Abstract
Mirolysin is a secretory protease of Tannerella forsythia, a member of the dysbiotic oral microbiota responsible for periodontitis. In this study, we show that mirolysin latency is achieved by a “cysteine-switch” mechanism exerted by Cys23 in the N-terminal profragment. Mutation of Cys23 shortened the time needed for activation of the zymogen from several days to 5 min. The mutation also decreased the thermal stability and autoproteolysis resistance of promirolysin. Mature mirolysin is a thermophilic enzyme and shows optimal activity at 65 °C. Through NMR-based fragment screening, we identified a small molecule (compound (cpd) 9) that blocks promirolysin maturation and functions as a competitive inhibitor (K i = 3.2 µM), binding to the S1′ subsite of the substrate-binding pocket. Cpd 9 shows superior specificity and does not interact with other T. forsythia proteases or Lys/Arg-specific proteases.
Highlights
Periodontitis is arguably the most prevalent infection-driven chronic inflammatory disease in humankind
Because of its chronic inflammatory and infectious character, periodontitis is associated with systemic diseases, such as rheumatoid arthritis, cardiovascular diseases, diabetes[5], aspiration pneumonia[6], and neurodegenerative diseases[7]
Zymogenicity or latency is mainly exerted by the N-terminal profragment (NTP)
Summary
Periodontitis is arguably the most prevalent infection-driven chronic inflammatory disease in humankind. It is estimated that up to 15% of adults worldwide experience severe forms of periodontitis[1,2]. In the United States alone, nearly 47% of people aged !30 years (approximately 65 million adults) suffer from this disease[3]. The progression of periodontitis is manifested by the destruction of tooth-supporting tissues. The disease can even lead to tooth loss[4]. Because of its chronic inflammatory and infectious character, periodontitis is associated with systemic diseases, such as rheumatoid arthritis, cardiovascular diseases, diabetes[5], aspiration pneumonia[6], and neurodegenerative diseases[7]
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