Structural and kinetic characterization of Porphyromonas gingivalis glutaminyl cyclase.

Porphyromonas gingivalis is a bacterial species known to be involved in the pathogenesis of chronic periodontitis, that more recently has been as well associated with Alzheimer's disease. P. gingivalis expresses a glutaminyl cyclase (PgQC) whose human ortholog is known to participate in the beta amyloid peptide metabolism. We have elucidated the crystal structure of PgQC at 1.95 Å resolution in unbound and in inhibitor-complexed forms. The structural characterization of PgQC confirmed that PgQC displays a mammalian fold rather than a bacterial fold. Our biochemical characterization indicates that PgQC uses a mammalian-like catalytic mechanism enabled by the residues Asp149, Glu182, Asp183, Asp218, Asp267 and His299. In addition, we could observe that a non-conserved Trp193 may drive differences in the binding affinity of ligands which might be useful for drug development. With a screening of a small molecule library, we have identified a benzimidazole derivative rendering PgQC inhibition in the low micromolar range that might be amenable for further medicinal chemistry development.

Mycobacterium tuberculosis puromycin hydrolase displays a prolyl oligopeptidase fold and an acyl aminopeptidase activity.

Puromycin-hydrolizing peptidases have been described as members of the prolyl oligopeptidase peptidase family. These enzymes are present across all domains of life but still little is known of the homologs found in the pathogenic bacterium Mycobacterium tuberculosis. The crystal structure of a M. tuberculosis puromycin hydrolase peptidase has been determined at 3 Angstrom resolution, revealing a conserved prolyl oligopeptidase fold, defined by α/ß-hydrolase and ß-propeller domains with two distinctive loops that occlude access of large substrates to the active site. The enzyme displayed amino peptidase activity with a substrate specificity preference for hydrophobic residues in the decreasing order of phenylalanine, leucine, alanine and proline. The enzyme's active site is lined by residues Glu564 for the coordination of the substrates amino terminal moiety and His561, Val608, Tyr78, Trp306, Phe563 and Ty567 for the accommodation of hydrophobic substrates. The availability of a crystal structure for puromycin hydrolase of M. tuberculosis shall facilitate the development of inhibitors with therapeutic applications.