Apoptosis development pathways in human lymphocytes induced by UV light and reactive oxygen species

Abstract

We have studied alterations in the structural state of DNA, the level of membrane Fas-receptor expression, functional activity of caspase-3, the concentration of Ca2+, p53 and cytochrome c proteins in human lymphocyte cells in the dynamics of apoptosis, induced by UV light (240–390 nm) at doses of 151, 1510, and 3020 J/m2 and reactive oxygen species (ROS): superoxide anion radical, hydroxyl radical, hydrogen peroxide, and singlet oxygen. It was established that UV light and ROS induce lymphocyte DNA fragmentation after the incubation of a modified cell for 20 h. It was shown that in 1–5 h after UV light and ROS exposure on lymphocytes, an increase is observed in the level of membrane death Fas-receptors as compared to intact cells. Enhancement was revealed in the functional activity of lymphocyte caspase-3 4 h after the generation of singlet oxygen, hydroxyl radical, and the addition of hydrogen peroxide, as well as 8 and 24 h and 6 and 8 h of UV irradiation of cells at doses of 151 and 1510 J/m2, respectively. Using the DNA comet approach, it was revealed that DNA damage (single-stranded breaks) appears approximately 15–20 min after UV irradiation of lymphocytes at doses of 1510 and 3020 J/m2 and the addition of hydrogen peroxide at a concentration of 10−6 mol/L (comets of the C1 type) and reaches its maximum 6 h after cell modification (comets of the C2 and C3 types). Six hours after exposure of lymphocytes to hydrogen peroxide and UV light at doses of 1510 and 3020 J/m2, it was established that the p53 level increased in the investigated cells. It was established that under UV light exposure and exogenous generation of reactive oxygen species, the increase in the calcium level in lymphocyte cytoplasm is determined by Ca2+ efflux from the intracellular depots as a result of activation of the components of the phosphoinositide information transmission mechanism to a cell. A hypothesis was proposed on the correlation between changes in the calcium level and initiation of programmed cell death in human lymphocytes after UV light and ROS exposure. It was concluded that the lead role is played by receptor-mediated (Fas-dependent) caspase and p53-dependent pathways in the development of lymphocyte apoptosis induced by exposure to UV light at doses of 151 and 1510 J/m2 and reactive oxygen metabolites. A scheme is presented which considers possible intracellular events leading to apoptotic death of lymphocytes after UV irradiation.