Arturo Centurión-Lara scite author profile

Background Strain typing is a tool for determining diversity and epidemiology of infections. Methods T. pallidum DNA was isolated from 158 syphilis patients from the US, China, Ireland, and Madagascar and from 15 T. pallidum isolates. Six typing targets were assessed: 1) number of 60 bp repeats in acidic repeat protein gene; 2) restriction fragment length polymorphism (RFLP) analysis of T. pallidum repeat (tpr) subfamily II genes; 3) RFLP analysis of tprC gene; 4) determination of tprD allele in tprD gene locus; 5) presence of 51 bp insertion between tp0126/tp0127; 6) sequence analysis of 84 bp region of tp0548. The combination of #1 and #2 comprises the CDC T. pallidum subtyping method. Results Adding sequence analysis of tp0548 to the CDC method yielded the most discriminating typing system. Twenty-four strain types were identified and designated as CDC subtype/tp0548 sequence. Type 14d/f was seen in 5 of 6 locations. In Seattle, strain types changed from 1999– 2008 (p<0.001). Twenty-two (50%) of 44 patients infected with type 14d/f had neurosyphilis compared to 9 (23%) of 39 infected with the other types combined (p=0.01). Conclusion We describe an enhanced T. pallidum strain typing system that shows biological and clinical relevance.

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Treponema pallidum Major Sheath Protein Homologue Tpr K Is a Target of Opsonic Antibody and the Protective Immune Response

Centurión-Lara

et al. 1999

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We have identified a family of genes that code for targets for opsonic antibody and protective immunity in T. pallidum subspecies pallidum using two different approaches, subtraction hybridization and differential immunologic screening of a T. pallidum genomic library. Both approaches led to the identification of a polymorphic multicopy gene family with predicted amino acid homology to the major sheath protein of Treponema denticola. One of the members of this gene family, tpr K, codes for a protein that is predicted to have a cleavable signal peptide and be located in the outer membrane of the bacterium. Reverse transcription polymerase chain reaction analysis of T. pallidum reveals that Tpr K is preferentially transcribed in the Nichols strain of T. pallidum. Antibodies directed to purified recombinant variable domain of Tpr K can opsonize T. pallidum, Nichols strain, for phagocytosis, supporting the hypothesis that this portion of the protein is exposed at the surface of the treponeme. Immunization of rabbits with the purified recombinant variable domain of Tpr K provides significant protection against infection with the Nichols strain of T. pallidum. This gene family is hypothesized to be central to pathogenesis and immunity during syphilis infection.

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Gene conversion: a mechanism for generation of heterogeneity in the tprK gene of Treponema pallidum during infection

Centurión-Lara

LaFond

Hevner

et al. 2004

Molecular Microbiology

143

188

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SummaryThe tprK gene sequence of Treponema pallidum subspecies pallidum ( T. pallidum ) is heterogeneous within and among isolates. Heterogeneity in the tprK open reading frame is localized in seven discrete variable (V) regions, and variability results from apparent base changes, insertions or deletions. The TprK V regions are the focus of anti-TprK antibodies arising during infection. To test our hypothesis that V region sequences change during infection and passage, we developed a clonal isolate from the Chicago strain of T. pallidum and confirmed V region diversification during passage of this isolate. We describe the sequence anatomy of the seven V regions of tprK and the identification of putative donor sites for new V region sequences, and we propose a model for generation of new V regions by segmental gene conversion. These findings suggest that antigenic variation of TprK occurs in T. pallidum and may be important in immune evasion and persistence.

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