71 research outputs found

    Genetic identity and differential gene expression between Trichomonas vaginalis and Trichomonas tenax

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    <p>Abstract</p> <p>Background</p> <p><it>Trichomonas vaginalis </it>is a human urogenital pathogen responsible for trichomonosis, the number-one, non-viral sexually transmitted disease (STD) worldwide, while <it>T. tenax </it>is a commensal of the human oral cavity, found particularly in patients with poor oral hygiene and advanced periodontal disease. The extent of genetic identity between <it>T. vaginalis </it>and its oral commensal counterpart is unknown.</p> <p>Results</p> <p>Genes that were differentially expressed in <it>T. vaginalis </it>were identified by screening three independent subtraction cDNA libraries enriched for <it>T. vaginalis </it>genes. The same thirty randomly selected cDNA clones encoding for proteins with specific functions associated with colonization were identified from each of the subtraction cDNA libraries. In addition, a <it>T. vaginalis </it>cDNA expression library was screened with patient sera that was first pre-adsorbed with an extract of <it>T. tenax </it>antigens, and seven specific cDNA clones were identified from this cDNA library. Interestingly, some of the clones identified by the subtraction cDNA screening were also obtained from the cDNA expression library with the pre-adsorbed sera. Moreover and noteworthy, clones identified by both the procedures were found to be up-regulated in expression in <it>T. vaginalis </it>upon contact with vaginal epithelial cells, suggesting a role for these gene products in host colonization. Semi-quantitative RT-PCR analysis of select clones showed that the genes were not unique to <it>T. vaginalis </it>and that these genes were also present in <it>T. tenax</it>, albeit at very low levels of expression.</p> <p>Conclusion</p> <p>These results suggest that <it>T. vaginalis </it>and <it>T. tenax </it>have remarkable genetic identity and that <it>T. vaginalis </it>has higher levels of gene expression when compared to that of <it>T. tenax</it>. The data may suggest that <it>T. tenax </it>could be a variant of <it>T. vaginalis</it>.</p

    Heterologous expression in Tritrichomonas foetus of functional Trichomonas vaginalis AP65 adhesin

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    BACKGROUND: Trichomonosis, caused by Trichomonas vaginalis, is the number one, nonviral sexually transmitted infection that has adverse consequences for the health of women and children. The interaction of T. vaginalis with vaginal epithelial cells (VECs), a step preparatory to infection, is mediated in part by the prominent surface protein AP65. The bovine trichomonad, Tritrichomonas foetus, adheres poorly to human VECs. Thus, we established a transfection system for heterologous expression of the T. vaginalis AP65 in T. foetus, as an alternative approach to confirm adhesin function for this virulence factor. RESULTS: In this study, we show stable transfection and expression of the T. vaginalis ap65 gene in T. foetus from an episomal pBS-ap65-neo plasmid. Expression of the gene and protein was confirmed by RT-PCR and immunoblots, respectively. AP65 in transformed T. foetus bound to host cells. Specific mAbs revealed episomally-expressed AP65 targeted to the parasite surface and hydrogenosome organelles. Importantly, surface-expression of AP65 in T. foetus paralleled increased levels of adherence of transfected bovine trichomonads to human VECs. CONCLUSION: The T. vaginalis AP65 adhesin was stably expressed in T. foetus, and the data obtained using this heterologous system strongly supports the role of AP65 as a prominent adhesin for T. vaginalis. In addition, the heterologous expression in T. foetus of a T. vaginalis gene offers an important, new approach for confirming and characterizing virulence factors

    A novel surface protein of Trichomonas vaginalis is regulated independently by low iron and contact with vaginal epithelial cells

