Download MendeleyA structure-derived snap-trap mechanism of a multispecific serpin from the dysbiotic human oral microbiome.
Goulas, T., Ksiazek, M., Garcia-Ferrer, I., Sochaj-Gregorczyk, A.M., Waligorska, I., Wasylewski, M., Potempa, J., Gomis-Ruth, F.X.(2017) J Biol Chem 292: 10883-10898
- PubMed: 28512127
- DOI: https://doi.org/10.1074/jbc.M117.786533
- Primary Citation of Related Structures:
5NCS, 5NCT, 5NCU, 5NCW - PubMed Abstract:
Enduring host-microbiome relationships are based on adaptive strategies within a particular ecological niche. Tannerella forsythia is a dysbiotic member of the human oral microbiome that inhabits periodontal pockets and contributes to chronic periodontitis. To counteract endopeptidases from the host or microbial competitors, T. forsythia possesses a serpin-type proteinase inhibitor called miropin. Although serpins from animals, plants, and viruses have been widely studied, those from prokaryotes have received only limited attention. Here we show that miropin uses the serpin-type suicidal mechanism. We found that, similar to a snap trap, the protein transits from a metastable native form to a relaxed triggered or induced form after cleavage of a reactive-site target bond in an exposed reactive-center loop. The prey peptidase becomes covalently attached to the inhibitor, is dragged 75 Å apart, and is irreversibly inhibited. This coincides with a large conformational rearrangement of miropin, which inserts the segment upstream of the cleavage site as an extra β-strand in a central β-sheet. Standard serpins possess a single target bond and inhibit selected endopeptidases of particular specificity and class. In contrast, miropin uniquely blocked many serine and cysteine endopeptidases of disparate architecture and substrate specificity owing to several potential target bonds within the reactive-center loop and to plasticity in accommodating extra β-strands of variable length. Phylogenetic studies revealed a patchy distribution of bacterial serpins incompatible with a vertical descent model. This finding suggests that miropin was acquired from the host through horizontal gene transfer, perhaps facilitated by the long and intimate association of T. forsythia with the human gingiva.
Organizational Affiliation:
From the Proteolysis Lab, Structural Biology Unit, María de Maeztu Unit of Excellence, Molecular Biology Institute of Barcelona, Consejo Superior de Investigaciones Científicas, 08028 Barcelona, Spain.
