Properties of phosphoenolpyruvate mutase,the first enzyme in the aminoethylphosphonate biosynthetic pathway in Trypanosoma cruzi

Phosphoenolpyruvate (PEP) mutase catalyzes the conversion of phosphoenolpyruvate to phosphonopyruvate, the initial step in the formation of many naturally occurring phosphonate compounds. The phosphonate compound 2-aminoethylphosphonate is present as a component of complex carbohydrates on the surface membrane of many trypanosomatids including glycosylinositolphospholipids of Trypanosoma cruzi. Using partial sequence information from the T. cruzi genome project we have isolated a full-length gene with significant homology to PEP mutase from the free-living protozoan Tetrahymena pyriformis and the edible mussel Mytilus edulis. Recombinant expression in Escherichia coli confirms that it encodes a functional PEP mutase with a Km apparent of 8 microM for phosphonopyruvate and a kcat of 12 s-1. The native enzyme is a homotetramer with an absolute requirement for divalent metal ions and displays negative cooperativity for Mg2+ (S0.5 0.4 microM; n = 0.46). Immunofluorescence and sub-cellular fractionation indicates that PEP mutase has a dual localization in the cell. Further evidence to support this was obtained by Western analysis of a partial sub-cellular fractionation of T. cruzi cells. Southern and Western analysis suggests that PEP mutase is unique to T. cruzi and is not present in the other medically important parasites, Trypanosoma brucei and Leishmania spp.     

Post genomic analysis of permeases from the amino acid/auxin family in protozoan parasites

The "amino acid/auxin permeases" is probably the most represented family of transporters in the Trypanosoma cruzi genome. Using a high-throughput searching routine and preliminary data from the T. cruzi genome project, more than 15,000 sequences were iteratively assembled into contigs, and 60 open reading frames corresponding to different putative amino acid transporters, clustered in 12 groups, were detected and characterized in silico. T. cruzi genomic organization of such sequences showed that these putative amino acid transporter genes are in an unusually large number and arranged in repeat clusters comprising about 0.2% of the genome. These data suggest that the family has evolved following tandem duplication events and constitutes a novel family of variable proteins in protozoan organisms. The mRNA expression of the predicted genes was demonstrated in infective and non-infective parasite forms. Orthologous sequences were also identified in other unicellular parasites such as Leishmania spp., Plasmodium spp., and Trypanosoma brucei.     

First report on the occurrence of Trypanosoma rangeli Tejera, 1920 in the state of Ceará, Brazil, in naturally infected triatomine Rhodnius nasutus Stål, 1859 (Hemiptera, Reduviidae, Triatominae)

The aim of this work was to identify and report the occurrence of Trypanosoma rangeli and Trypanosoma cruzi in naturally infected Rhodnius nasutus (Hemiptera, Reduviidae, Triatominae) in the state of Ceará, Brazil. Triatomines feces, salivary glands, and hemolymph were collected for fresh examination, and specific detection of T. rangeli and T. cruzi DNA by polymerase chain reaction was carried out. The specific characterization of these two parasites showed the simultaneous presence of both parasites in two (7.7%) of the 26 positive insects. Our results provide further knowledge on the geographical distribution of T. rangeli in Brazil.     

Parasite genome initiatives

During 1993-1994, scientists from developing and developed countries planned and initiated a number of parasite genome projects and several consortiums for the mapping and sequencing of these medium-sized genomes were established, often based on already ongoing scientific collaborations. Financial and other support came from WHO/TDR, Wellcome Trust and other funding agencies. Thus, the genomes of Plasmodium falciparum, Schistosoma mansoni, Trypanosoma cruzi, Leishmania major, Trypanosoma brucei, Brugia malayi and other pathogenic nematodes are now under study. From an initial phase of network formation, mapping efforts and resource building (EST, GSS, phage, cosmid, BAC and YAC library constructions), sequencing was initiated in gene discovery projects but soon also on a small chromosome, and now on a fully fledged genome scale. Proteomics, functional analysis, genetic manipulation and microarray analysis are ongoing to different degrees in the respective genome initiatives, and as the funding for the whole genome sequencing becomes secured, most of the participating laboratories, apart from larger sequencing centres, become oriented to post-genomics. Bioinformatics networks are being expanded, including in developing countries, for data mining, annotation and in-depth analysis.     

