IL-10 release by bovine epithelial cells cultured with Trichomonas vaginalis and Tritrichomonas foetus

Trichomonas vaginalis and Tritrichomonas foetus are parasitic protists of the human and bovine urogenital tracts, respectively. Several studies have described the cytotoxic effects of trichomonads on urogenital tract epithelial cells. However, little is known about the host cell response against trichomonads. The aim of this study was to determine whether T. foetus and T. vaginalis stimulated the release of the cytokine interleukin (IL)-10 from cultured bovine epithelial cells. To characterise the inflammatory response induced by these parasites, primary cultures of bovine oviduct epithelial cells were exposed to either T. vaginalis or T. foetus. Within 12 h after parasite challenge, supernatants were collected and cytokine production was analysed. Large amounts of IL-10 were detected in the supernatants of cultures that had been stimulated with T. foetus. Interestingly, T. vaginalis induced only a small increase in the release of IL-10 upon exposure to the same bovine cells. Thus, the inflammatory response of the host cell is species-specific. Only T. foetus and not T. vaginalis induced the release of IL-10 by bovine oviduct epithelial cells.     

Interaction of Trichomonas vaginalis and Tritrichomonas foetus with keratin: an important role in parasite infection

Trichomonas vaginalis and Tritrichomonas foetus are human and bovine parasites, respectively, that provoke the sexually transmitted disease trichomoniasis. These extracellular parasites adhere to the host epithelial cell surface. Although mucinases and proteases have been described as important proteins for parasite adhesion to epithelial cells, no studies have examined the role of the keratin molecules that cornify the vaginal epithelium. Here, we investigated the interaction of T. vaginalis and T. foetus with human keratin in vitro; additionally, adherence assays were performed in cattle with T. foetus to elucidate whether trichomonads were able to interact with keratin in vivo. We demonstrated that both T. vaginalisand T. foetusinteracted directly with keratin. Additionally, the trichomonads ingested and digested keratin, shedding new light on the Trichomonas infection process.     

Iron and contact with host cells induce expression of adhesins on surface of Trichomonas vaginalis

The proteins AP65, AP51, AP33 and AP23 synthesized by Trichomonas vaginalis organisms in high iron play a role in adherence. Multigene families encode enzymes of the hydrogenosome organelles, which have identity to adhesins. This fact raises questions regarding the compartmentalization of the proteins outside the organelle and about the interactions of adhesins with host cells. Data here demonstrate the presence of the proteins outside the organelle under high-iron conditions. Fluorescence and immuno-cytochemical experiments show that high-iron-grown organisms coexpressed adhesins on the surface and intracellularly in contrast with low-iron parasites. Furthermore, the AP65 epitopes seen by rabbit anti-AP65 serum that blocks adherence and detects surface proteins were identified, and a mAb reacting to those epitopes recognized the trichomonal surface. Two-dimensional electrophoresis and immunoblot of adhesins from surface-labelled parasites provided evidence that all members of the multigene family were co-ordinately expressed and placed on the trichomonal surface. Similar two-dimensional analysis of proteins from purified hydrogenosomes obtained from iodinated trichomonads confirmed the specific surface labelling of proteins. Contact of trichomonads with vaginal epithelial cells increased the amount of surface-expressed adhesins. Moreover, we found a direct relationship between the levels of adherence and amount of adhesins bound to immortalized vaginal and ureter epithelial cells, further reinforcing specific associations. Finally, trichomonads of MR100, a drug-resistant isolate absent in hydrogenosome proteins and adhesins, were non-adherent. Overall, the results confirm an important role for iron and contact in the surface expression of adhesins of T. vaginalis organisms.     

