AI Article Synopsis

  • - Chlamydia trachomatis, a common cause of sexually transmitted infections, uses a protease called CPAF which degrades host molecules and is crucial for its pathogenicity.
  • - The mature form of CPAF consists of two identical catalytic units, and it remains inactive due to an internal segment that prevents its activation and dimerization.
  • - Activation of CPAF involves a process called trans-autocatalytic cleavage, leading to structural changes that enable its full activity, and this mechanism may open new avenues for developing treatments against Chlamydia.

Article Abstract

The obligate intracellular pathogen Chlamydia trachomatis is the most common cause of sexually transmitted bacterial disease. It secretes a protease known as chlamydial protease/proteasome-like activity factor (CPAF) that degrades many host molecules and plays a major role in Chlamydia pathogenesis. Here, we show that mature CPAF is a homodimer of the catalytic domains, each of which comprises two distinct subunits. Dormancy of the CPAF zymogen is maintained by an internal inhibitory segment that binds the CPAF active site and blocks its homodimerization. CPAF activation is initiated by trans-autocatalytic cleavage, which induces homodimerization and conformational changes that assemble the catalytic triad. This assembly leads to two autocatalytic cleavages and removal of the inhibitory segment, enabling full CPAF activity. CPAF is covalently bound and inhibited by the proteasome inhibitor lactacystin. These results reveal the activation mechanism of the CPAF serine protease and suggest new opportunities for anti-Chlamydia drug development.

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Source
http://dx.doi.org/10.1016/j.chom.2008.10.005DOI Listing

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