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- Title
Metal Ions-Stimulated Iron Oxidation in Hydroxylases Facilitates Stabilization of HIF-1{alpha} Protein.
- Authors
Monika Kaczmarek; Raul E. Cachau; Igor A. Topol; Kazimierz S. Kasprzak; Andy Ghio; Konstantin Salnikow
- Abstract
The exposure of cells to several metal ions stabilizes HIF-1α protein. However, the molecular mechanisms are not completely understood. They may involve inhibition of hydroxylation by either substitution of iron by metal ions or by iron oxidation in the hydroxylases. Here we provide evidence supporting the latter mechanism. We show that HIF-1α stabilization in human lung epithelial cells occurred following exposure to various metal and metalloid ions, including those that cannot substitute for iron in the hydroxylases. In each case addition of the reducing agent ascorbic acid (AA)* abolished HIF-1α protein stabilization. To better understand the role of iron oxidation in hydroxylase inhibition and to define the role of AA in the enzyme recovery we applied molecular modeling techniques. Our results indicate that the energy required for iron substitution by Ni(II) in the enzyme is high and unlikely to be achieved in a biological system. Additionally, computer modeling allowed us to identify a tridentate coordination of AA with the enzyme-bound iron, which explains the specific demand for AA as the iron reductant. Thus, the stabilization of HIF-1α by numerous metal ions that cannot substitute for iron in the enzyme, the alleviation of this effect by AA, and our computer modeling data support the hypothesis of iron oxidation in the hydroxylases following exposure to metal ions.
- Subjects
METAL ions; OXIDATION; IRON; HYDROXYLATION; TRANSCRIPTION factors; EPITHELIAL cells; ENZYME inhibitors; COMPUTER simulation
- Publication
Toxicological Sciences, 2009, Vol 107, Issue 2, p394
- ISSN
1096-6080
- Publication type
Article
- DOI
10.1093/toxsci/kfn251