Discussion In this study we used the approach of Selleck BTSA1 suppression subtractive hybridization technique to attempt to identify uniquely-expressed genes of T. check details vaginalis that may represent determinants that contribute to urogenital virulence and pathogenesis. In addition, we also used a second approach and screened a cDNA expression library with pooled patient sera adsorbed with T. tenax antigens to identify the uniquely-expressed genes of T. vaginalis. Given the fact that T. tenax is usually
regarded as a harmless commensal of the human mouth, and T. vaginalis and T. tenax have the same host specificity but different colonization sites [30], we expected to identify many T. vaginalis uniquely-expressed genes through our approaches. To our surprise and contrary to our hypothesis, we identified no genes that were unique to T. vaginalis. Indeed, the very few genes that were obtained by both approaches were then found to be present in T. tenax, but the genes were increased in expression in T. vaginalis (Tables 1 and 2). Confirmation of the expression of select genes using semi-quantitative RT-PCR revealed that all the genes that were identified by the T. vaginalis subtraction library and cDNA library with adsorbed patient sera were also present in T. tenax, albeit at lower rates of expression. An earlier study involving the characterization of two-dimensional
immuno-electrophoretic patterns of different trichomonad species selleck screening library also showed high similarities between T. vaginalis and T. tenax [31]. Of the 5 transcripts whose relative abundance was found to vary significantly, VX-770 mouse the AP65, GAPDH, and hypothetical protein 2 were recently found to be secreted or released during growth of T. vaginalis [29]. Equally
noteworthy is that these proteins are upregulated in expression upon parasite contact with vaginal epithelial cells [32]. The up-regulated expression in T. vaginalis of proteins by various environmental cues, such as adherence, may suggest an important role as virulence factors in urogenital infection. Indeed, AP65 is a prominent adhesin of T. vaginalis important for attachment to vaginal epithelial cells [33–35]. While we expected a high genetic divergence between the oral and urogenital trichomonads, the high genetic identity between T. vaginalis and T. tenax was surprising. While whole genome comparisons are needed, these are not currently available. It is reasonable to hypothesize, therefore, that if in fact these species are highly related or even identical, the minor variance between the two may have resulted due to their introduction and residence in distinct environmental niches. Contributing to their survival in different mucosal sites may be the important distinguishing feature of higher rates of transcription by T. vaginalis compared to T. tenax, which may have resulted from the environments imposing unique survival pressures.