Structural basis of ion uptake in copper-transporting P1B-type ATPases

Nina Salustros, Christina Gronberg, Nisansala S. Abeyrathna, Pin Lyu, Fredrik Oradd, Kaituo Wang, Magnus Andersson, Gabriele Meloni, Pontus Gourdon*

*Corresponding author for this work

Research output: Contribution to journalJournal articleResearchpeer-review

12 Citations (Scopus)
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Abstract

P-1B-type ATPases export excess transition metals from cells. Here, the authors report a molecular structure of CopA, a coppertransporting P-1B-ATPase from A. fulgidus, in an inward-facing E1 conformation.

Copper is essential for living cells, yet toxic at elevated concentrations. Class 1B P-type (P-1B-) ATPases are present in all kingdoms of life, facilitating cellular export of transition metals including copper. P-type ATPases follow an alternating access mechanism, with inward-facing E1 and outward-facing E2 conformations. Nevertheless, no structural information on E1 states is available for P-1B-ATPases, hampering mechanistic understanding. Here, we present structures that reach 2.7 angstrom resolution of a copper-specific P-1B-ATPase in an E1 conformation, with complementing data and analyses. Our efforts reveal a domain arrangement that generates space for interaction with ion donating chaperones, and suggest a direct Cu+ transfer to the transmembrane core. A methionine serves a key role by assisting the release of the chaperone-bound ion and forming a cargo entry site together with the cysteines of the CPC signature motif. Collectively, the findings provide insights into P-1B-mediated transport, likely applicable also to human P-1B-members.

Original languageEnglish
Article number5121
JournalNature Communications
Volume13
Issue number1
Number of pages11
ISSN2041-1723
DOIs
Publication statusPublished - 2022

Keywords

  • METAL-BINDING DOMAINS
  • MOLECULAR-DYNAMICS
  • CU+
  • MECHANISM
  • PUMP
  • PHOSPHATE
  • SITES
  • COPA

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