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

Biology

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

N. Salustros, C. Grønberg, et al.

Discover how a copper-specific P1B-ATPase operates in an E1 conformation to facilitate copper export while avoiding toxicity. This illuminating research from Nina Salustros, Christina Grønberg, and their esteemed colleagues uncovers the structural secrets of metal transport crucial for human health.... show more
Abstract
Copper is essential for living cells, yet toxic at elevated concentrations. Class 1B P-type (P1B-) 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 P1B-ATPases, hampering mechanistic understanding. Here, we present structures that reach 2.7 Å resolution of a copper-specific P1B-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 P1B-mediated transport, likely applicable also to human P1B-members.
Publisher
Nature Communications
Published On
Aug 31, 2022
Authors
Nina Salustros, Christina Grønberg, Nisansala S. Abeyrathna, Pin Lyu, Fredrik Orädd, Kaituo Wang, Magnus Andersson, Gabriele Meloni, Pontus Gourdon
DOI
https://doi.org/10.1038/s41467-022-32751-w
Tags
copper transport
P1B-ATPases
ion-donating chaperones
E1 conformation
metal export
cargo entry
structural biology

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