Functional consequences of various leucine mutations in the M3/M4 loop of the Na⁺,K⁺-ATPase α-subunit

Leucines were mutated within the sequence L³¹¹ILGYTWLE ³¹⁹ of the extracellular loop flanking the third (M3) and fourth (M4) transmembrane segments (M3/M4 loop) of the Torpedo Na⁺,K ⁺-ATPase α-subunit. Replacement of Leu³¹¹ with Glu resulted in a considerable loss of Na⁺,K⁺-ATPase activity. Replacement of Leu³¹³ with Glu shifted the equilibrium of E ₁P and E₂P toward E₁P and reduced the rate of the E₁P to E₂P transition. The reduction of the transition rate and stronger inhibition of Na⁺,K⁺-ATPase activity by Na⁺ at higher concentrations together suggest that there is interference of Na⁺ release on the extracellular side in the Leu ³¹³ mutant. Thus, Leu³¹³ could be in the pathway of Na⁺ exit. Replacement of Leu³¹⁸ with Glu yielded an enzyme with significantly reduced apparent affinity for both vanadate and K ⁺, with an equilibrium shifted toward E₂P and no alteration in the transition rate. The reduced vanadate affinity is due to the lower rate of production of vanadate-reactive [K⁺ ₂]E ₂ caused by inhibition of dephosphorylation through reduction of the K⁺ affinity of E₂P. Thus, Leu³¹⁸ may be a critical position in guiding external K⁺ to its binding site.