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    BACKGROUND: Trichomonosis caused by Trichomonas vaginalis is the number one, non-viral sexually transmitted disease (STD) that affects more than 250 million people worldwide. Immunoglobulin A (IgA) has been implicated in resistance to mucosal infections by pathogens. No reports are available of IgA-reactive proteins and the role, if any, of this class of antibody in the control of this STD. The availability of an IgA monoclonal antibody (mAb) immunoreactive to trichomonads by whole cell (WC)-ELISA prompted us to characterize the IgA-reactive protein of T. vaginalis. RESULTS: An IgA mAb called 6B8 was isolated from a library of mAbs reactive to surface proteins of T. vaginalis. The 6B8 mAb recognized a 44-kDa protein (TV44) by immunoblot analysis, and a full-length cDNA clone encoded a protein of 438 amino acids. Southern analysis revealed the gene (tv44) of T. vaginalis to be single copy. The tv44 gene was down-regulated at both the transcriptional and translational levels in iron-depleted trichomonads as well as in parasites after contact with immortalized MS-74 vaginal epithelial cells (VECs). Immunofluorescence on non-permeabilized organisms confirmed surface localization of TV44, and the intensity of fluorescence was reduced after parasite adherence to VECs. Lastly, an identical protein and gene were present in Tritrichomonas foetus and Trichomonas tenax. CONCLUSION: This is the first report of a T. vaginalis gene (tv44) encoding a surface protein (TV44) reactive with an IgA mAb, and both gene and protein were conserved in human and bovine trichomonads. Further, TV44 is independently down-regulated in expression and surface placement by iron and contact with VECs. TV44 is another member of T. vaginalis genes that are regulated by at least two independent signaling mechanisms involving iron and contact with VECs

    Identification, characterization, and synthesis of peptide epitopes and a recombinant six-epitope protein for Trichomonas vaginalis serodiagnosis

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    J F Alderete, Calvin J NeaceSchool of Molecular Biosciences, College of Veterinary Medicine, Washington State University, Pullman, WA, USAAbstract: There is a need for a rapid, accurate serodiagnostic test useful for both women and men infected by Trichomonas vaginalis, which causes the number one sexually transmitted infection (STI). Women and men exposed to T. vaginalis make serum antibody to fructose-1,6-bisphosphate aldolase (ALD), &alpha;-enolase (ENO), and glyceraldehyde-3-phosphate dehydrogenase (GAP). We identified, by epitope mapping, the common and distinct epitopes of each protein detected by the sera of women patients with trichomonosis and by the sera of men highly seropositive to the immunogenic protein &alpha;-actinin (positive control sera). We analyzed the amino acid sequences to determine the extent of identity of the epitopes of each protein with other proteins in the databanks. This approach identified epitopes unique to T. vaginalis, indicating these peptide-epitopes as possible targets for a serodiagnostic test. Individual or combinations of 15-mer peptide epitopes with low to no identity with other proteins were reactive with positive control sera from both women and men but were unreactive with negative control sera. These analyses permitted the synthesis of a recombinant His6 fusion protein of 111 amino acids with an Mr of ~13.4 kDa, which consisted of 15-mer peptides of two distinct epitopes each for ALD, ENO, and GAP. This recombinant protein was purified by affinity chromatography. This composite protein was detected by enzyme-linked immunosorbent assay (ELISA), dot blots, and immunoblots, using positive control sera from women and men. These data indicate that it is possible to identify epitopes and that either singly, in combination, or as a composite protein represent targets for a point-of-care serodiagnostic test for T. vaginalis.Keywords: diagnostics, point-of-care, targets, trichomonosi

    Characterization of the surface-associated AP65 and binding domain interacting with trichomonads and host cells-3

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    <p><b>Copyright information:</b></p><p>Taken from "Characterization of the surface-associated AP65 and binding domain interacting with trichomonads and host cells"</p><p>http://www.biomedcentral.com/1471-2180/7/116</p><p>BMC Microbiology 2007;7():116-116.</p><p>Published online 25 Dec 2007</p><p>PMCID:PMC2222631.</p><p></p>e gels. The proteins were purified with HisLinkâ„¢ Protein Purification Resin. Part B shows immunoblots of the clones of panel A after SDS-PAGE of the recombinant fragments probed with anti-Penta-His IgG mAb antibodies (Anti-His), anti-AP65 mAbs (12G4 and F11) [18], and purified rabbit anti-AP65 IgG antibodies (Polyclonal 1375)
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