This project is aimed at understanding the molecular basis of intracellular iron metabolism. The cis and trans elements mediating the iron-dependent alterations in abundance of ferritin and the transferrin receptor have been identified and characterized in previous years in this laboratory. Iron-responsive elements (IREs) are RNA stem-loops found in the 5' end of ferritin mRNA and the 3' end of transferrin receptor mRNA. We have cloned, expressed, and characterized two essential iron-sensing proteins, Iron Regulatory Protein 1 (IRP1) and Iron Regulatory Protein 2 (IRP2), formerly referred to as iron-responsive element binding proteins (IRE-BPs). IRPs bind IRE's when iron levels are depleted, resulting in the inhibition of translation of ferritin mRNA and prolongation of the half-life of the transferrin receptor mRNA. IRP1 is an iron-sulfur protein related to mitochondrial aconitase, a Krebs cycle enzyme, and it functions as a cytosolic aconitase in cells that are iron replete. Regulation of RNA binding activity of IRP1 involves a transition from a form of IRP1 in which a [4Fe-4S] cluster is bound, to a form that loses both iron and aconitase activity. The [4Fe-4S] containing protein does not bind IREs. Controlled degradation of the iron-sulfur cluster reveals that the physiologically relevant form of the RNA binding protein in iron-depleted cells is apoprotein. The status of the cluster appears to be the key to determining whether the protein will bind RNA. Recently, we have identified mammalian genes that are homologous to the NifS and Nif U genes that are implicated in bacterial iron-sulfur cluster assembly, and we have shown that these gene products facilitate assembly of the iron-sulfur cluster of IRP1. Unlike IRP1, IRP2 is rapidly degraded in cells that are iron-replete. An additional exon present in IRP2 determines whether IRP2 is subject to degradation. This 73 amino acid exon is sufficient to confer upon IRP1 an iron - dependent degradation phenotype. Mutagenesis of cysteines within the 73 amino acid domain reveals that cysteines are required for degradation. We have recently shown that IRP2 is oxidatively modified in iron-replete cells, and that the modified intermediate is ubiquitinated prior to being degraded by the proteasome. In order to approach questions about the physiology of iron metabolism, IRP1 has been ~knocked out~ in mice, using homologous recombination in embryonic cell lines. There is no obvious phenotype associated with loss of IRP1 function, and we speculate that both IRPs must be absent in order to see perturbations in iron metabolism. Accordingly, creation of IRP2 """"""""knockouts"""""""" and double """"""""knockouts"""""""" is underway.

Agency
National Institute of Health (NIH)
Institute
Eunice Kennedy Shriver National Institute of Child Health & Human Development (NICHD)
Type
Intramural Research (Z01)
Project #
1Z01HD001602-12
Application #
2575697
Study Section
Special Emphasis Panel (CBMB)
Project Start
Project End
Budget Start
Budget End
Support Year
12
Fiscal Year
1996
Total Cost
Indirect Cost
City
State
Country
United States
Zip Code
Rouault, Tracey A; Tong, Wing-Hang (2009) Tangled up in red: intertwining of the heme and iron-sulfur cluster biogenesis pathways. Cell Metab 10:80-1
Tong, Wing-Hang; Rouault, Tracey A (2007) Metabolic regulation of citrate and iron by aconitases: role of iron-sulfur cluster biogenesis. Biometals 20:549-64
Crooks, Daniel R; Ghosh, Manik C; Braun-Sommargren, Michelle et al. (2007) Manganese targets m-aconitase and activates iron regulatory protein 2 in AF5 GABAergic cells. J Neurosci Res 85:1797-809
Missirlis, Fanis; Kosmidis, Stylianos; Brody, Tom et al. (2007) Homeostatic mechanisms for iron storage revealed by genetic manipulations and live imaging of Drosophila ferritin. Genetics 177:89-100
Zhang, Deliang; Meyron-Holtz, Esther; Rouault, Tracey A (2007) Renal iron metabolism: transferrin iron delivery and the role of iron regulatory proteins. J Am Soc Nephrol 18:401-6
Rouault, Tracey A; Cooperman, Sharon (2006) Brain iron metabolism. Semin Pediatr Neurol 13:142-8
Rouault, Tracey A (2006) Biochemistry. If the RNA fits, use it. Science 314:1886-7
Smith, Sophia R; Ghosh, Manik C; Ollivierre-Wilson, Hayden et al. (2006) Complete loss of iron regulatory proteins 1 and 2 prevents viability of murine zygotes beyond the blastocyst stage of embryonic development. Blood Cells Mol Dis 36:283-7
Lind, Maria I; Missirlis, Fanis; Melefors, Ojar et al. (2006) Of two cytosolic aconitases expressed in Drosophila, only one functions as an iron-regulatory protein. J Biol Chem 281:18707-14
Missirlis, Fanis; Holmberg, Sara; Georgieva, Teodora et al. (2006) Characterization of mitochondrial ferritin in Drosophila. Proc Natl Acad Sci U S A 103:5893-8

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