Cellular distribution of copper to superoxide dismutase involves scaffolding by membranes
Author(s) -
Christopher R. Pope,
Christopher J. De Feo,
Vinzenz M. Unger
Publication year - 2013
Publication title -
proceedings of the national academy of sciences
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 5.011
H-Index - 771
eISSN - 1091-6490
pISSN - 0027-8424
DOI - 10.1073/pnas.1309820110
Subject(s) - superoxide dismutase , cytosol , sod1 , copper , complementation , lipid bilayer , mitochondrial intermembrane space , intermembrane space , intracellular , chemistry , saccharomyces cerevisiae , biophysics , mitochondrion , cardiolipin , biochemistry , microbiology and biotechnology , yeast , membrane , biology , antioxidant , enzyme , phenotype , bacterial outer membrane , phospholipid , gene , escherichia coli , organic chemistry
Efficient delivery of copper ions to specific intracellular targets requires copper chaperones that acquire metal cargo through unknown mechanisms. Here we demonstrate that the human and yeast copper chaperones (CCS) for superoxide dismutase 1 (SOD1), long thought to exclusively reside in the cytosol and mitochondrial intermembrane space, can engage negatively charged bilayers through a positively charged lipid-binding interface. The significance of this membrane-binding interface is established through SOD1 activity and genetic complementation studies in Saccharomyces cerevisiae, showing that recruitment of CCS to the membrane is required for activation of SOD1. Moreover, we show that a CCS:SOD1 complex binds to bilayers in vitro and that CCS can interact with human high affinity copper transporter 1. Shifting current paradigms, we propose that CCS-dependent copper acquisition and distribution largely occur at membrane interfaces and that this emerging role of the bilayer may reflect a general mechanistic aspect of cellular transition metal ion acquisition.
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