Control of glutamate dehydrogenase from Lemna minor by divalent metal ions

The NADH and NAD⁺ dependent reactions catalyzed by glutamate dehydrogenase (GDH) from sterile cultures of Lemna minor are completely inactivated by EDTA. The activities of both reactions can be fully restored by addition of Ca²⁺ and to a lesser extent Mn²⁺, Zn²⁺, Sr²⁺ or La³⁺, whereas Mg²⁺ reactivates only the NAD⁺ dependent reaction. Activation of the NADH reaction by Ca²⁺ has been studied by using partially purified, EDTA pretreated, and Mg²⁺ saturated GDH preparations. Saturation kinetic curves with Ca²⁺ were always sigmoidal, whereas saturation plots for the 3 substrates of the aminating reaction at various fixed Ca²⁺ concentrations showed normal Michaelis kinetics. However, a pronounced substrate inhibition at low Ca²⁺ levels was found, particularly with NH₄⁺ and NADH. Product inhibition studies revealed unchanged enzyme substrate binding characteristics for NADH and 2-oxoglutarate in the Ca²⁺ free enzyme. A drastic alteration was established for the third substrate NH₄⁺. The kinetic data suggest that Ca²⁺ governs an equilibrium between a catalytically inactive (Ca²⁺ free) and an active (Ca²⁺ saturated) enzyme form. Inactivation by removal of Ca²⁺ is related to an alteration in the binding characteristics or binding sequence of the substrate NH₄⁺.