Kinetic studies of the Fe(II) oxidation with human serum ferroxidase-II

A nonceruloplasmin ferroxidase (ferroxidase-II) has recently been identified and purified from whole human serum and from the Cohn IV-1 fraction of human plasma. Ferroxidase-II has been shown to differ greatly from ferroxidase-I (ceruloplasmin) in molecular weight, copper content, absorption spectra, inhibition by anions, Chromatographic behavior, and electrophoretic mobility.A cell designed for the simultaneous measurement of absorbance and oxygen concentration has permitted a detailed study of the kinetics of Fe(II) oxidation by highly purified ferroxidase-II and a comparison of these kinetic properties to those previously determined for ferroxidase-I. Ferroxidase-I has been shown to exhibit two K_m values for Fe(II), and a mechanism based on substrate activation has recently been proposed to account for this finding. In contrast, ferroxidase-II has only one K_m for Fe(II) and does not appear to be subject to substrate activation. The pH optimum of ferroxidase-II is 7.2 compared to 6.5 for ferroxidase-I. The low K_m (4.1 μm) for oxygen for ferroxidase-II indicates that it would be capable of catalyzing the oxidation of Fe(II) at oxygen concentrations comparable to or far below those normally present in human blood. Even though the two ferroxidases differ considerably in molecular weight and copper content, the molar activities and activities per Cu atom of the two enzymes are quite similar. These kinetic studies suggest that ferroxidase-II would be capable of functioning as an alternative for ferroxidase-I in human serum and as the major ferroxidase in the sera of several species that contain low ferroxidase-I levels.