Reduction of ferrylmyoglobin to metmyoglobin by quinonoid compounds.

Several quinoid compounds mediated the reduction of ferrylmyoglobin (MbIV) to metmyoglobin (MbIII). The efficiency of the MbIV reduction to MbIII was accomplished by the quinones in the following order: p-benzoquinone greater than 1,4-naphthoquinone greater than 2-OH-1,4-naphthoquinone greater than 2,3-epoxy-1,4-naphthoquinone. The quinone-mediated reduction of MbIV to MbIII had the following characteristics: (a) it was stoichiometrically--rather than catalytically--related to the number of cycles of the MbIV----MbIII transition involving the reduction of H2O2. (b) It proceeded with similar efficiencies under aerobic and anaerobic conditions. (c) It did not require the free radical form of MbIV(.MbIV), thus excluding a two-electron oxidation of the quinone. (d) the nucleophilic addition of--NH2 groups of the apoprotein on the quinone seemed not to be involved through an alternative pathway in the reduction of MbIV, especially since 2-OH-1,4-naphthoquinone, a compound which cannot undergo nucleophilic addition, also facilitated the reduction of the ferryl compound. (e) No two-electron oxidation products of the unsubstituted quinones, such as quinone epoxides, were detected in the spent reaction mixture analyzed by HPLC with electrochemical detection. On the basis of these observations, it is suggested that the reduction of MbIV to MbIII by the above quinonoid compounds is a one-electron transfer process, with electron abstraction being probably accomplished at some site in the benzo ring of the quinone.