Rossana Arroyo scite author profile

Parasitism of host epithelial cells by Trichomonas vaginalis is a highly specific event. Four trichomonad surface proteins (adhesins) with molecular masses of 65,000 daltons (65 kDa; AP65), 51 kDa (AP51), 33 kDa (AP33), and 23 kDa (AP23) mediate the interaction of T. vaginalis with epithelial cells. Fresh isolates, when compared with long-term-grown isolates, had greater amounts of adhesins, which corresponded with increased levels of cytoadherence. Anti-adhesin antibodies reacted by immunoblot only with the respective protein and detected, by indirect immunofluorescence, each adhesion on the parasite surface. These antibodies inhibited the binding of live parasites to epithelial cells and protected epithelial cells from contact-dependent cytotoxicity. The pretreatment of epithelial cells with a preparation of purified adhesions also blocked trichomonal cytoadherence. Moreover, HeLa cells possessed molecules which recognized and bound to adhesins on nitrocellulose blots.

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The regulation by iron of the synthesis of adhesins and cytoadherence levels in the protozoan Trichomonas vaginalis.

Lehker

1991

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SummaryLevels of adherence of Trichomonas vaginalis to epithelial cells was found to be modulated by iron . Cytoadherence values were greater than or equal to twofold higher for trichomonads grown in a complex cultivation medium supplemented with iron . This increase in adherence levels was specifically mediated by iron ; parasites cultured in a low-iron medium in the presence of salts other than iron were unresponsive to changes in adherence levels. Expression of the higher adherence property, by parasites grown first in low-iron medium followed by supplementation with iron, was a function of time, and the extent of cytoadherence was proportional to the concentration of iron added to the medium . Lactoferrin, an important iron source for trichomonads at the site of infection, elevated adherence of the parasite to epithelial cells, demonstrating the likely in vivo modulation of adherence by iron. The alteration of levels of adherence caused by iron was determined to be a reflection of gene expression of previously characterized trichomonad adhesins. Parasites grown under iron-replete conditions had higher quantities of surface-exposed adhesins, and this was a result of increased synthesis of adhesins. Actinomycin D and a-amanitin prevented expression of adhesin molecules, which resulted in decreased cytoadherence, showing that adhesin synthesis was dependent on gene transcription . Data indicated that genes encoding the four trichomonad adhesins are coordinately regulated by iron .Specificadherenceofmucosal pathogens to host cells leads to colonization, and this interaction is fundamental and prerequisite for infection and pathogenesis. Cytoadherence is an important mechanism by which infecting organisms overcome the flushing effect of mucosal secretions (1) . Trichomonas vaginalis is a flagellated protozoan responsible for one of the most common, world-wide sexually transmitted diseases, and the parasite affects mostly women. The emotional and economic consequences to all world societies caused by this protozoan are significant . This microorganism colonizes the vaginal epithelium by specific, receptor-ligand interactions (2) . Adherence to squamous vaginal epithelial cells by this parasite is mediated by four surface proteins (3) . The ability of T. vaginalis parasites to cytoadhere is the result of a complex cascade of events involving adhesin proteins (3) and proteinase activity (4) .These earlier studies were conducted with organisms grown in a complex, nutrient-rich medium different from that encountered by parasites in the vagina, a nutritional environment which itself is changing during the menstrual cycle . Recent continuous flow culture experiments demonstrated that T. vaginalis organisms were capable of altering several properties in response to varying culture environments (5) . In addition, growth and multiplication (6), and certain virulence traits of T. vaginalis, were found to be modulated by iron, which is an essential nutrient for this parasite (6, 7). This ability of pathogenic human trichomon...

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Extensive Genetic Diversity, Unique Population Structure and Evidence of Genetic Exchange in the Sexually Transmitted Parasite Trichomonas vaginalis

et al. 2012

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Background Trichomonas vaginalis is the causative agent of human trichomoniasis, the most common non-viral sexually transmitted infection world-wide. Despite its prevalence, little is known about the genetic diversity and population structure of this haploid parasite due to the lack of appropriate tools. The development of a panel of microsatellite makers and SNPs from mining the parasite's genome sequence has paved the way to a global analysis of the genetic structure of the pathogen and association with clinical phenotypes. Methodology/Principal Findings Here we utilize a panel of T. vaginalis -specific genetic markers to genotype 235 isolates from Mexico, Chile, India, Australia, Papua New Guinea, Italy, Africa and the United States, including 19 clinical isolates recently collected from 270 women attending New York City sexually transmitted disease clinics. Using population genetic analysis, we show that T. vaginalis is a genetically diverse parasite with a unique population structure consisting of two types present in equal proportions world-wide. Parasites belonging to the two types (type 1 and type 2) differ significantly in the rate at which they harbor the T. vaginalis virus, a dsRNA virus implicated in parasite pathogenesis, and in their sensitivity to the widely-used drug, metronidazole. We also uncover evidence of genetic exchange, indicating a sexual life-cycle of the parasite despite an absence of morphologically-distinct sexual stages. Conclusions/Significance Our study represents the first robust and comprehensive evaluation of global T. vaginalis genetic diversity and population structure. Our identification of a unique two-type structure, and the clinically relevant phenotypes associated with them, provides a new dimension for understanding T. vaginalis pathogenesis. In addition, our demonstration of the possibility of genetic exchange in the parasite has important implications for genetic research and control of the disease.

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

Arroyo

González‐Robles

Martı́nez-Palomo

et al. 1993

Molecular Microbiology

118

137

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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 HeLa 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 adhesion synthesis by T. vaginalis.

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Entamoeba histolytica : a novel cysteine protease and an adhesin form the 112 kDa surface protein

Garcı́a-Rivera

Rodríguez

Ocadiz

et al. 1999

Molecular Microbiology

138

139

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SummaryHere, we present evidence that a cysteine protease (EhCP112) and a protein with an adherence domain (EhADH112) form the Entamoeba histolytica 112 kDa adhesin. Immunoelectron microscopy and immunouorescence assays using monoclonal antibodies (mAbAdh) revealed that, during phagocytosis, the adhesin is translocated from the plasma membrane to phagocytic vacuoles. mAbAdh inhibited 54% adherence, 41% phagocytosis, and 35% and 62% destruction of MDCK cell monolayers by live trophozoites and their extracts respectively. We cloned a 3587 bp DNA fragment (Eh112 ) with two open reading frames (ORFs) separated by a 188 bp non-coding region. The ORF at the 58 end (Ehcp112 ) encodes a protein with a cysteine protease active site, a transmembranal segment and an RGD motif. The second ORF (Ehadh112 ) encodes a protein recognized by mAbAdh with three putative transmembranal segments and four glycosylation sites. Northern blot, primer extension and Southern blot experiments revealed that Ehcp112 and Ehadh112 are two adjacent genes in DNA. Ehcp112 and Ehadh112 genes were expressed in bacteria. The recombinant peptides presented protease activity and inhibited adherence and phagocytosis, respectively, and both were recognized by mAbAdh. The EhCP112 and EhADH112 peptides could be joined by covalent or strong electrostatic forces, which are not broken during phagocytosis.

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Rossana Arroyo

Molecular basis of host epithelial cell recognition by Trichomonas vaginalis

The regulation by iron of the synthesis of adhesins and cytoadherence levels in the protozoan Trichomonas vaginalis.

Extensive Genetic Diversity, Unique Population Structure and Evidence of Genetic Exchange in the Sexually Transmitted Parasite Trichomonas vaginalis

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

Entamoeba histolytica : a novel cysteine protease and an adhesin form the 112 kDa surface protein

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