[Effect of selenium on resistance of hemoglobin to photooxidative processes].

On an example of a guinea pig it is shown that exogenous selenium (0.5 mg Na2SeO3 per 1 kg of the animal weight) during 2-hour exposition in the animal organism increases the resistance to the photo-induced oxidation of haemoglobin in erythrocyte lysates without additional stimulation of glutathione peroxidase mechanism of haemoglobin protection by exogenous selenium. It is shown that the saturation of haemoglobin fractions by selenium hampers the oxidative modification of haemoglobin. Using pregnancy of women as a natural model of selenium-deficiency condition, it has been shown that physiological debilitation of saturation erythrocytes with selenium, including haemoglobin fractions of lysates erythrocytes caused debilitation of resistance of haemoglobin to photooxidative destruction. Under these conditions not only activity of enzyme glutathione peroxidise in erythrocyte lysates, but also the peroxidase activity of haemoglobin (in the presence of glutathione) were decreased. It is more characteristic of erythrocyte lysates with a less content of selenium, i.e. for the erythrocytes of women on late terms of pregnancy that testifies to the presence of certain relation between haemoglobin saturation with selenium and its peroxidase activity (in the presence of glutathione).

[The role of selenium in the regulation of lipid peroxidation in biological membranes and glutathione peroxidase activity]. / Uchastie selena v reguliatsii perekisnogo okisleniia lipidov biomembran i aktivnost' glutationperoksidazy.

The antioxidative effect of selenium cannot be exclusively due to the functioning of the selenium-dependent glutathione peroxidase mechanism of utilization of various hydroperoxides. This hypothesis is based on the following experimental evidence. Selenium ions are readily incorporated into animal organs and tissues immediately after injection (2 hours) as well as into cell organelles and cytosol where they inhibit lipid peroxidation. The activity of glutathione peroxidase (EC 1.1.1.19) in rat liver and guinea pig cytosol is thereby unchanged but increases drastically after 12 hours reaching a maximum an the 3rd-4th day. The effectiveness of lipid peroxidation inhibition does not increase under these conditions. Although the glutathione peroxidase activity is absent in the nuclei and microsomes, exogenous selenium inhibits lipid peroxidation in these organelles. The activity of the rat liver cytosolic enzyme markedly exceeds that of its guinea pig counterpart. However, lipid peroxidation in guinea pig liver occurs less intensively than that in rat liver cytosol.