Autophagy,ferritin and iron chelation

Ferritin is an iron storage molecule in vertebrates that stores iron in a redox inactive form. Ferritin is synthesized in response to high cellular iron levels and is degraded and iron released when iron demand is increased. Previously we determined that the turnover of ferritin occurs via the proteasome when the iron exporter ferroportin is expressed, and via the lysosome when the iron chelator deferoxamine is given to cells. Deferoxamine is used to treat hemochromatosis, a disease of iron accumulation that can be either genetic or acquired.

Autophagy provides a mechanism by which cytosolic proteins gain access to the lumen of lysosomes. Our results suggest that entry of ferritin into lysosomes is highly specific and not a consequence of generalized engulfment of cytosolic compartments by lysosomes. Entry of ferritin is also independent of the presence of LAMP-2, which suggests that ferritin entry does not result from chaperone-mediated autophagy. In summary, in this study we identify a new route that links ferritin degradation to activation of autophagy. The identification of this pathway will help to understand the molecular events that lead to activation of deferoxamine-mediated ferritin degradation and may contribute to the design of new therapeutic strategies for iron chelation therapy.