2013-03-15
COX19 mediates the transduction of a mitochondrial redox signal from SCO1 that regulates ATP7A-mediated cellular copper efflux
Publication
Publication
Molecular Biology of the Cell (Print) , Volume 24 - Issue 6 p. 683- 691
SCO1 and SCO2 are metallochaperones whose principal function is to add two copper ions to the catalytic core of cytochrome c oxidase (COX). However, affected tissues of SCO1 and SCO2 patients exhibit a combined deficiency in COX activity and total copper content, suggesting additional roles for these proteins in the regulation of cellular copper homeo-stasis. Here we show that both the redox state of the copper-binding cysteines of SCO1 and the abundance of SCO2 correlate with cellular copper content and that these relationships are perturbed by mutations in SCO1 or SCO2, producing a state of apparent copper overload. The copper deficiency in SCO patient fibroblasts is rescued by knockdown of ATP7A, a trans-Golgi, copper-transporting ATPase that traffics to the plasma membrane during copper overload to promote efflux. To investigate how a signal from SCO1 could be relayed to ATP7A, we examined the abundance and subcellular distribution of several soluble COX assembly factors. We found that COX19 partitions between mitochondria and the cytosol in a copper-dependent manner and that its knockdown partially rescues the copper deficiency in patient cells. These results demonstrate that COX19 is necessary for the transduction of a SCO1-dependent mitochondrial redox signal that regulates ATP7A-mediated cellular copper efflux.
Additional Metadata | |
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doi.org/10.1091/mbc.E12-09-0705, hdl.handle.net/1765/39708 | |
Molecular Biology of the Cell (Print) | |
Organisation | Erasmus MC: University Medical Center Rotterdam |
Leary, S., Cobine, P., Nishimura, T., Verdijk, R., de Krijger, R., de Coo, R., … Shoubridge, E. (2013). COX19 mediates the transduction of a mitochondrial redox signal from SCO1 that regulates ATP7A-mediated cellular copper efflux. Molecular Biology of the Cell (Print), 24(6), 683–691. doi:10.1091/mbc.E12-09-0705 |