Nature of the FeO2 bonding in myoglobin: An overview from physical to clinical biochemistry

Abstract

The iron(II)-dioxygen bond in myoglobin and hemoglobin is a subject of wide interest. Studieas range from examinations of physical-chemical properties dependent on electronic structure, to investigations of stability as a function of oxygen supply. Stability properties are of particular importance in vivo, since the oxygenated form is known to be oxidized easily to the ferric form, which cannot be oxygenated and is therefore physiologically inactive. Kinetic and thermodynamic studies of the stability of native oxymyoglobin have revealed a new feature in FeO₂ bonding. In vivo. the iron center is always subject to a nucleophilic attack of the water molecule or hydroxyl ion, which can enter the heme pocket from the surrounding solvent, and thereby irreversibly displace the bound dioxygen from MbO₂ in the form of O ₂ ⁻ so that the iron is converted to the ferric form. A free energy diagram for the potential reactions of FeO₂ visualizes myoglobin as a molecular structure that can provide in solution the delicate balance of kinetic and thermodynamic factors necessary to stabilize reversible oxygenation, as opposed to irreversible autoxidation to metmyoglobin.