Reduction of exogenous flavins and mobilization of iron from ferritin by isolated mitochondria.

The release mechanism for ferritin iron and the nature of the compound(s) which donate iron to the mitochondria are two important problems of intracellular iron metabolism which still await their solution. We have previously shown that isolated mitochondria reduce exogenously added flavins in a ubiquinol-flavin oxidoreductase reaction at the C-side of the inner membrane and that the resulting dihydroflavins function as reductants in mitochondrial mobilization of iron from ferritin (Ulvik, R. J., and Romslo, I. (1981). Biochim. Biophys. Acta 635, 457-469). In the present study it is shown that the rate at which iron is removed from ferritin depends on the capability of the flavins to penetrate (1) the mitochondrial outer membrane and (2) the intersubunit channels of the ferritin protein shell. Intact mitochondria reduce flavins at rates which decrease in the following order: riboflavin >> FAD > FMN. The ferritin iron mobilization rates decrease in the order of riboflavin > FMN > FAD. The results are further support for the operation of a flavin-dependent mitochondrial ferrireductase, and strengthen the suggested role for ferritin as a donor of iron to the mitochondria.