[Interaction between albumin-bound dinitrosyl iron complexes and reactive oxygen species].

It has been established that albumin-bound dinitrosyl iron complexes can be destroyed by superoxide radicals generated in a xanthine-xanthine oxidase system. It was shown that peroxynitrite also effectively destroyed albumin-bound dinitrosyl iron complexes. At the same time, hydrogen peroxide and tert-butyl hydroperoxide did not stimulate the destruction of albumin-bound dinitrosyl iron complexes up to concentrations one order higher than the content of NO. The data have been obtained indicating that dinitrosyl iron complexes possess the vasodilatory activity. It has been proposed that peroxynitrite and superoxide radical, by causing the destruction of albumin-bound dinitrosyl iron complexes, affect the physiological properties of nitric oxide.

[Interaction between dinitrosyl iron complexes and intermediate products of oxidative stress].

The interaction between glutathione-containing dinitrosyl iron complexes and superoxide radicals has been studied under the conditions of superoxide radical generation in mitochondria and in a model system xanthine-xanthine oxidase. It has been shown that both superoxide radical and hydroxyl radical are involved in the destruction of dinitrosyl iron complexes. At the same time, iron contained in dinitrosyl iron complex, apparently, does not catalyze the decomposition of hydrogen peroxide with the formation of hydroxyl radical. It has been found that dinitrosyl iron complexes with different anion ligands inhibit effectively the formation of phenoxyl probucol radical in a hemin-H2O2 a system. In this process, different components of the dinitrosyl iron complexes take part in the antioxidant action of these complexes.

[The interaction of ferritin and myoglobin as inductors of lipid peroxidation. The role of reactive oxygen and nitrogen species]. / Vzaimodeistvie ferritina i mioglobina kak induktorov perekisnogo okisleniia lipidov. Rol' aktivnykh form kisloroda i azota.

The effect of iron dinitrosyl complexes, S-nitrosoglutathione, and glutathione on free radical oxidation of rat heart mitochondria induced by tert-butyl hydroperoxide and metmyoglobin or their combination with ferritin was studied. It was shown that iron dinitrosyl complexes or the combination of S-nitrosoglutathione and glutathione inhibited most effectively the peroxidation of mitochondrial membranes. It was found that ferritin stimulated the prooxidant action of metmyoglobin. Using EPR spectroscopy, it was established that, in conditions of O2*- generation, the destruction of iron dinitrosyl complexes took place. Iron dinitrosyl complexes also inhibited the formation of thiyl radicals, which appeared during O2*- generation in the system containing glutathione and S-nitrosoglutathione. It is essential that the formation of iron dinitrosyl complexes in this reaction system took place with the involvement of ferritin. It was proposed that the prooxidant action of ferritin and myoglobin could be inverted to the antioxidant one.

[Effect of coenzyme Q10 on free radical centers in isolated rat myocardium tissue]. / Vliianie koénzima Q10 na svobodnoradikal'nye tsentry tkani izolirovannogo miokarda krysa.

The effect of coenzyme Q10 prepared as an oil solution and a water-soluble suspension (the Kudesan preparation) on the resistance of myocardium of Wistar rats to ischemic and reperfusional injuries and the redox state of the components of the cardiac mitochondrial respiratory chain during postischemic reperfusion was studied. Animals received the oil solution of Q10 with food and the Kudesan preparation, with water. It was shown that the drugs, which produce a substantial protective action on the working heart muscle during ischemia and reperfusion, cause a shift of the redox equilibrium between the semireduced forms of ubiquinone and flavine coenzymes to a higher output of ubisemiquinone. With equal doses of the drugs, Kudesan produced a more pronounced effect.