Loop recognition and copper-mediated disulfide reduction underpin metal site assembly of CuA in human cytochrome oxidase
Maturation of cytochrome oxidases is a complex process requiring assembly of several subunits and adequate uptake of the metal cofactors. Two orthologous Sco proteins (Sco1 and Sco2) are essential for the correct assembly of the dicopper CuA site in the human oxidase, but their function is not fully...
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| Published in: | Proceedings of the National Academy of Sciences - PNAS Vol. 112; no. 38; pp. 11771 - 11776 |
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| Main Authors: | , , , , , |
| Format: | Journal Article |
| Language: | English |
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National Acad Sciences
22-09-2015
National Academy of Sciences |
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| Abstract | Maturation of cytochrome oxidases is a complex process requiring assembly of several subunits and adequate uptake of the metal cofactors. Two orthologous Sco proteins (Sco1 and Sco2) are essential for the correct assembly of the dicopper CuA site in the human oxidase, but their function is not fully understood. Here, we report an in vitro biochemical study that shows that Sco1 is a metallochaperone that selectively transfers Cu(I) ions based on loop recognition, whereas Sco2 is a copper-dependent thiol reductase of the cysteine ligands in the oxidase. Copper binding to Sco2 is essential to elicit its redox function and as a guardian of the reduced state of its own cysteine residues in the oxidizing environment of the mitochondrial intermembrane space (IMS). These results provide a detailed molecular mechanism for CuA assembly, suggesting that copper and redox homeostasis are intimately linked in the mitochondrion. |
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| AbstractList | Maturation of cytochrome oxidases is a complex process requiring assembly of several subunits and adequate uptake of the metal cofactors. Two orthologous Sco proteins (Sco1 and Sco2) are essential for the correct assembly of the dicopper CuA site in the human oxidase, but their function is not fully understood. Here, we report an in vitro biochemical study that shows that Sco1 is a metallochaperone that selectively transfers Cu(I) ions based on loop recognition, whereas Sco2 is a copper-dependent thiol reductase of the cysteine ligands in the oxidase. Copper binding to Sco2 is essential to elicit its redox function and as a guardian of the reduced state of its own cysteine residues in the oxidizing environment of the mitochondrial intermembrane space (IMS). These results provide a detailed molecular mechanism for CuA assembly, suggesting that copper and redox homeostasis are intimately linked in the mitochondrion. Cellular respiration in humans depends on the correct assembly of a copper site (Cu A ) in cytochrome oxidases. Because copper is toxic at high levels, cells require specific mechanisms to regulate copper transport and delivery. Two proteins from the Sco family are involved in this mechanism in human mitochondria, and mutations on any of these proteins jeopardize the assembly of the Cu A site, leading to lethal pathologies in newborns. We show that Sco1 is a protein responsible for delivering the copper ions to the oxidase, with a high degree of selectivity. Sco2, instead, provides electrons to reduce the nonmetallated site of the oxidase. This evidence allow us to propose a mechanism for assembly of the Cu A site in eukaryotes. Maturation of cytochrome oxidases is a complex process requiring assembly of several subunits and adequate uptake of the metal cofactors. Two orthologous Sco proteins (Sco1 and Sco2) are essential for the correct assembly of the dicopper Cu A site in the human oxidase, but their function is not fully understood. Here, we report an in vitro biochemical study that shows that Sco1 is a metallochaperone that selectively transfers Cu(I) ions based on loop recognition, whereas Sco2 is a copper-dependent thiol reductase of the cysteine ligands in the oxidase. Copper binding to Sco2 is essential to elicit its redox function and as a guardian of the reduced state of its own cysteine residues in the oxidizing environment of the mitochondrial intermembrane space (IMS). These results provide a detailed molecular mechanism for Cu A assembly, suggesting that copper and redox homeostasis are intimately linked in the mitochondrion. |
| Author | Karolina Gajda Lucia Banci Marcos N. Morgada Chiara Cefaro Luciano A. Abriata Alejandro J. Vila |
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| Issue | 38 |
| Keywords | CuA site metallochaperones Sco proteins cytochrome oxidase metal site assembly |
| Language | English |
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| Notes | ObjectType-Article-1 SourceType-Scholarly Journals-1 ObjectType-Feature-2 content type line 23 Edited by Harry B. Gray, California Institute of Technology, Pasadena, CA, and approved August 12, 2015 (received for review March 12, 2015) Author contributions: M.N.M., L.A.A., L.B., and A.J.V. designed research; M.N.M., L.A.A., C.C., and K.G. performed research; M.N.M., L.A.A., C.C., and K.G. contributed new reagents/analytic tools; M.N.M., L.A.A., C.C., K.G., L.B., and A.J.V. analyzed data; and M.N.M., L.A.A., L.B., and A.J.V. wrote the paper. 1Present address: Laboratory for Biomolecular Modeling, École Polytechnique Fédérale de Lausanne and Swiss Institute of Bioinformatics, 1015 Lausanne, Switzerland. |
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| Snippet | Maturation of cytochrome oxidases is a complex process requiring assembly of several subunits and adequate uptake of the metal cofactors. Two orthologous Sco... Cellular respiration in humans depends on the correct assembly of a copper site (Cu A ) in cytochrome oxidases. Because copper is toxic at high levels, cells... |
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| SubjectTerms | Amino Acid Motifs Amino Acid Sequence Biological Sciences Carrier Proteins - chemistry Carrier Proteins - metabolism Copper - metabolism Disulfides - metabolism Electron Transport Electron Transport Complex IV - chemistry Electron Transport Complex IV - metabolism Humans Membrane Proteins - chemistry Membrane Proteins - metabolism Mitochondrial Proteins - chemistry Mitochondrial Proteins - metabolism Models, Molecular Molecular Sequence Data Oxidation-Reduction Physical Sciences Protein Engineering Protein Structure, Secondary Protein Subunits - chemistry Proton Magnetic Resonance Spectroscopy Solubility Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization |
| Title | Loop recognition and copper-mediated disulfide reduction underpin metal site assembly of CuA in human cytochrome oxidase |
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