Loading…

The loops facing the active site of prolyl oligopeptidase are crucial components in substrate gating and specificity

Prolyl oligopeptidase (POP) has emerged as a drug target for neurological diseases. A flexible loop structure comprising loop A (res. 189–209) and loop B (res. 577–608) at the domain interface is implicated in substrate entry to the active site. Here we determined kinetic and structural properties o...

Full description

Saved in:
Bibliographic Details
Published in:Biochimica et biophysica acta 2013-01, Vol.1834 (1), p.98-111
Main Authors: Szeltner, Zoltán, Juhász, Tünde, Szamosi, Ilona, Rea, Dean, Fülöp, Vilmos, Módos, Károly, Juliano, Luiz, Polgár, László
Format: Article
Language:English
Subjects:
Citations: Items that this one cites
Items that cite this one
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:Prolyl oligopeptidase (POP) has emerged as a drug target for neurological diseases. A flexible loop structure comprising loop A (res. 189–209) and loop B (res. 577–608) at the domain interface is implicated in substrate entry to the active site. Here we determined kinetic and structural properties of POP with mutations in loop A, loop B, and in two additional flexible loops (the catalytic His loop, propeller Asp/Glu loop). POP lacking loop A proved to be an inefficient enzyme, as did POP with a mutation in loop B (T590C). Both variants displayed an altered substrate preference profile, with reduced ligand binding capacity. Conversely, the T202C mutation increased the flexibility of loop A, enhancing the catalytic efficiency beyond that of the native enzyme. The T590C mutation in loop B increased the preference for shorter peptides, indicating a role in substrate gating. Loop A and the His loop are disordered in the H680A mutant crystal structure, as seen in previous bacterial POP structures, implying coordinated structural dynamics of these loops. Unlike native POP, variants with a malfunctioning loop A were not inhibited by a 17-mer peptide that may bind non-productively to an exosite involving loop A. Biophysical studies suggest a predominantly closed resting state for POP with higher flexibility at the physiological temperature. The flexible loop A, loop B and His loop system at the active site is the main regulator of substrate gating and specificity and represents a new inhibitor target. ► The substrate gating mechanism of POP was investigated via protein engineering. ► The mutations markedly changed specificity, catalytic power and inhibitor binding. ► The interaction of loop A with the N-terminus controls substrate gating.
ISSN:1570-9639
0006-3002
1878-1454
DOI:10.1016/j.bbapap.2012.08.012