Kinetic studies on the successive reaction of neuronal nitric oxide synthase from L-arginine to nitric oxide and L-citrulline.

Rat neuronal nitric oxide synthase (nNOS) was heterologously expressed in Escherichia coliand purified. The conversion of L-arginine to N(omega)-hydroxy-L-arginine and further to L-citrulline in one cycle of the reaction of the purified nNOS was measured with the reaction rapid quenching method using (3)H-L-arginine as the substrate. It was found that most of the produced (3)H-N(omega)-hydroxy-L-arginine was successively hydroxylated to (3)H-L-citrulline without leaving the enzyme. From the analysis of time courses, the rate constants for each reaction step, and also for the dissociation of the intermediate, were estimated at various temperature in which the rates for the first and the second reactions were not much different each other but the rate for the dissociation of (3)H-N(omega)-hydroxy-L-arginine from the enzyme was significantly slow. Under the steady-state reaction condition, almost all of the nNOS was estimated to be active from the amount of burst formation of L-citrulline in the pre-steady state. The rate constant for the dissociation of the product L-citrulline from nNOS was calculated from the combination of results of the rapid quenching experiments and the metabolism of L-arginine in the presence of an excess amount of substrate, which was the smallest among all the rate constants in one cycle of the nNOS reaction. The activation energies for all the reaction steps were determined from the temperature dependence of the rate constants, which revealed that the rate-determining step of the nNOS reaction in the steady state was the dissociation of the product L-citrulline from the enzyme.