Abstract
Ceruloplasmin (Cp), a copper-containing protein, plays a significant role in body iron homeostasis as aceruloplasminemia patients and Cp knock-out mice exhibit iron overload in several tissues including liver and brain. Several other functions as oxidant, as antioxidant, and in nitric oxide metabolism are also attributed to Cp. Despite its role in iron oxidation and other biological oxidation reactions the regulation of Cp by reactive oxygen species (ROS) remains unexplored. Cp is synthesized in liver as a secretory protein and predominantly as a glycosylphosphatidylinositol-anchored membrane-bound form in astroglia. In this study we demonstrated that Cp expression is decreased by an mRNA decay mechanism in response to extracellular (H2O2) or intracellular oxidative stress (by mitochondrial chain blockers rotenone or antimycin A) in both hepatic and astroglial cells. The promotion of Cp mRNA decay is conferred by its 3'-untranslated region (UTR). When chloramphenicol acetyltransferase (CAT) gene was transfected as a chimera with Cp 3'-UTR in hepatic or astroglial cells, in response to either H2O2, rotenone, or antimycin A, the expression of CAT transcript was decreased, whereas expression of a 3'-UTR-less CAT transcript remained unaffected. RNA gel shift assay showed significant reduction in 3'-UTR-binding protein complex by ROS in both cell types that was reversed by the antioxidant N-acetylcysteine suggesting that ROS affects RNA-protein complex formation to promote Cp mRNA decay. Our finding is not only the first demonstration of regulation of Cp by ROS by a novel post-transcriptional mechanism but also provides a mechanism of iron deposition in neurodegenerative diseases.
Highlights
Iron plays an essential role in many biological processes because of its ability to participate in electron transfer reactions as a protein-bound redox element
In this study we revealed a novel negative regulation of Cp synthesis by reactive oxygen species (ROS) in human hepatic HepG2 cells as well as rat C6 glial and human astroglial U373MG cells by an mRNA decay mechanism involving Cp 3Ј-untranslated region (UTR)
We found that both the secretory form of Cp in HepG2 and membrane-bound GPI-Cp form in glial cells are decreased by ROS suggesting that this previously unreported regulation of Cp is not form-specific, tissue-specific, or species-specific
Summary
Iron plays an essential role in many biological processes because of its ability to participate in electron transfer reactions as a protein-bound redox element. The complete protection of the RNA- Cp 3Ј-UTR in ROS-mediated regulation of GPI-Cp expression protein complex by the antioxidant N-acetylcysteine (Fig. 7D) in glial cells.
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