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A role for IOP1 in mammalian cytosolic iron-sulfur protein biogenesis.


ABSTRACT: The biogenesis of cytosolic iron-sulfur (Fe-S) proteins in mammalian cells is poorly understood. In Saccharomyces cerevisiae, there is a pathway dedicated to cytosolic Fe-S protein maturation that involves several essential proteins. One of these is Nar1, which intriguingly is homologous to iron-only hydrogenases, ancient enzymes that catalyze the formation of hydrogen gas in anaerobic bacteria. There are two orthologues of Nar1 in mammalian cells, iron-only hydrogenase-like protein 1 (IOP1) and IOP2 (also known as nuclear prelamin A recognition factor). We examined IOP1 for a potential role in mammalian cytosolic Fe-S protein biogenesis. We found that knockdown of IOP1 in both HeLa and Hep3B cells decreases the activity of cytosolic aconitase, an Fe-S protein, but not that of mitochondrial aconitase. Knockdown of IOP2, in contrast, had no effect on either. The decrease in aconitase activity upon IOP1 knockdown is rescued by expression of a small interference RNA-resistant version of IOP1. Upon loss of its Fe-S cluster, cytosolic aconitase is known to be converted to iron regulatory protein 1, and consistent with this, we found that IOP1 knockdown increases transferrin receptor 1 mRNA levels and decreases ferritin heavy chain protein levels. IOP1 knockdown also leads to a decrease in activity of xanthine oxidase, a distinct cytosolic Fe-S protein. Taken together, these results provide evidence that IOP1 is involved in mammalian cytosolic Fe-S protein maturation.

SUBMITTER: Song D 

PROVIDER: S-EPMC2431034 | biostudies-literature | 2008 Apr

REPOSITORIES: biostudies-literature

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A role for IOP1 in mammalian cytosolic iron-sulfur protein biogenesis.

Song Daisheng D   Lee Frank S FS  

The Journal of biological chemistry 20080212 14


The biogenesis of cytosolic iron-sulfur (Fe-S) proteins in mammalian cells is poorly understood. In Saccharomyces cerevisiae, there is a pathway dedicated to cytosolic Fe-S protein maturation that involves several essential proteins. One of these is Nar1, which intriguingly is homologous to iron-only hydrogenases, ancient enzymes that catalyze the formation of hydrogen gas in anaerobic bacteria. There are two orthologues of Nar1 in mammalian cells, iron-only hydrogenase-like protein 1 (IOP1) and  ...[more]

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