A single amino acid residue regulates the substrate affinity and specificity of indoleamine 2,3-dioxygenase

Indoleamine 2,3-dioxygenase (IDO) is a heme-containing enzyme that catalyses the oxidative cleavage of L-Trp. The ciliate Blepharisma stoltei has four IDO genes (IDO-I, -II, -III and -IV), which seem to have evolved via two sequential gene duplication events. Each IDO enzyme has a distinct enzymatic property, where IDO-III has a high affinity for L-Trp, whereas the affinity of the other three isoforms for L-Trp is low. IDO-I also exhibits a significant catalytic activity with another indole compound: 5-hydroxy-l-tryptophan (5-HTP). IDO-I is considered to be an enzyme that is involved in the biosynthesis of the 5-HTP-derived mating pheromone, gamone 2. By analysing a series of chimeric enzymes based on extant and predicted ancestral enzymes, we identified Asn131 in IDO-I and Glu132 in IDO-III as the key residues responsible for their high affinity for each specific substrate. These two residues were aligned in an identical position as the substrate-determining residue (SDR). Thus, the substrate affinity and specificity are regulated mostly by a single amino acid residue in the Blepharisma IDO-I and IDO-III enzymes. •Asn131 in Blepharisma IDO-I is crucial for its specific affinity for 5-HTP.•Glu132 in Blepharisma IDO-III is crucial for its high affinity for L-Trp.•Both residues are aligned in an identical position referred to as the SDR.•The substrate affinity of Blepharisma IDOs is regulated mostly by the SDR.