The interaction between nitrogen oxides and hemoglobin and endothelium-derived relaxing factor

Among nitrogen oxides, NO and NO 2 are free radicals and show a variety of biological effects. NO 2 is a strongly oxidizing toxicant, although NO, not oxidizing as NO 2, is toxic in that it interacts with hemoglobin to form nitrosyl-and methemoglobin. Nitrosylhemoglobin shows a characteristic electron spin resonance (ESR) signal due to an odd electron localized on the nitrogen atom of NO and reacts with oxygen to yield nitrate and methemoglobin, which is rapidly reduced by methemoglobin reductase in red cells. NO was found to inhibit the reductase activity. Part of NO inhaled in the body is oxidized by oxygen to NO 2, which easily dissolves in water and converts to nitrite. The nitrite oxyhemoglobin autocatalytically after a lag. The mechanism of the oxidation, particularly the involvement of superoxide, was controversial. The stoichiometry of the reaction has now been established using nitrate ion electrode and a methemoglobin free radical was detected by ESR during the oxidation. Complete inhibition of the autocatalysis by aniline or aminopyrine suggests that the radical catalyzes conversion of nitrite to NO 2, which oxidizes oxyhemoglobin. Recently NO was shown to be one of endothelium- derived relaxing factors and the relaxation induced by the factor was inhibited by hemoglobin and potentiated by superoxide dismutase.