Structure of the Two Transmembrane Cu+ Transport Sites of the Cu+-ATPases

Cu+-ATPases drive metal efflux from the cell cytoplasm. Paramount to this function is the binding of Cu+ within the transmembrane region and its coupled translocation across the permeability barrier. Here, we describe the two transmembrane Cu+ transport sites present in Archaeoglobus fulgidus CopA. Both sites can be independently loaded with Cu+. However, their simultaneous occupation is associated with enzyme turnover. Site I is constituted by two Cys in transmembrane segment (TM) 6 and a Tyr in TM7. An Asn in TM7 and Met and Ser in TM8 form Site II. Single site x-ray spectroscopic analysis indicates a trigonal coordination in both sites. This architecture is distinct from that observed in Cu+-trafficking chaperones and classical cuproproteins. The high affinity of these sites for Cu+ (Site I K-a = 1.3 fM(-1), Site II K-a = 1.1 fM(-1)), in conjunction with reversible direct Cu+ transfer from chaperones, points to a transport mechanism where backward release of free Cu+ to the cytoplasm is largely prevented.