Trichomonas vaginalis: reactive oxygen species mediates caspase-3 dependent apoptosis of human neutrophils

There are many neutrophils in the vaginal discharge from women infected with Trichomonas vaginalis. The aim of our study was to determine whether human neutrophil apoptosis may be regulated by reactive oxygen species (ROS) in response to trichomonads infection. Incubation of human neutrophils with live trichomonads caused marked receptor shedding of CD16, decrease of mitochondrial membrane potential (MMP) and caspase-3 activation in human neutrophils. These proapoptotic effects of T. vaginalis on neutrophils were inhibited by pretreatment of neutrophils with an inhibitor of NADPH oxidase, diphenyleneiodonium chloride (DPI), suggesting an important role of intracellular ROS accumulation in T. vaginalis-triggered apoptosis. Indeed, large amounts of ROS levels were detected in neutrophils incubated with live trichomonads, and were also effectively inhibited by DPI. However, pan-caspase inhibitor z-VAD-fmk or caspase-3 inhibitor z-DEVD-fmk did not affect T. vaginalis-induced ROS generation in neutrophils. These results suggest that ROS-dependent caspase-3 activation plays an important role in apoptosis of human neutrophils induced by T. vaginalis.     

Signalling of Trichomonas vaginalis for amoeboid transformation and adhesin synthesis follows cytoadherence

The cytoadherence of Trichomonas vaginalis, the sexually transmitted flagellated protozoan, to vaginal epithelial cells (VECs) is the key to infection. Electron microscopy revealed that in vitro-grown parasites having typical globular shape transformed rapidly after contact with VECs into thin, flat, amoeboid cells, maximizing the area of adhesion to the surface of VECs. Amoebic trichomonads formed filopodia and pseudopodia, which interdigitated at distinct sites on the plasma membrane of target cells. In contrast, the amoeboid transformation did not occur for T. vaginalis interacting with He La cells, the previously used in vitro host model cell. Initial parasitism of VECs by a single organism was followed by establishment of a monolayer of trichomonads on the host cell. Finally, parasites adhering to either VECs or HeLa cells were induced to synthesize greater amounts of the four previously described adhesins. Therefore, distinct signals after contact with either epithelial cell type leads to the morphological transformation and/or induction of adhesin synthesis by T. vaginalis.     

The interaction of Trichomonas vaginalis and Tritrichomonas foetus with epithelial cells in vitro

The Madin-Darby canine kidney epithelial cell line (MDCK) was used as a model for trichomonad-host cell interaction. Two laboratory strains of the human parasite Trichomonas vaginalis and the cattle's parasite Tritrichomonas foetus or their supernatants from axenic cultures were allowed to interact with confluent epithelial cultures. The interaction process studied by transmission and scanning electron microscopy revealed that both parasites adhere to monolayers through flagella, cell body and particularly for T. foetus, through the posterior projection of the axostyle. A close contact region between the trichomonad's surface and MDCK cells was observed. A study of the involvement of trichomonad surface component in the interaction process indicated that cytochalasin B treated-parasites adhere much less to epithelial monolayers than untreated parasites. Colchicine treatment did not affect such adhesion. Treatment of the parasites with trypsin reduced the adhesion of trichomonads to monolayers but did not interfere with the cytopathic effect. In contrast, treatment of the parasites with neuraminidase did not interfere with their adhesion to epithelial cells and the monolayer destruction was further increased.     

Virus in Trichomonas--an ultrastructural study

Trichomonas vaginalis is a flagellated, parasitic protozoan that inhabits the urogenital tract of humans. Approximately one-half of isolates of T. vaginalis are infected with a double-stranded (ds) RNA virus, which was described in the literature as a homogeneous population of icosahedral virus with isometric symmetry and 33 nm in diameter. The present study describes the heterogeneous virus population found in T. vaginalis isolate 347. This population comprises different virus sizes (33-200 nm) and shape (filamentous, cylindrical, and spherical particles). These observations were made in CsCl-purified virus fractions as well as the thin sections of parasites. Some viruses were only observed after slight changes in the technique where the sample was prepared by the negative staining carbon-film method directly onto freshly cleft mica. The VLPs were found in the cytoplasm closely associated with the Golgi complex, with some VLPs budding from the Golgi, and other VLPs were detected adjacent to the plasma membrane. Unidentified cytoplasmic inclusions were observed in the region close to the VLPs and Golgi. These results indicate that T. vaginalis organisms may be infected with different dsRNA viruses simultaneously and suggest that T. vaginalis may be a reservoir for several viruses. We also showed some steps in the route of T. vaginalis virus and some aspects of the cytopathology of this infection. Purified VLPs were transfected to virus-free T. vaginalis isolates. Our results demonstrate that TVV attach and penetrate into trichomonads through endocytic coated pits and are maintained within vacuoles during batch culture for several daily passages. Immediately after virus transfection, many cells were lysed, whereas some intact reminiscent cells were recruited forming large clusters. Virus particles were found outside the cells, and in coated pits, within vacuoles in the cytoplasm, and infrequently within the nucleus. The Golgi complex showed changes in its electron density and in the cisternae structure. In lysed cells, virus particles were clearly seen over the residual membranes.     

