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The mechanism of Cu+ transport ATPases: interaction with CU+ chaperones and the role of transient metal-binding sites.


ABSTRACT: Cu(+)-ATPases are membrane proteins that couple the hydrolysis of ATP to the efflux of cytoplasmic Cu(+). In cells, soluble chaperone proteins bind and distribute cytoplasmic Cu(+), delivering the ion to the transmembrane metal-binding sites in the ATPase. The structure of Legionella pneumophila Cu(+)-ATPase (Gourdon, P., Liu, X. Y., Skjørringe, T., Morth, J. P., Møller, L. B., Pedersen, B. P., and Nissen, P. (2011) Nature 475, 59-64) shows that a kinked transmembrane segment forms a "platform" exposed to the cytoplasm. In addition, neighboring invariant Met, Asp, and Glu are located at the "entrance" of the ion path. Mutations of amino acids in these regions of the Archaeoglobus fulgidus Cu(+)-ATPase CopA do not affect ATPase activity in the presence of Cu(+) free in solution. However, Cu(+) bound to the corresponding chaperone (CopZ) could not activate the mutated ATPases, and in parallel experiments, CopZ was unable to transfer Cu(+) to CopA. Furthermore, mutation of a specific electronegative patch on the CopZ surface abolishes the ATPase activation and Cu(+) transference, indicating that the region is required for the CopZ-CopA interaction. Moreover, the data suggest that the interaction is driven by the complementation of the electropositive platform in the ATPase and the electronegative Cu(+) chaperone. This docking likely places the Cu(+) proximal to the conserved carboxyl and thiol groups in the entrance site that induce metal release from the chaperone via ligand exchange. The initial interaction of Cu(+) with the pump is transient because Cu(+) is transferred from the entrance site to transmembrane metal-binding sites involved in transmembrane translocation.

SUBMITTER: Padilla-Benavides T 

PROVIDER: S-EPMC3537068 | biostudies-literature | 2013 Jan

REPOSITORIES: biostudies-literature

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The mechanism of Cu+ transport ATPases: interaction with CU+ chaperones and the role of transient metal-binding sites.

Padilla-Benavides Teresita T   McCann Courtney J CJ   Argüello José M JM  

The Journal of biological chemistry 20121126 1


Cu(+)-ATPases are membrane proteins that couple the hydrolysis of ATP to the efflux of cytoplasmic Cu(+). In cells, soluble chaperone proteins bind and distribute cytoplasmic Cu(+), delivering the ion to the transmembrane metal-binding sites in the ATPase. The structure of Legionella pneumophila Cu(+)-ATPase (Gourdon, P., Liu, X. Y., Skjørringe, T., Morth, J. P., Møller, L. B., Pedersen, B. P., and Nissen, P. (2011) Nature 475, 59-64) shows that a kinked transmembrane segment forms a "platform"  ...[more]

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