Development of an Aptamer-Based Concentration Method for the Detection of Trypanosoma cruzi in Blood

Trypanosoma cruzi, a blood-borne parasite, is the etiological agent of Chagas disease. T. cruzi trypomastigotes, the infectious life cycle stage, can be detected in blood of infected individuals using PCR-based methods. However, soon after a natural infection, or during the chronic phase of Chagas disease, the number of parasites in blood may be very low and thus difficult to detect by PCR. To facilitate PCR-based detection methods, a parasite concentration approach was explored. A whole cell SELEX strategy was utilized to develop serum stable RNA aptamers that bind to live T. cruzi trypomastigotes. These aptamers bound to the parasite with high affinities (8-25 nM range). The highest affinity aptamer, Apt68, also demonstrated high specificity as it did not interact with the insect stage epimastigotes of T. cruzi nor with other related trypanosomatid parasites, L. donovani and T. brucei, suggesting that the target of Apt68 was expressed only on T. cruzi trypomastigotes. Biotinylated Apt68, immobilized on a solid phase, was able to capture live parasites. These captured parasites were visible microscopically, as large motile aggregates, formed when the aptamer coated paramagnetic beads bound to the surface of the trypomastigotes. Additionally, Apt68 was also able to capture and aggregate trypomastigotes from several isolates of the two major genotypes of the parasite. Using a magnet, these parasite-bead aggregates could be purified from parasite-spiked whole blood samples, even at concentrations as low as 5 parasites in 15 ml of whole blood, as detected by a real-time PCR assay. Our results show that aptamers can be used as pathogen specific ligands to capture and facilitate PCR-based detection of T. cruzi in blood.     

Trypanosoma cruzi I and Trypanosoma cruzi II: recognition of sugar structures by Arachis hypogaea (peanut agglutinin) lectin

Epimastigote culture forms of different isolates of Trypanosoma cruzi from different mammal hosts, humans, and vectors were tested with FITC-conjugated peanut agglutinin lectin (PNA-FITC). The parasites maintained in axenic medium, liver infusion tryptose. were evaluated by flow cytometric analyses; whereas T. cruzi I (Tcl), which is associated with the sylvatic transmission cycle, was labeled in high percentages with PNA (88-99.2%), T. cruzi II (TcII) (parasites associated with domiciliar cycle) and T. cruzi, zymodeme 3 (Tc/Z3) (also associated with the sylvatic cycle) were labeled in low percentages (TcII, 0-26% and Tc/Z3, 0-12.6%). It was demonstrated that it is possible to differentiate the 2 main T. cruzi subpopulations, TcI and TcII, using Arachis hypogaea. These results also showed a higher variability in TcII in terms of PNA binding.     

Karyotype variability in Trypanosoma cruzi

Like many other protozoam parasites, Trypanosoma cruzi (the causative agent of Chagas disease) has a plastic genome. Chromosome size polymorphisms occur in different strains of T. cruzi as well as among clones originating from the same strain, Despite this polymorphism, major interchromosomal rearrangements appear to be rare since several linkage groups of chromosomal markers are well conserved among different T. cruzi strains. In addition, some correlation has been found between karyotype variability and classification by multilocus enzyme electrophoresis. In this review, Jan Henriksson, Lena Aslund and Ulf Petterson discuss the genomic variability and suggest that amplication of repetitive sequences or members of gene families make a major contribution to the chromosomal size variation     

A Trypanosoma cruzi monoclonal antibody that recognizes a superficial tubulin-like antigen

A monoclonal antibody (MAB 10), obtained from mice infected with Trypanosoma cruzi, was found to recognize a superficial antigen in living or fixed parasites. It reacted more strongly with T. cruzi than with related parasites such as T. brucei and Leishmania. In immunoblots it recognized a single trypanosoma polypeptide and also brain tubulin, both of which had the same electrophoretic mobility. Further analysis suggested that the alpha-tubulin subunit contained the epitope recognized by MAB 10. These results suggest that a surface tubulin-like protein is present is T. cruzi.     

