Ilona Szamosi scite author profile

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 the kinetic and structural properties of POP with mutations in loop A, loop B and in two additional flexible loops. POP lacking loop A proved to be an inefficient enzyme as did POP with a mutation in loop B (T590C). Both constructs displayed an altered substrate preference profile. Ligand binding become markedly degraded. 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 housing the catalytic histidine are disordered in the H680A mutant crystal structure, implying coordinated structural dynamics of these loops. A 17-mer peptide could not inhibit variants possessing malfunctioning loop A. This substrate may bind non-productively to an exosite involving loop A or to an open enzyme form. Biophysical studies suggest that mammalian POP resides in a predominantly closed conformational state, especially at physiological conditions. 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.

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Structure and Catalysis of Acylaminoacyl Peptidase

Harmat

Domokos

Menyhárd

et al. 2011

Journal of Biological Chemistry

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Acylaminoacyl peptidase from Aeropyrum pernix is a homodimer that belongs to the prolyl oligopeptidase family. The monomer subunit is composed of one hydrolase and one propeller domain. Previous crystal structure determinations revealed that the propeller domain obstructed the access of substrate to the active site of both subunits. Here we investigated the structure and the kinetics of two mutant enzymes in which the aspartic acid of the catalytic triad was changed to alanine or asparagine. Using different substrates, we have determined the pH dependence of specificity rate constants, the rate-limiting step of catalysis, and the binding of substrates and inhibitors. The catalysis considerably depended both on the kind of mutation and on the nature of the substrate. The results were interpreted in terms of alterations in the position of the catalytic histidine side chain as demonstrated with crystal structure determination of the native and two mutant structures (D524N and D524A). Unexpectedly, in the homodimeric structures, only one subunit displayed the closed form of the enzyme. The other subunit exhibited an open gate to the catalytic site, thus revealing the structural basis that controls the oligopeptidase activity. The open form of the native enzyme displayed the catalytic triad in a distorted, inactive state. The mutations affected the closed, active form of the enzyme, disrupting its catalytic triad. We concluded that the two forms are at equilibrium and the substrates bind by the conformational selection mechanism.

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A Self-compartmentalizing Hexamer Serine Protease from Pyrococcus Horikoshii

Menyhárd

Kiss-Szemán

Tichy-Rács

et al. 2013

Journal of Biological Chemistry

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Background: Oligopeptidases are serine proteases cleaving only short peptides. Results: The complex channel system found within a hexameric oligopeptidase presents a rigid, double-gated model for size-based substrate selection. Conclusion:The substrate selection mechanism applied by an oligopeptidase depends on its multimerization state. Significance: Degradation of cytotoxic and misfolded proteins is aided by oligopeptidases, which are thus possible targets of cancer therapy.

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Ilona Szamosi

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

Structure and Catalysis of Acylaminoacyl Peptidase

A Self-compartmentalizing Hexamer Serine Protease from Pyrococcus Horikoshii

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