Effect of iron on the virulence of Trichomonas vaginalis

The role of iron was evaluated with respect to the virulence of Trichomonas vaginalis in mice. Iron-supplemented and iron-depleted Diamond's trypticase-yeast extract-maltose (TYM) media were prepared by adding 360 microM of ferrous sulfate and 100 microM of 2,2'-dipyridyl. Trophozoites cultivated from normal TYM and iron-supplemented TYM media produced subcutaneous abscesses; however, trichomonads grown in an iron-deficient TYM medium failed to produce any pathology. In addition to the increased virulence of trophozoites in mice, iron affects the level of adherence and the cytotoxicity of trichomonads to HeLa cells, which are significantly reduced in trophozoites grown in iron-deficient medium. In conclusion, it is suggested that under iron-depleted conditions such as that induced by 2,2'-dipyridyl the virulence of T. vaginalis is reduced.     

Sustained polymorphonuclear leukocyte transmigration induces apoptosis in T84 intestinal epithelial cells

Acute colitis is characterized by a large number of polymorphonuclear leukocytes (PMNLs) migrating across the columnar epithelium in response to inflammatory stimuli. Several of these inflammatory factors have been characterized as proapoptotic inducers for intestinal epithelial cells. Our aim was to elucidate the role of PMNL transmigration in the onset of intestinal epithelial cell apoptosis. We found that PMNL migration, in response to N-formyl-methionyl-leucyl-phenylalanine across monolayers of intestinal epithelial cells (T84), was associated with activation of caspase-2, -3, and -9 and poly(ADP-ribose) polymerase cleavage within epithelial cells. Moreover, dihydrocytochalasin B treatment of T84 cells induced apoptosis with similar characteristics. Although Fas and Fas ligand were expressed on T84 cells and PMNLs, treatment of epithelial cells with an antagonistic anti-Fas antibody failed to prevent apoptosis induced by migrating PMNLs. Owing to the F-actin reorganization accompanying PMNL transmigration, these findings indicate a direct relationship between PMNL migration and induction of apoptosis in epithelial cells. This apoptotic process appears to involve remodeling of the actin cytoskeleton of enterocytes independent of the Fas/Fas ligand pathway.     

Further studies on the surface saccharides in Trichomonas vaginalis strains by fluorescein-conjugated lectins

