LAUSR

Human indoleamine 2,3-dioxygenase 1 (IDO) is a heme enzyme that catalyzes the first reaction of the main metabolic pathway of L-tryptophan (Trp) to produce N-formylkynurenin. The reaction involves cleavage of the C2=C3 bond in the Trp indole ring and insertion of two atomic oxygens from the iron-bound O2 into the indole 2 and 3 position. For establishment of the chemical mechanism of this unique enzymatic reaction, it is necessary to determine the conformation and electronic state of the substrate Trp bound to IDO. In this study, we measured the ultraviolet resonance Raman spectra of IDO in the presence of Trp to detect the vibrational modes of the substrate Trp. We compared the ultraviolet resonace Raman spectra of Trp in a ternary complex (Trp-bound cyanide enzyme) and a binary complex (Trp-bound reduced enzyme) of IDO with that of free Trp in solution and found that binding to IDO influences the conformation of Trp, resulting in similar changes in the two complexes, especially around the C3-Cβ bond. However, the presence of the diatomic ligand at the heme sixth coordination site in the ternary complex significantly alters the mobility and electronic structure of Trp, most likely resulting in the C2=C3 bond cleavage in the enzymatic reaction.