Three conserved histidine residues contribute to mitochondrial iron transport through mitoferrins

Abstract

Iron is an essential element for almost all organisms. In eukaryotes, it is mainly used in mitochondria for the biosynthesis of iron-sulfur clusters and haem group maturation. Iron is delivered into the mitochondrion by mitoferrins, members of the MCF (mitochondrial carrier family), through an unknown mechanism. In the present study, the yeast homologues of these proteins, Mrs3p (mitochondrial RNA splicing 3) and Mrs4p, were studied by inserting them into liposomes. In this context, they could transport Fe2+ across the proteoliposome membrane, as shown using the iron chelator bathophenanthroline. A series of amino acid-modifying reagents were screened for their effects on Mrs3p-mediated iron transport. The results of the present study suggest that carboxy and imidazole groups are essential for iron transport. This was confirmed by invivo complementation assays, which demonstrated that three highly conserved histidine residues are important for Mrs3p function. These histidine residues are not conserved in other MCF members and thus they are likely to play a specific role in iron transport. A model describing how these residues help iron to transit smoothly across the carrier cavity is proposed and compared with the structural and biochemical data available for other carriers in this family.