Mia40 Protein Serves as an Electron Sink in the Mia40-Erv1 Import Pathway

A redox-regulated import pathway consisting of Mia40 and Erv1 mediates the import of cysteine-rich proteins into the mitochondrial intermembrane space. Mia40 is the oxidoreductase that inserts two disulfide bonds into the substrate simultaneously. However, Mia40 has one redox-active cysteine pair, r...

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Bibliographic Details
Published in:The Journal of biological chemistry 2015-08, Vol.290 (34), p.20804-20814
Main Authors: Neal, Sonya E., Dabir, Deepa V., Tienson, Heather L., Horn, Darryl M., Glaeser, Kathrin, Ogozalek Loo, Rachel R., Barrientos, Antoni, Koehler, Carla M.
Format: Article
Language:English
Subjects:
Ascorbic Acid - pharmacology
disulfide
Disulfides - chemistry
Disulfides - metabolism
Electrons
Gene Expression Regulation, Fungal
Glutathione - pharmacology
Membrane Biology
Metallochaperones - genetics
Metallochaperones - metabolism
mitochondria
Mitochondria - drug effects
Mitochondria - metabolism
Mitochondrial Membrane Transport Proteins - genetics
Mitochondrial Membrane Transport Proteins - metabolism
Mitochondrial Proteins - genetics
Mitochondrial Proteins - metabolism
Mutation
Oxidation-Reduction
oxidation-reduction (redox)
Oxidoreductases Acting on Sulfur Group Donors - genetics
Oxidoreductases Acting on Sulfur Group Donors - metabolism
Plasmids - chemistry
Plasmids - metabolism
protein import
Protein Transport
Recombinant Proteins - genetics
Recombinant Proteins - metabolism
redox
redox regulation
Reducing Agents - pharmacology
Saccharomyces cerevisiae - drug effects
Saccharomyces cerevisiae - genetics
Saccharomyces cerevisiae - metabolism
Saccharomyces cerevisiae Proteins - genetics
Saccharomyces cerevisiae Proteins - metabolism
Signal Transduction
thiol
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Summary:A redox-regulated import pathway consisting of Mia40 and Erv1 mediates the import of cysteine-rich proteins into the mitochondrial intermembrane space. Mia40 is the oxidoreductase that inserts two disulfide bonds into the substrate simultaneously. However, Mia40 has one redox-active cysteine pair, resulting in ambiguity about how Mia40 accepts numerous electrons during substrate oxidation. In this study, we have addressed the oxidation of Tim13 in vitro and in organello. Reductants such as glutathione and ascorbate inhibited both the oxidation of the substrate Tim13 in vitro and the import of Tim13 and Cmc1 into isolated mitochondria. In addition, a ternary complex consisting of Erv1, Mia40, and substrate, linked by disulfide bonds, was not detected in vitro. Instead, Mia40 accepted six electrons from substrates, and this fully reduced Mia40 was sensitive to protease, indicative of conformational changes in the structure. Mia40 in mitochondria from the erv1–101 mutant was also trapped in a completely reduced state, demonstrating that Mia40 can accept up to six electrons as substrates are imported. Therefore, these studies support that Mia40 functions as an electron sink to facilitate the insertion of two disulfide bonds into substrates. Background: Oxidized substrates such as Tim13 acquire two disulfide bonds simultaneously, but Mia40 has one active redox center that accepts two electrons. Results: Mia40 can acquire up to six electrons when oxidizing substrates. Conclusion: Mia40 has the flexibility to accept several electrons. Significance: Mechanistic properties of the MIA pathway are unique compared with redox pathways in the endoplasmic reticulum and bacterial periplasm.
ISSN:0021-9258
1083-351X
DOI:10.1074/jbc.M115.669440