Email this page

Print this page

Article Addendum

Visualizing the mapped ion pathway through the Na,K-ATPase pump

Ayako Takeuchi, Nicolás Reyes, Pablo Artigas and David C. Gadsby

This is an open-access article

 Download PDF

If the document does not open, please right-click on the link (control-click on a Macintosh) and select the option to save the file to disk.

The Na+,K+-ATPase pump achieves thermodynamically uphill exchange of cytoplasmic Na+ ions for extracellular K+ ions by using ATP-mediated phosphorylation, followed by autodephosphorylation, to power conformational changes that allow ion access to the pump's binding sites from only one side of the membrane at a time. Formally, the pump behaves like an ion channel with two tightly coupled gates that are constrained to open and close alternately. The marine agent palytoxin disrupts this coupling, allowing both gates to sometimes be open, so temporarily transforming a pump into an ion channel. We made a cysteine scan of Na+,K+-ATPase transmembrane (TM) segments TM1 to TM6, and used recordings of Na+ current flow through palytoxin-bound pump-channels to monitor accessibility of introduced cysteine residues via their reaction with hydrophilic methanethiosulfonate (MTS) reagents. To visualize the open-channel pathway, the reactive positions were mapped onto a homology model of Na+,K+-ATPase based on the structure of the related sarcoplasmic- and endoplasmic-reticulum (SERCA) Ca2+-ATPase in a BeF3--trapped state1,2, in which the extra-cytoplasmic gate is wide open (although the cytoplasmic access pathway is firmly shut). The results revealed a single unbroken chain of reactive positions that traverses the pump from the extracellular surface to the cytoplasm, comprises residues from TM1, TM2, TM4, and TM6, and passes through the equivalent of cation binding site II in SERCA, but not through site I. Cavity search analysis of the homology model validated its use for mapping the data by yielding a calculated extra-cytoplasmic pathway surrounded by MTS-reactive residues. As predicted by previous experimental results, that calculated extra-cytoplasmic pathway abruptly broadens above residue T806, at the outermost end of TM6 which forms the floor of the extracellular-facing vestibule. These findings provide a structural basis for further understanding cation translocation by the Na+,K+-ATPase and by other P-type pumps like the Ca2+- and H+,K+-ATPases.

Takeuchi A, Reyes N, Artigas P and Gadsby DC. The ion pathway through the opened Na+,K+-ATPase pump. Nature 2008; 456:413-416; PMCID: PMC2585603; NIHMSID: NIHMS67293.

Authors

Ayako Takeuchi

Kyoto University Graduate School of Medicine; Kyoto, Japan

Nicolás Reyes

Weill Medical College of Cornell University; New York, NY USA

Pablo Artigas

Texas Tech University Health Science Center; Lubbock, TX USA

David C. Gadsby Corresponding author: gadsby@rockefeller.edu

Rockefeller University; New York, NY USA

This is an open-access article

 Download PDF

If the document does not open, please right-click on the link (control-click on a Macintosh) and select the option to save the file to disk.