The mode of activation by potassium of potassium-dependent and ouabain-sensitive phosphatase activity.

A new simple procedure has been developed for the purification of plasma membranes from rabbit kidney microsomes which yields a three- to fourfold increase in the specific activity of Na⁺-K⁺-adenosine triphosphatase (ATPase). The procedure differs from previous methods with deoxycholate or other detergents and does not change the molecular activity of the ATPase. The K⁺-dependent p-nitrophenylphosphatase activity of the native Na⁺-K⁺-ATPase is controlled more effectively by Mg²⁺ in the presence of K⁺ at concentrations higher than that of Mg²⁺, and by K⁺ in the presence of Mg²⁺ at concentrations higher than that of K⁺. The enzyme in its Mg²⁺-regulating state, which shows K⁺-saturation curves with a Hill coefficient of 1, is less sensitive to ouabain (I_0.5 = 90 μM) and corresponds to the enzyme conformation reported previously which is inhibited by the concurrent presence of Na⁺ and ATP or of Na⁺ and oligomycin (I_0.5 is the midpoint of the saturation curve). The enzyme in its K⁺-regulating state, which shows K⁺-saturation curves with a Hill coefficient of 2, is more sensitive to ouabain inhibition (I₀₅ = 8 μM) and corresponds to the enzyme conformation which is stimulated by the concurrent presence of Na⁺ and ATP or of Na⁺ and oligomycin. There appear to be two conformations of the enzyme that are regulated by Mg²⁺ binding on the inhibitory sites of the enzyme.