Redox cycling of myoglobin and ascorbate: a potential protective mechanism against oxidative reperfusion injury in muscle.

Metmyoglobin catalyzes the decomposition of H2O2 as well as other hydroperoxides by using ascorbic acid as a substrate. The ratio of H2O2 reduced to ascorbate oxidized is close to one, whereas the rate of oxidation is directly proportional to both H2O2 and metmyoglobin concentrations. Ascorbate also prevents the protein modifications and the O2 evolution that accompany the reaction of metmyoglobin with hydroperoxides. In the absence of ascorbate, myoglobin and H2O2 promote the peroxidation of unsaturated fatty acids and, thus, may cause damage to cellular constituents. However, lipid peroxidation is inhibited in the presence of ascorbate and, for this reason, it is suggested that this heme protein functions in the opposite manner. The redox cycling of myoglobin by ascorbate may act as an important electron "sink" and defense mechanism against peroxides during oxidative challenge to muscle.