Trypanosoma cruzi: productive infection is not allowed by chorionic villous explant from normal human placenta in vitro

We hypothesize that a sustained infection of Trypanosoma cruzi into placental tissue might be diminished. Human placental chorionic villi and VERO cells as controls were co-cultured with T. cruzi. Parasites occupied 0.0137% at 3h, 0.0224% (24h), and 0.0572% (72 h) of the total chorionic villi area analyzed and some few placental samples were negative to parasite DNA, whereas 52% of VERO cells were infected at 3h and parasites occupied 0.57%, at 24h the parasite area was of 2.78% and at 72 h was of 3.32%. There were no live parasites in placenta-T. cruzi culture media at 72 h of co-culture. There were significantly increased dead parasites when T. cruzi was treated with unheated culture media coming from placental explants and fewer dead parasites when pre-heated culture media were employed. CONCLUSION: Low productive infection by T. cruzi into placental tissue associated with no viable parasites in the culture media partially due to placental thermo labile substances.     

Very large trypomastigotes as a morphological pattern of strains of Trypanosoma cruzi in the southern region of Brazil

The morphological patterns of blood trypomastigotes from five sylvatic Trypanosoma cruzi strains from Santa Catarina, South Brazil, were studied during the course of infection in experimentally infected mice. A predominance of stout trypomastigotes (greater than 70%) was observed during all over the acute phase in four strains of medium virulence. With the remaining strain, of high virulence, the slender forms predominating at the early infection stage were soon also replaced by stout forms. Since almost all T. cruzi strains displaying predominance of this peculiar morphological pattern have been isolated in South Brazil (Rio Grande do Sul, Santa Catarina) and since there are evidences pointing out to the existence of biological differences among these distinct blood parasites, the authors suggest further investigations of possible correlations between the morphological markers and clinical-epidemiological aspects of Chagas' disease.     

Experimental Trypanosoma cruzi biclonal infection in Triatoma infestans: detection of distinct clonal genotypes using kinetoplast DNA probes

Monitored biclonal densities of parasites were offered to third-stage larvae of Triatoma infestans via an artificial feeding device and 30 days later, the gut contents of the insects were processed for microscopic examination and polymerase chain reaction (PCR) detection of Trypanosoma cruzi kinetoplast DNA [kDNA]). A total of 15 mixtures involving nine different stocks attributed to the 19/20, 32 and 39 major clonal genotypes of Trypanosoma cruzi were used. The presence of each T. cruzi clonal genotype after completion of the cycle through the insects was investigated by hybridising the PCR amplification products with genotype-specific minicircle kDNA probes. Sixty-five out of 90 examined insects (72.2%) were positive for parasites by microscopic examination and 85 (94.4%) were positive by PCR. The results show that almost half of the biclonal infections are not detectable after completion of the cycle, and that there are important differences in detection of such biclonal infections according to the clonal genotypes considered. Moreover, elimination of a clonal genotype by another is a frequent, but not constant, pattern in biclonal infections of T. infestans. The use of PCR and kDNA probes makes it possible to avoid the culture phase, which makes detection of mixed infections much easier in epidemiological surveys. Moreover, the fact that T. infestansdoes not transmit different T. cruzi clonal genotypes with the same efficiency has strong implications for the reliability of xenogiagnosis.     

Antibody dependent cell-mediated cytotoxicity against Trypanosoma cruzi.

This paper describes in vitro antibody dependent cytotoxicity against Trypanosoma cruzi epimastigotes by normal mouse splenic lymphocytes. Cytotoxicity was expressed as the percentage reduction in the number of motile parasites upon incubation with lymphocytes at 37 degrees C in a defined medium. Failure of the non-motile parasites to regain motility and their ensuing degeneration of 28 degrees C in liver infusion tryptose (LIT) medium confirmed loss of motility as a criterion of cytotoxicity. Incubation of T. cruzi cruzi at 37 degrees C for 18 h in a defined medium per se did not interfere with motility but was followed by a lag phase of the growth curve in LIT medium at 28 degrees C. The lag phase was prolonged for T. cruzi which had previously been incubated at 37 degrees C in the absence of cells.     

