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2000:
Middleton D A; Rankin S; Esmann M; Watts A
Structural insights into the binding of cardiac glycosides to the digitalis receptor revealed by solid-state NMR.
Proceedings of the National Academy of Sciences of the United States of America 2000;
97(
25):.
Several biologically active derivatives of the cardiotonic steroid ouabain have been made containing NMR isotopes ((13)C, (2)H, and (19)F) in the rhamnose sugar and steroid moieties, and examined at the digitalis receptor site of renal Na(+)/K(+)-ATPase by a combination of solid-state NMR methods. Deuterium NMR spectra of (2)H-labeled inhibitors revealed that the sugar group was only loosely associated with the binding site, whereas the steroid group was more constrained, probably because of hydrogen bonding to residues around the K(+)-channel region. Crosspolarization magic-angle spinning NMR showed that chemical shifts of inhibitors (13)C-labeled in the sugar group moved downfield by 0.5 ppm after binding to the digitalis site, suggesting that the sugar was close to aromatic side groups. A (19)F, (13)C- rotational-echo double-resonance NMR strategy was used to determine the structure of an inhibitor in the digitalis receptor site, and it showed that the ouabain derivatives adopt a conformation in which the sugar extends out of the plane of the steroid ring system. The combined structural and dynamic information favors a model for inhibition in which the ouabain analogues lie across the surface of the Na(+)/K(+)-ATPase alpha-subunit with the sugar group facing away from the surface of the membrane but free to move into contact with one or more aromatic residues.
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