Importance of Conserved α-Subunit Segment709GDGVND for Mg2+ Binding, Phosphorylation, and Energy Transduction in Na,K-ATPase

Abstract

The segment (708)TGDGVNDSPALKK(720) in the alpha-subunit P domain of Na,K-ATPase is highly conserved among cation pumps, but little is known about its role in binding of Mg(2+) or ATP and energy transduction. Here, 11 mutations of polar residues are expressed at reduced temperature in yeast with preserved capacities for high affinity binding of ouabain and ATP, whereas the Thr(708) --> Ser mutation and alterations of Asp(714) abolish all catalytic reactions. In mutations of Asp(710) and Asn(713), ATP affinity is preserved or increased, whereas Na,K-ATPase activity is severely reduced. Assay of phosphorylation from ATP in the presence of oligomycin shows that Asp(710) contributes to coordination of Mg(2+) during transfer of gamma-phosphate to Asp(369) in the high energy Mg.E(1)P[3Na] intermediate and that Asn(713) is involved in these processes. In contrast, Asp(710) and Asp(713) do not contribute to Mg(2+) binding in the E(2)P.ouabain complex. Transition to E(2)P thus involves a shift of Mg(2+) coordination away from Asp(710) and Asn(713), and the two residues become more important for hydrolysis of the acyl phosphate bond at Asp(369). The Asp(710) --> Ala mutation blocks interaction with vanadate, whereas Asn(713) --> Ala interferes with phosphorylation from P(i) of the E(2).ouabain complex, showing that the GDGVND segment is required for stabilization of the transition state and for the phosphorylation reaction. The Asp(710) --> Ala mutation also interferes with transmission of structural changes to the ouabain site and reduces the affinity for binding of Tl(+) 2- to 3-fold, suggesting a role in transmission of K(+) stimulation of phospho-enzyme hydrolysis from transmembrane segment 5 to the P domain.