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Achieving Functionality Through Modular Build-up: Structure and Size Selection of Serine Oligopeptidases

[ Vol. 20 , Issue. 11 ]

Author(s):

Anna J. Kiss-Szemán*, Veronika Harmat and Dóra K. Menyhárd   Pages 1089 - 1101 ( 13 )

Abstract:


Enzymes of the prolyl oligopeptidase family (S9 family) recognize their substrates not only by the specificity motif to be cleaved but also by size - they hydrolyze oligopeptides smaller than 30 amino acids. They belong to the serine-protease family, but differ from classical serine-proteases in size (80 kDa), structure (two domains) and regulation system (size selection of substrates). This group of enzymes is an important target for drug design as they are linked to amnesia, schizophrenia, type 2 diabetes, trypanosomiasis, periodontitis and cell growth. By comparing the structure of various members of the family we show that the most important features contributing to selectivity and efficiency are: (i) whether the interactions weaving the two domains together play a role in stabilizing the catalytic triad and thus their absence may provide for its deactivation: these oligopeptidases can screen their substrates by opening up, and (ii) whether the interaction-prone β-edge of the hydrolase domain is accessible and thus can guide a multimerization process that creates shielded entrance or intricate inner channels for the size-based selection of substrates. These cornerstones can be used to estimate the multimeric state and selection strategy of yet undetermined structures.

Keywords:

Oligopeptidase, oligopeptide hydrolysis, acylaminoacyl-peptidase, acylpeptide hydrolase, β-edge aggregation, substrate selection, multimerization, substrate access.

Affiliation:

Laboratory of Structural Chemistry and Biology, Institute of Chemistry, Eotvos Lorand University, Budapest, Laboratory of Structural Chemistry and Biology, Institute of Chemistry, Eotvos Lorand University, Budapest, MTA-ELTE Protein Modelling Research Group, Eotvos Lorand University, Budapest

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