Methionine residues lining the substrate pathway in prolyl oligopeptidase from Pleurotus eryngii play an important role in substrate recognition.

Family S9 prolyl oligopeptidases (POPs) are of interest as pharmacological targets. We recently found that an S9 POP from Pleurotus eryngii showed altered substrate specificity following HO treatment. Oxidation of Met203 on the non-catalytic β-propeller domain resulted in decreased activity toward non-aromatic aminoacyl-para-nitroanilides (pNAs) while maintaining its activity toward aromatic aminoacyl-pNAs. Given that the other Met residues should also be oxidized by HO treatment, we constructed mutants in which all the Met residues were substituted with other amino acids. Analysis of the mutants showed that Met570 in the catalytic domain is another potent residue for the altered substrate specificity following oxidation. Met203 and Met570 lie on the surfaces of two different domains and form part of a funnel from the surface to the active center. Our findings indicate that the funnel forms the substrate pathway and plays a role in substrate recognition.