Production, crystallization and X-ray diffraction analysis of the protease CT441 from Chlamydia trachomatis.

The prokaryotic obligate intracellular pathogen Chlamydia trachomatis is the most prevalent cause of preventable blindness, affecting approximately six million people worldwide. In addition, C. trachomatis is the most commonly reported sexually transmitted pathogen in Europe and the US, causing pelvic inflammation, ectopic pregnancy and infertility. As in other intracellular pathogens, proteases play crucial roles during most stages of the complex life cycle of Chlamydia. CT441 is a chlamydial protease that has been reported to interfere with oestrogen signalling of the host cell. Here, the recombinant production, purification and crystallization of an inactive variant of CT441, designated CT441° (active-site Ser455 replaced by Ala), are described. CT441° was crystallized in space group P22121, with unit-cell parameters a = 86.7, b = 184.0, c = 209.6 Å. A complete diffraction data set was collected to a resolution of 2.95 Å.

Structural basis of the proteolytic and chaperone activity of Chlamydia trachomatis CT441.

Chlamydia trachomatis is the most prevalent cause of preventable blindness worldwide and a major reason for infectious infertility in females. Several bacterial factors have been implicated in the pathogenesis of C. trachomatis. Combining structural and mutational analysis, we have shown that the proteolytic function of CT441 depends on a conserved Ser/Lys/Gln catalytic triad and a functional substrate-binding site within a flexible PDZ (postsynaptic density of 95 kDa, discs large, and zonula occludens) domain. Previously, it has been suggested that CT441 is involved in modulating estrogen signaling responses of the host cell. Our results show that although in vitro CT441 exhibits proteolytic activity against SRAP1, a coactivator of estrogen receptor α, CT441-mediated SRAP1 degradation is not observed during the intracellular developmental cycle before host cells are lysed and infectious chlamydiae are released. Most compellingly, we have newly identified a chaperone activity of CT441, indicating a role of CT441 in prokaryotic protein quality control processes.