[Progesterone - regulator of T-lymphocytes cytotoxicity].

Progesterone plays important the role in the regulation of the immune system during pregnancy. We examined the effect of progesterone on the cytotoxic activity of T-lymphocytes in a model system Jurkat cells. Jurkat cells were stimulated with 50 µg/ml of phytohemaglutinin A (PHA) at 370C for 5 minutes. Then, PHA was removed by centrifugation, the cells were washed and cultured for 24 hours alone or with progesterone (added to the incubation medium of Jurkat cells at a concentration of 0.07 and 0.7 µl. Determined value of The parameters of mitochondrial membrane potential (by flow cytometry) and parameters of mitochondrial oxidative metabolism (the rate of generation of superoxide and peroxide radicals and activity of mitochondrial superoxide dismutase, catalase, glutatinperoxidase, the degree of nitrosylation of mitochondrial electron-transport proteins (by method of electron paramagnetic resonance and spectrophotometry) were determined. It was identified the lowering effect of high dose of progesterone (0.7µl) on the value of mitochondrial membrane potential (balancing percentage of cells with high and low values of mitochondrial potential and decreased intensity of oxidative stress in mitogen - activated Jurkat cells, which supports inhibition of their proliferation and differentiation activity.

[Effectiveness of plaferon LB in gamma-radiotherapy].

Free radical oxidation plays important role in the radiation-induced cell and tissue damage. Numerous studies evidence a decrease in body antioxidant system activity and changes in nitric oxide levels during irradiation. It has been demonstrated that in the process of radiation damage NO may play either radioprotective or radiotoxic role depending on body redox status. Hence, the search for effective radioprotectors is an urgent issue of the contemporary radiology. We applied vitamin C and plaferon LB as radioprotectors. Plaferon LB has antioxidant, antihypoxic, immunomodulating and antiapoptotic effects. Our study aimed to evaluate effectiveness of correcting action of plaferon LB on oxidative -- reducing balance of the body subjected to ionizing radiation. There have been studied changes in catalase, SOD, GR and ceruloplasmine activities as well as blood NO levels, superoxide and lipoperoxide radical levels in rats being subjected to gamma-radiation and treated by above mentioned preparations. As a result of our study we can conclude that preliminary and postradiation application of antioxidants at irradiation has a protective effect.