Journal
FREE RADICAL BIOLOGY AND MEDICINE
Volume 33, Issue 4, Pages 457-463Publisher
PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/S0891-5849(02)00842-0
Keywords
ferritin; iron homeostasis; mitochondria; apoptosis; free radical; oxidative damage
Funding
- Fondazione Telethon Funding Source: Custom
- Telethon [GP0075Y01] Funding Source: Medline
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Ferritin is one of the major proteins of iron metabolism. It is almost ubiquitous and tightly regulated by the metal. Biochemical and structural properties of the ferritins are largely conserved from bacteria to man, although the role in the regulation of iron trafficking varies in the different organisms. Recent studies have clarified some of the major aspects of the reaction between iron and ferritin, which results in the formation of the iron core and production of hydrogen peroxide. The characterization of cellular models in which ferritin expression is modulated has shown that the ferroxidase catalytic site on the H-chain has a central role in regulating iron availability. In turn, this has secondary effects on a number of cellular activities, which include proliferation and resistance to oxidative damage. Moreover, the response to apoptotic stimuli is affected by H-ferritin expression. Altered ferritin L-chain expression has been found in at least two types of genetic disorders, although its role in the determination of the pathology has not been fully clarified. The recent discovery of a new ferritin specific for the mitochondria, which is functionally similar to the H-ferritin, opens new perspectives in the study of the relationships between iron, oxidative damage and free radicals. (C) 2002 Elsevier Science Inc.
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