Stoichiometry of Fe(II) oxidation during ceruloplasmin-catalyzed loading of ferritin

Abstract

Ceruloplasmin catalyzed the incorporation of iron into apoferritin with a stoichiometry of 3.8 Fe(II) O 2 . This value remained the same when ferritin containing varying amounts of iron was used. Contrary to the “crystal growth” model for ferritin formation, no iron incorporation into holoferritin was observed in the absence of ceruloplasmin. Fe(II) O 2 . This ratios close to 2 were obtained for iron incorporation into apo- and holoferritin in Hepes buffer, in the absence of ceruloplasmin, indicating the formation of reduced oxygen species. Sequential loading of ferritin in this buffer resulted in increasing oxidation of the protein as measured by carbonyl formation. Sequential loading of ferritin using ceruloplasmin did not result in protein oxidation and a maximum of about 2300 atoms of iron were incorporated into rat liver ferritin. This corresponded to the maximum amount of iron found in rat liver ferritin in vivo after injection with iron. These results provide evidence for ceruloplasmin as an effective catalyst for the incorporation of iron into both apo- and holoferritin. The possibility that these findings may have physiological significance is discussed.