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Structure of the Chlamydia trachomatis Immunodominant Antigen Pgp3

2013; Elsevier BV; Volume: 288; Issue: 30 Linguagem: Inglês

10.1074/jbc.m113.475012

1083-351X

Ahmad Galaleldeen, A.B. Taylor, Chen Ding, Jonathan P. Schuermann, S. Holloway, Shuping Hou, Siqi Gong, Guangming Zhong, P. John Hart,

Toxin Mechanisms and Immunotoxins

Chlamydia trachomatis infection is the most common sexually transmitted bacterial disease. Left untreated, it can lead to ectopic pregnancy, pelvic inflammatory disease, and infertility. Here we present the structure of the secreted C. trachomatis protein Pgp3, an immunodominant antigen and putative virulence factor. The ∼84-kDa Pgp3 homotrimer, encoded on a cryptic plasmid, consists of globular N- and C-terminal assemblies connected by a triple-helical coiled-coil. The C-terminal domains possess folds similar to members of the TNF family of cytokines. The closest Pgp3 C-terminal domain structural homologs include a lectin from Burkholderia cenocepacia, the C1q component of complement, and a portion of the Bacillus anthracis spore surface protein BclA, all of which play roles in bioadhesion. The N-terminal domain consists of a concatenation of structural motifs typically found in trimeric viral proteins. The central parallel triple-helical coiled-coil contains an unusual alternating pattern of apolar and polar residue pairs that generate a rare right-handed superhelical twist. The unique architecture of Pgp3 provides the basis for understanding its role in chlamydial pathogenesis and serves as the platform for its optimization as a potential vaccine antigen candidate.Background: Pgp3 is an immunogenic protein secreted by Chlamydia trachomatis.Results: The trimeric Pgp3 structure reveals globular domains connected by a triple helical coiled-coil.Conclusion: The C-terminal domains resemble tumor necrosis factor, the helical coiled-coil has an unusual twist, and the N-terminal domain is a fusion of virus-like structural motifs.Significance: The Pgp3 structure provides insight into its role in chlamydial pathogenesis. Chlamydia trachomatis infection is the most common sexually transmitted bacterial disease. Left untreated, it can lead to ectopic pregnancy, pelvic inflammatory disease, and infertility. Here we present the structure of the secreted C. trachomatis protein Pgp3, an immunodominant antigen and putative virulence factor. The ∼84-kDa Pgp3 homotrimer, encoded on a cryptic plasmid, consists of globular N- and C-terminal assemblies connected by a triple-helical coiled-coil. The C-terminal domains possess folds similar to members of the TNF family of cytokines. The closest Pgp3 C-terminal domain structural homologs include a lectin from Burkholderia cenocepacia, the C1q component of complement, and a portion of the Bacillus anthracis spore surface protein BclA, all of which play roles in bioadhesion. The N-terminal domain consists of a concatenation of structural motifs typically found in trimeric viral proteins. The central parallel triple-helical coiled-coil contains an unusual alternating pattern of apolar and polar residue pairs that generate a rare right-handed superhelical twist. The unique architecture of Pgp3 provides the basis for understanding its role in chlamydial pathogenesis and serves as the platform for its optimization as a potential vaccine antigen candidate. Background: Pgp3 is an immunogenic protein secreted by Chlamydia trachomatis. Results: The trimeric Pgp3 structure reveals globular domains connected by a triple helical coiled-coil. Conclusion: The C-terminal domains resemble tumor necrosis factor, the helical coiled-coil has an unusual twist, and the N-terminal domain is a fusion of virus-like structural motifs. Significance: The Pgp3 structure provides insight into its role in chlamydial pathogenesis.