Effect of steroid hormones on production of reactive oxygen species in mitochondria

Among the targets of steroid hormones are mitochondria, which as the main source of reactive oxygen species (ROS) in the cell play a central role in the development of various pathologies. We studied the effect of progesterone and its synthetic analogs on mitochondrial ROS production. It was found that progesterone promoted formation of superoxide anion and hydrogen peroxide in mitochondria oxidizing the substrates of complex I of the respiratory chain but did not influence the production of ROS during oxidation of succinate, respiratory chain complex II substrate. Progesterone derivatives—Medroxyprogesterone acetate, Buterol, Acetomepregenol, Megestrol acetate—had different effects on ROS production, depending on their chemical structure. By the stimulation of ROS production in mitochondria (during oxidation of pyruvate + malate), the tested steroids can be arranged in decreasing order as follows: progesterone > Buterol ≈ Acetomepregenol > Medroxyprogesterone acetate = Megestrol acetate. Activation of ROS production by progesterone and by Buterol involves different mechanisms: progesterone acts as an inhibitor of NAD-dependent respiration, while Buterol and Acetomepregenol perhaps form noncovalent complexes by hydrogen bonding of the ester carbonyl at C3 to the SH groups of the respective targets.