have proven extremely difficult to culture because they are inhibited by low‐level shear forces. Specific growth rate of the toxic dinoflagellate Protoceratium reticulatum was greatly decreased compared with static control culture by intermittent exposure to a turbulent hydrodynamic environment with a bulk average shear rate that was as low as 0.3 s^?1. Hydrodynamic forces appeared to induce the production of reactive oxygen species (ROS) within the cells and this caused peroxidation of cellular lipids and ultimately cell damage. Exposure to damaging levels of shear rate correlated with the elevated level of lipoperoxides in the cells, but ROS levels measured directly by flow cytometry did not correlate with shear induced cell damage. This was apparently because the measured level of ROS could not distinguish between the ROS that are normally generated by photosynthesis and the additional ROS produced as a consequence of hydrodynamic shear forces. Continuously subjecting the cells to a bulk average shear rate value of about 0.3 s^?1 for 24‐h caused an elevation in the levels of chlorophyll a, peridinin and dinoxanthin, as the cells apparently attempted to counter the damaging effects of shear fields by producing pigments that are potential antioxidants. In static culture, limitation of carbon dioxide produced a small but measureable increase in ROS. The addition of ascorbic acid (0.1 mM) to the culture medium resulted in a significant protective effect on lipid peroxidation, allowing cells to grow under damaging levels of shear rates. This confirmed the use of antioxidant additives as an efficient strategy to counter the damaging effects of turbulence in photobioreactors where shear sensitive dinoflagellates are cultivated. © 2009 American Institute of Chemical Engineers Biotechnol. Prog., 2009     

The levels of some antioxidant vitamins,glutathione peroxidase and lipoperoxidase during the anaesthesia of dogs

The aim of this investigation was to determine serum levels of vitamin A, E, beta carotene, glutathione peroxidase (GSHPx), lipid peroxidation (MDA) and biochemical and haematological parameters during enflurane anaesthetised dogs. Ten kangal dogs were used and all animals were anaesthetised with enflurane for two hours and blood samples were taken before and 30, 120 minutes, 24 hours and 7 days during the anaesthesia. Vitamin E and beta carotene content were significantly (p<0·05 and p<0·01) higher before anaesthesia than after whereas serum GSHPx activity was not statistically different. However, serum levels of vitamin A and MDA were significantly (p<0·05) increased during the anaesthesia. In general, serum levels of aspartate aminotransferase, alanine aminotransferase, albumin, glucose, urea and creatinine were significantly (p<0·05 and p<0·01) increased during anaesthesia and returned to near normal values after 7 days of anaesthesia, whereas the white blood cell count was significantly (p<0·05 and p<0·01) decreased during the anaesthesia. However, the red blood cell count, haemoglobin and packed cell volume values, and levels of total cholesterol, triglycerides, total protein and globulin were apparently not influenced by the anaesthesia. In conclusion, we observed that the serum level of vitamin E and beta carotene were significantly decreased, whereas serum MDA and vitamin A levels were significantly increased during the enflurane anaesthesia. Copyright © 1999 John Wiley & Sons, Ltd.     

硒对红细胞膜抗氧化作用的探讨

本文以红细胞膜在体外与超氧阴离子自由基(由邻苯三酚自氧化产生)反应所致氧化损伤作为实验模型,研究了Na₂SeO₃,NaHSeO₃,Na₂SeO₄和SeO₂等硒化合物对红细胞膜的作用。结果表明,Na₂SeO₃有抗氧化作用。表现为膜蛋白交联作用显著减小,脂质过氧化物(膜荧光物质)含量下降。本文还就硒抗氧化作用的机理作了讨论。     

Design and biological activity of imidazole-containing peptidomimetics with a broad-spectrum antioxidant activity

Histidine-containing natural dipeptides, such as L-carnosine, were reported to be effective against different oxygen-derived free radicals, and also lipoperoxyl radicals. However, L-carnosine appeared to be uneffective in vivo, due to the presence of ubiquitous specific or semi-specific hydrolytic enzymes. Therefore, a series of peptidomimetics were synthesized in order to confer resistance to enzymatic hydrolysis. Some structural modifications were also done in an attempt to improve the antioxidant power of the molecule, for example, in relation to binding of ferrous ions. The following methods were used for the evaluation of peptidomimetics:– The resistance to enzymatic deactivation was determined using either a purified specific enzyme or a multi-enzymatic system.– The free radical scavenging potential was measured by different in vitro methods involving different free radical species and biological targets.– Deactivation of lipid hydroperoxides was monitored by HPLC and protection of membrane phospholipids and proteins was demonstrated.– The effectiveness of peptidomimetics in vivo was evaluated.It was shown that decarboxylation of L-carnosine results in an important improvement of the resistance towards hydrolytic enzymes. In vitro experiments have demonstrated, for a series of peptidomimetics, free radical scavenging and lipid hydroperoxide deactivating properties similar to or even better than the natural peptide (depending on the experimental design). In addition, the two peptidomimetics -alanylhistamine and L-prolylhistamine proved to be far superior in inhibiting the lipid hydroperoxide-mediated cross-linking of a representative protein. Finally, -alanylhistamine was able to protect skin enzymes from UV-induced degradation in vivo.