Rapid modulation of nitrate reductase in leaves and roots: Indirect evidence for the involvement of protein phosphorylation/dephosphorylation

Nitrate reductase activity (NRA; NADH-nitrate reductase, E. C. 1.6.6.1) has been measured in extracts from leaves of spinach ( Spinacia oleracea L.) in response to rapid changes in illumination, or supply of CO₂ or oxygen. Measured in buffers containing magnesium, NRA from leaves decreased in the dark and increased again upon illumination. It decreased also, when CO₂ was removed in continuous light, and was reactivated when CO₂ was added. Nitrate reductase (NR) from roots of pea ( Pisum sativum L.) was also rapidly modulated in vivo. It increased under anaerobiosis and decreased in air or pure oxygen. The half time for inactivation or reactivation in roots and leaves was 5 to 30 min.
When spinach leaves were harvested during a normal day/night cycle, extractable NRA was low during the night, and high during daytime. However, at any point of the diurnal cycle, NR could be brought to a similar maximum activity by preincubation of the desalted leaf extract with AMP and/or EDTA. Thus, the observed diurnal changes appeared to be mainly a consequence of enzyme modulation, not of protein turnover. In vivo, the reactivation of the inactivated enzyme from both leaves and roots was prevented by okadaic acid, and inhibitor of certain protein phosphatases. Artificial lowering of the ATP-levels in leaf or root tissues by anaerobiosis (dark), mannose or the uncoupler carbonyl cyanide m -chlorophenyl hydrazon (CCCP), always brought about full activation of NR.
By preincubating crude leaf or root extracts with MgATP, NR was inactivated in vitro. Partial purification from spinach leaves of two enzymes with molecular masses in the 67 kD and 100 kD range, respectively, is reported. Both participate in the ATP-dependent inactivation of NR.
Alltogether these data indicate that NR can be rapidly modulated by reversible protein phosphorylation/dephosphorylation, both in shoots and in roots.