Fluorescence emitted by individual cells of several Trichomonas vaginalis strains, nearly all of which were cloned, incubated with fluorescein-conjugated lectins in the absence (experimental) or presence (control) of inhibitory sugars, or else in phosphate-buffered saline alone (autofluorescence) was measured with a Leitz MPV Compact microfluorometer. Irrespective of whether the organisms were postfixed in formalin or glutaraldehyde, the relative fluorescence emitted by the cells was closely comparable, provided that appropriate neutral density filters were employed. However, autofluorescence was much higher for glutaraldehyde-fixed trichomonads. Therefore, although better preserved and more amenable to subsequent manipulations, such organisms were found unsuitable for use in "qualitative" titration of the fluorescence emitted by various strains. Provided that the necessary precautions were taken, comparable fluorescence readings were obtained with trichomonads affixed to glass slides by heat (41 degrees C, on a section spreader) or by a cytologic centrifuge (Cytospin 2). Large numbers of concanavalin A (Con A)-binding sites were present on organisms of all strains, irrespective of their virulence for human patients and as estimated by the subcutaneous mouse assay; these sites were shown with the aid of D-mannose to be mannose or mannose-related residues. More binding sites for soybean agglutinin (SBA) were found on the virulent than on avirulent strains. On the basis of inhibition experiments, the sugar residues mainly responsible for these differences appeared to be D-lactose residues. Similar differences were observed with Ricinus communis agglutinin Type I (RCA I), for which D-galactose was employed as the competing sugar. However, with two cloned strains the situation with regard to RCA I binding was reversed - more of the lectin bound to a mild than to a virulent strain. The results obtained with Ricinus communis Type II agglutinin (RCA II) were often similar to those noted for RCA I; however, in most instances the inhibition with N-acetyl-D-galactosamine (GalNAc) was lower. Furthermore, the results noted with the GalNAc-specific agglutinins from Dolichus biflorus and Helix pomatia suggested that only very few GalNAc residues were available for binding on the surfaces of all T. vaginalis strains examined in the course of this study. Statistical analyses of fluorescence emitted by four clones of each, Balt 42 (virulent) and JH31A (avirulent) T. vaginalis strain upon incubation with Con A and SBA revealed homogeneity of these strains with regard to the number of the specific surface saccharide residues, D-mannose and D-lactose.(ABSTRACT TRUNCATED AT 400 WORDS)     

Tubulins in Trichomonas vaginalis: molecular characterization of alpha-tubulin genes, posttranslational modifications, and homology modeling of the tubulin dimer

We have isolated and analysed an alpha-tubulin-encoding gene (atub1) in an early-diverging eukaryote, Trichomonas vaginalis. The complete atub1 open reading frame included 1.356 bp encoding a polypeptide of 452 amino-acyl residues. A second alpha-tubulin gene (atub2) was amplified by PCR using primers derived from consensus alpha-tubulin amino acid sequences. Both T. vaginalis alpha-tubulin sequences showed high identity to those described in other parabasalids (94.4%-97.3%), and exhibited a high degree of similarity to sequences from Metazoa (such as pig brain) and diplomonads (such as Giardia). Despite large evolutionary distances previously observed between trichomonads and mammals, the three-dimensional model of the T. vaginalis tubulin dimer was very similar to that of pig brain. Possible correlations between alpha-tubulin sequences and posttranslational modifications (PTMs) were examined. Our observations corroborated previous data obtained in T. vaginalis using specific anti-PTMs antibodies. As described in the related species Tritrichomonas mobilensis, microtubules are likely acetylated, non-tyrosinated, glutamylated, and non-glycylated in T. vaginalis. Evolutionary considerations concerning the time of appearance of these tubulin PTMs are also discussed since trichomonads are potentially one of the earliest diverging eukaryotic lineages.     

A simple micropore system for experimental studies on trichomonad parasites

A simple leak-free micropore chamber containing protozoan parasite species was implanted subcutaneously on the back of hamsters and evaluated for viability and multiplication of protozoan parasites. Trophozoites of defined strains of Entamoeba histolytica, Giardia lamblia, Trichomonas vaginalis, and Tritrichomonas foetus were used; their survival and multiplication in the chambers formed the basis of evaluation. Entamoeba histolytica and G. lamblia did not survive more than 6 hr and succumbed due to cellular adhesion. Trichomonas vaginalis and T. foetus survived 3 and 6 days and multiplied a maximum of 3.6 and 26 times, respectively. This indicated that exchange of body fluids and cells needed for the survival and multiplication of trichomonads readily occurs. This preliminary observation showed that micropore chambers may be useful for chemotherapeutic and immunological studies on trichomonads in ectopic sites.     