The Trypanosoma cruzi protease cruzain mediates immune evasion

Trypanosoma cruzi is the causative agent of Chagas' disease. Novel chemotherapy with the drug K11777 targets the major cysteine protease cruzain and disrupts amastigote intracellular development. Nevertheless, the biological role of the protease in infection and pathogenesis remains unclear as cruzain gene knockout failed due to genetic redundancy. A role for the T. cruzi cysteine protease cruzain in immune evasion was elucidated in a comparative study of parental wild type- and cruzain-deficient parasites. Wild type T. cruzi did not activate host macrophages during early infection (<60 min) and no increase in ～P iκB was detected. The signaling factor NF-κB P65 colocalized with cruzain on the cell surface of intracellular wild type parasites, and was proteolytically cleaved. No significant IL-12 expression occurred in macrophages infected with wild type T. cruzi and treated with LPS and BFA, confirming impairment of macrophage activation pathways. In contrast, cruzain-deficient parasites induced macrophage activation, detectable iκB phosphorylation, and nuclear NF-κB P65 localization. These parasites were unable to develop intracellularly and survive within macrophages. IL 12 expression levels in macrophages infected with cruzain-deficient T. cruzi were comparable to LPS activated controls. Thus cruzain hinders macrophage activation during the early (<60 min) stages of infection, by interruption of the NF-κB P65 mediated signaling pathway. These early events allow T. cruzi survival and replication, and may lead to the spread of infection in acute Chagas' disease.     

Steroidogenic capacity of Trypanosoma cruzi trypomastigotes

American Trypanosomiasis is caused by the hemoflagellate Trypanosoma cruzi (T. cruzi) and affects millions of persons causing variable degrees of digestive and heart disturbances. As far as we concerned, T. cruzi capacity to synthesize steroid hormones has not been investigated. Therefore, the aim of this work was to investigate the capacity of T. cruzi trypomastigotes to transform tritiated steroid precursors into androgens and estrogens. The T. cruzi Tulahuén strain was obtained from mice blood. The trypomastigotes were cultured for 6 and 24h in Dulbbeco's modified Eagle's medium plus FCS and antibiotics. Tritiated dehydroepiandrosterone or androstendione were added to the culture media and parasites were incubated for 6 or 24h. The cultures were centrifuged and ether extracted. The steroids were analyzed by thin layer chromatography (TLC) in two solvent systems. After incubation with (3)H-androstenedione, T. cruzi trypomastigotes synthesized (3)H-testosterone (T), (3)H-17beta-estradiol (E(2)) and (3)H-estrone (E(1)). Metabolism of (3)H-DHEA by the parasites yielded (3)H-androstendione and (3)H-androstendiol at 6h of incubation. The recrystallization procedure further demonstrated the (3)H-androstendiol and (3)H-17beta-estradiol syntheses. Results indicate for the first time that T. cruzi trypomastigotes produce androgens and estrogens when incubated in the presence of steroid precursors and suggest the presence of active parasite steroidogenic enzymes.     

Fibronectin enhances macrophage association with invasive forms of Trypanosoma cruzi

Treatment of either mouse peritoneal macrophages (MPH) or invasive blood forms of Trypanosoma cruzi with human plasma fibronectin (FN) significantly enhanced their association (a term to mean surface attachment and parasite internalization) with the untreated counterpart in a dose-dependent manner. This effect involved increases in the percentage of MPH that associated with the parasites and in the number of parasites per MPH. By using indirect immunofluorescence, the percentages of FN-positive MPH and FN-positive parasites found in preparations of these cells were 26 and 13%, respectively, and increased to 70 and 73%, respectively, after incubation with FN for 60 min and multiple washings. These results demonstrated the presence of FN itself and FN-binding sites on the surface of MPH and T. cruzi. Incubation of FN-treated MPH and FN-treated parasites with gelatin, for which FN has a binding site, significantly reduced the stimulatory effect of FN. A reduction was also seen when FN-treated MPH were incubated with anti-FN antibody before adding the parasites. These observations suggested that FN might enhance association by bridging the interacting cells. The presence of excess soluble FN during MPH-parasite interaction also inhibited the association, possibly by blocking FN receptors on the MPH and parasite surfaces. Pretreatment of the MPH with FN enhanced the capacity of these cells to associate with either untreated latex beads or killed T. cruzi. These findings indicated, on the one hand, that the FN-mediated enhancement was not unique to living T. cruzi and, on the other, that this enhancement was not likely due to an FN-induced alteration of the MPH membrane that would render it more susceptible to active penetration by the parasites. Taken together, these results suggest that FN, produced by MPH, may play a role in infection of this cell type by T. cruzi.