Functional consequences of alterations to Pro328 and Leu332 located in the 4th transmembrane segment of the α‐subunit of the rat kidney Na+,K+‐ATPase

Abstract

Site-specific mutagenesis was used to analyse the functional roles of the residues Pro³²⁸ and Leu³³² located in the conserved PEGLL motif of the predicted transmembrane helix M4 in the α₁-subunit of the ouabain resistant rat kidney Na⁺,K⁺-ATPase. cDNAs encoding either of the Na⁺,K⁺-ATPase mutants Pro³²⁸→Ala and Leu³³²→Ala, and wild type, were cloned into the expression vector pMT2 and transfected into COS-1 cells. Ouabain-resistant clones growing in the presence of 10 μM ouabain were isolated, and the Na⁺, K⁺, ATP and pH dependencies of the Na⁺,K⁺-ATPase activity measured in the presence of 10 μM ouabain were analysed. Under these conditions the exogenous expressed Na⁺,K⁺-ATPase contributed more than 95% of the Na⁺,K⁺-ATPase activity. The Pro³²⁸→Ala mutant displayed a reduced apparent affinity for Na⁺ (K _0.5 (Na⁺) 13.04 mM), relative to the wild type (K _0.5 (Na⁺) 7.13 mM). By contrast, the apparent affinity for Na⁺ displayed by the Leu ³³²→Ala mutant was increased (K _0.5 (Na⁺) 3.92 mM). Either of the mutants exhibited lower apparent affinity for K⁺ relative to the wild type (K _0.5 (K⁺) 2.46 mM for Pro³²⁸→Ala and 1.97 mM for Leu³³²→Ala, compared with 0.78 mM for wild type). Both mutants exhibited higher apparent affinity for ATP than the wild type (K _0.5 (ATP) 0.086 mM for Pro³²⁸→Ala and 0.042 mM for Leu³³²→Ala, compared with 0.287 mM for wild type). The influence of pH was in accordance with an acceleration of the E2 (K)→E1 transition in the mutants relative to the wild type. These data are consistent with a role of Pro³²⁸ and Leu³³² in the stabilization of the E2 form and of Pro³²⁸ in Na⁺ binding. The possible role of the mutated residues in K⁺ binding is discussed.