Biochemical and Biophysical Research Communications, Vol.487, No.2, 356-361, 2017
Effect of oxidation of the non-catalytic beta-propeller domain on the substrate specificity of prolyl oligopeptidase from Pleurotus eryngii
Enzymes belonging to the S9 family of prolyl oligopeptidases are of interest because of their pharmacological importance and have a non-catalytic beta-propeller domain. In this study, we found that the oxidation of Met203, which lies on surface of the beta-propeller domain, leads to change in the substrate specificity of eryngase, an enzyme from Pleurotus eryngii and a member of the S9 family of prolyl oligopeptidases. The activity of eryngase for L-Phe-p-nitroanilide was maintained following hydrogen peroxide treatment but was dramatically reduced for other p-nitroanilide substrates. MALDI-TOF MS analysis using tryptic peptides of eryngase indicated that the change in substrate specificity was triggered by oxidizing Met203 to methionine sulfoxide. In addition, mutations of Met203 to smaller residues provided specificities similar to those observed following oxidation of the wild-type enzyme. Substitution of Met203 with Phe significantly decreased activity, indicating that Met203 may be involved in substrate gating. (C) 2017 Elsevier Inc. All rights reserved.
Keywords:Prolyl oligopeptidase;Substrate specificity;Sulfoxidation;beta-propeller domain;Site-specific mutation