Christa Castro scite author profile

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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ThetprKGene Is Heterogeneous amongTreponema pallidumStrains and Has Multiple Alleles

Centurión-Lara

et al. 2000

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We have previously shown that the TprK antigen of T. pallidum, Nichols strain, is predominantly expressed in treponemes obtained 10 days after infection and that the hydrophilic domain of TprK is a target of opsonic antibodies and confers significant protection against homologous challenge. The T. pallidum genome sequence reported the presence of a single copy of the tprK gene in the Nichols strain. In the present study we demonstrate size heterogeneity in the central portions of the TprK hydrophilic domains of 14 treponemal isolates. Sequence analysis of the central domains and the complete open reading frames (ORFs) of the tprK genes confirms this heterogeneity. Further, multiple tprK sequences were found in the Nichols-defined tprK locus in three isolates (Sea 81-4, Bal 7, and Bal 73-1). In contrast, only a single tprK sequence could be identified in this locus in the Nichols strain. Alignment of the DNA and deduced amino acid sequences of the whole tprK ORFs shows the presence of seven discrete variable domains flanked by highly conserved regions. We hypothesize that these heterogeneous regions may be involved in antigenic heterogeneity and, in particular, evasion of the immune response. The presence of different tprK alleles in the tprK locus strongly suggests the existence of genetically different subpopulations within treponemal isolates.

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Opsonic Potential, Protective Capacity, and Sequence Conservation of theTreponema pallidumsubspeciespallidumTp92

et al. 2000

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By means of a differential screening technique, a 92-kDa antigen, designated Tp92, was identified from Treponema pallidum subspecies pallidum. This protein is similar in sequence to the protective surface antigens D15 from Haemophilus influenzae and Oma87 from Pasteurella multocida. Amino acid sequence analyses revealed a cleavable N-terminal signal sequence and predicted the outer membrane location for Tp92. In support of this, antiserum raised against recombinant Tp92 promotes opsonization and phagocytosis of T. pallidum by rabbit macrophages, and anti-Tp92 reactivity is absent from washed treponemal preparations presumed to be lacking outer membranes. The Tp92 amino acid sequence is 95.5%-100% conserved among 11 strains representing 4 pathogenic treponemes, and immunization with recombinant Tp92 partially protected rabbits from subsequent T. pallidum challenge. These results demonstrate that Tp92 is an invariant, immunoprotective antigen that may be present on the surface of T. pallidum and may represent a potential vaccine candidate for syphilis.

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The Flanking Region Sequences of the 15-kDa Lipoprotein Gene Differentiate Pathogenic Treponemes

Centurión-Lara

Castro

Castillo

et al. 1998

Journal of Infectious Diseases

110

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The species Treponema pallidum includes three subspecies (pallidum, pertenue, and endemicum) that cause syphilis, yaws, and bejel, respectively. A closely related species, Treponema paraluiscuniculi, is the etiologic agent of venereal syphilis in rabbits but does not infect humans. Although these treponemes cause distinct diseases, no laboratory method for differentiation has been reported. Genetic signatures were defined in the 5' and 3' flanking regions of the 15-kDa lipoprotein gene (tpp15) that distinguish the human pathogens and T. paraluiscuniculi, as well as distinguishing T. pallidum subsp. pallidum from the causes of human nonvenereal treponematoses. A single Eco47III restriction site in the 5' flanking region differentiates T. pallidum subsp. pallidum from the other subspecies and species, and an XcmI site in the 3' flanking region differentiates T. paraluiscuniculi from the human pathogens. Polymerase chain reaction methods and restriction polymorphism were used to analyze 27 strains of pathogenic Treponema species.

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Multiple Alleles ofTreponema pallidumRepeat Gene D inTreponema pallidumIsolates

et al. 2000

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Christa Castro

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

ThetprKGene Is Heterogeneous amongTreponema pallidumStrains and Has Multiple Alleles

Opsonic Potential, Protective Capacity, and Sequence Conservation of theTreponema pallidumsubspeciespallidumTp92

The Flanking Region Sequences of the 15-kDa Lipoprotein Gene Differentiate Pathogenic Treponemes

Multiple Alleles ofTreponema pallidumRepeat Gene D inTreponema pallidumIsolates

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