Sonia Levi scite author profile

Ferritin is important in iron homeostasis. Its twenty-four chains of two types, H and L, assemble as a hollow shell providing an iron-storage cavity. Ferritin molecules in cells containing high levels of iron tend to be rich in L chains, and may have a long-term storage function, whereas H-rich ferritins are more active in iron metabolism. The molecular basis for the greater activity of H-rich ferritins has until now been obscure, largely because the structure of H-chain ferritin has remained unknown owing to the difficulties in obtaining crystals ordered enough for X-ray crystallographic analysis. Here we report the three-dimensional structure of a human ferritin H-chain homopolymer. By genetically engineering a change in the sequence of the intermolecular contact region, we obtained crystals isomorphous with the homologous rat L ferritin and of high enough quality for X-ray diffraction analysis. The X-ray structure of human H ferritin shows a novel metal site embedded within each of its four-helix bundles and we suggest that ferroxidase activity associated with this site accounts for its rapid uptake of iron.

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A Human Mitochondrial Ferritin Encoded by an Intronless Gene

Levi

Corsi

Bosisio

et al. 2001

Journal of Biological Chemistry

350

347

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Ferritin is a ubiquitous protein that plays a critical role in regulating intracellular iron homoeostasis by storing iron inside its multimeric shell. It also plays an important role in detoxifying potentially harmful free ferrous iron to the less soluble ferric iron by virtue of the ferroxidase activity of the H subunit. Although excess iron is stored primarily in cytoplasm, most of the metabolically active iron in cells is processed in mitochondria. Little is yet known of how these organelles regulate iron homeostasis and toxicity. Here we report an unusual intronless gene on chromosome 5q23.1 that encodes a 242-amino acid precursor of a ferritin H-like protein. This 30-kDa protein is targeted to mitochondria and processed to a 22-kDa subunit that assembles into typical ferritin shells and has ferroxidase activity. Immunohistochemical analysis showed that it accumulates in high amounts in ironloaded mitochondria of erythroblasts of subjects with impaired heme synthesis. This new ferritin may play an important role in the regulation of mitochondrial iron homeostasis and heme synthesis.

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Cytosolic and mitochondrial ferritins in the regulation of cellular iron homeostasis and oxidative damage

Arosio

Levi

2010

Biochimica et Biophysica Acta (BBA) - General Subjects

270

245

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Multiple Pathways for Mineral Core Formation in Mammalian Apoferritin. The Role of Hydrogen Peroxide

et al. 2003

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Human ferritins sequester and store iron as a stable FeOOH (s) mineral core within a protein shell assembled from 24 subunits of two types, H and L. Core mineralization in recombinant H-and L-subunit homopolymer and heteropolymer ferritins and several site-directed H-subunit variants was investigated to determine the iron oxidation/hydrolysis chemistry as a function of iron flux into the protein.Stopped-flow absorption spectrometry, UV spectrometry, and electrode oximetry revealed that the mineral core forms by at least three pathways, not two as previously thought. They correspond to the ferroxidase, mineral surface, and the Fe(II) + H 2 O 2 detoxification reactions, respectively:

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Structure, function, and evolution of ferritins

Andrews¹,

Arosio²,

Bottke³

et al. 1992

Journal of Inorganic Biochemistry

310

228

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Sonia Levi

Solving the structure of human H ferritin by genetically engineering intermolecular crystal contacts

A Human Mitochondrial Ferritin Encoded by an Intronless Gene

Cytosolic and mitochondrial ferritins in the regulation of cellular iron homeostasis and oxidative damage

Multiple Pathways for Mineral Core Formation in Mammalian Apoferritin. The Role of Hydrogen Peroxide

Structure, function, and evolution of ferritins

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