Genetic differentiation and biochemical polymorphism among trichomonads

Isoenzyme electrophoresis was used to study levels of genetic differentiation among strains and clones of Trichomonas gallinae, Trichomonas vaginalis, Tritrichomonas foetus, Tetratrichomonas gallinarum, and Pentatrichomonas hominis. Strain variation was found within T. gallinae, T. vaginalis, and T. foetus, however, levels of enzyme polymorphism were greater in T. gallinae than in T. vaginalis or T. foetus. Isoenzyme genotypes were not a stable property of T. gallinae clones cultivated in vitro. Retrospective studies of T. gallinae SG and JB6 clones revealed that mutation occurred during in vitro cultivation. Heterozygotes of hexokinase-1 and phosphoglucomutase displayed 2 allomorphs in equal dosage, indicating that trichomonads are diploid for these protein loci. Phenetic clustering of the biochemical data suggests that levels of genetic divergence among the species studied are extensive.     

Pathogenicity of Tritrichomonas mobilensis: subcutaneous inoculation in mice

The standard "subcutaneous mouse assay" was used to investigate the inherent pathogenicity of Tritrichomonas mobilensis, an intestinal parasite of squirrel monkeys. C57B1/6 mice given subcutaneous bilateral inocula of T. mobilensis died by day 4 postinoculation with lesions too small to be measured. Control mice similarly inoculated with pathogenic and nonpathogenic strains of Trichomonas vaginalis survived the challenge and produced lesions on day 6 with mean volumes in agreement with previous reports. CD1 mice similarly inoculated with standard and double doses of trichomonads (T. mobilensis) again produced small lesions. CD1 mice inoculated at double dosage were moribund or dead on days 5 and 6, respectively, postinoculation. Necropsies were performed on dead and sacrificed mice. Tissues were obtained from internal organs for histology and culture. Unexpectedly, trichomonads were cultured from liver and lung of C57B1/6 mice at the standard level of inoculation and liver, lung, and spleen of CD1 mice at the higher level of inoculation. Although trichomonads are normally considered surface-dwelling noninvasive organisms, the penetration of trichomonads to deep tissues is not without precedent. Tritrichomonas foetus and Trichomonas gallinae are known to invade tissues of their respective hosts. Trichomonas vaginalis has been demonstrated in subepithelial areas of both the prostate gland and cervix of humans. The ability of several species of trichomonads to invade tissues and/or migrate to other sites in their hosts suggests a need for revision of the concept of trichomonads as strictly lumen or surface-dwelling parasites.     

Lysis of erythrocytes byTrichomonas vaginalis

The in vitro hemolytic activity of 4 isolates ofTrichomonas vaginalis was investigated. Repetitive hemolysis assays of any one isolate showed cyclical fluctuations in hemolytic activity, varying over 24 hr of continuous culture. Maximal hemolytic activity was detected using trichomonads in the lag phase of the growth cycle. Investigations showed that hemolysis was a contact-dependent phenomenon and microscopic investigation of samples showed a significant correlation between hemolysis and attachment of erythrocytes to the trichomonad surface. Quantitative data from cytoadherence assays using [⁵¹Cr]-labeled erythrocytes were consistent with these observations. It is suggested that hemolytic activity is dependent upon adherence of red blood cells to the surface ofT. vaginalis.     

Trichomonas vaginalis: in vitro attachment and internalization of HIV-1 and HIV-1-infected lymphocytes

Sexually transmitted diseases (STDs) caused by bacteria and protozoa play an important role in the epidemiology of human immunodeficiency virus (HIV-1) infection. Human trichomoniasis, produced by the protozoan parasite Trichomonas vaginalis, is one of the most common STDs, and is a cause of mucosal lesions in the urogenital tract, which may increase the risk for HIV infection. However, there are no reports concerning the outcome of in vitro interactions between HIV particles and trichomonads. Therefore, we incubated T. vaginalis with three subtypes of HIV-1 (A, B, and D), as well as with HIV-1-infected lymphocytes, and analyzed the interactions with immunofluorescence microscopy and transmission electron microscopy. Our results demonstrated that HIV-1 particles attach and are incorporated into T. vaginalis through endocytic vesicles and are degraded within cytoplasmic vacuoles in approximately 48 h. There was no ultrastructural evidence of HIV-1 replication in trichomonads. These results demonstrated that trichomonads may internalize and harbor HIV-1 particles for short periods of time. In addition, under in vitro conditions, T. vaginalis ingests and digests HIV-1-infected lymphocytes.