Involvement of STI1 protein in the differentiation process of Trypanosoma cruzi

The protozoan Trypanosoma cruzi is a parasite exposed to several environmental stressors inside its invertebrate and vertebrate hosts. Although stress conditions are involved in its differentiation processes, little information is available about the stress response proteins engaged in these activities. This work reports the first known association of the stress-inducible protein 1 (STI1) with the cellular differentiation process in a unicellular eukaryote. Albeit STI1 expression is constitutive in epimastigotes and metacyclic trypomastigotes, higher protein levels were observed in late growth phase epimastigotes subjected to nutritional stress. Analysis by indirect immunofluorescence revealed that T. cruzi STI1 (TcSTI1) is located throughout the cell cytoplasm, with some cytoplasmic granules appearing in greater numbers in late growing epimastigotes and late growing epimastigotes subjected to nutritional stress. We observed that part of the fluorescence signal from both TcSTI1 and TcHSP70 colocalized around the nucleus. Gene silencing of sti1 in Trypanosoma brucei did not affect cell growth. Similarly, the growth of T. cruzi mutant parasites with a single allele sti1 gene knockout was not affected. However, the differentiation of epimastigotes in metacyclic trypomastigotes (metacyclogenesis) was compromised. Lower production rates and numbers of metacyclic trypomastigotes were obtained from the mutant parasites compared with the wild-type parasites. These data indicate that reduced levels of TcSTI1 decrease the rate of in vitro metacyclogenesis, suggesting that this protein may participate in the differentiation process of T. cruzi.     

Trypanosoma cruzi: Cell Biological Behavior of Epimastigote and Amastigote Forms in Axenic Culture

A simple protocol to maintain Trypanosoma cruzi amastigote stocks indefinitely in axenic culture is described. The growth characteristics of amastigotes differ markedly from epimastigotes cultured under identical conditions. The amastigotes replicate for two generations, followed by a transformation to epimastigotes and resumption of growth. By changing the culture medium at the end of the second amastigote generation, transformation to epimastigotes is inhibited. Therefore, the protocol used to maintain amastigotes in culture is based upon changing the culture medium at preselected intervals. Flow cytometric analyses indicate that at the end of the exponential phase of growth the amastigote population consists of predominately G₁ cells; changing the medium induces the amastigotes to begin a para-synchronous round of DNA synthesis without a pre-replicative lag phase. In contrast, when exponentially growing or stationary-phase epimastigotes are transferred to fresh culture medium, they grow asynchronously until reaching a limiting cell density. Amastigotes also differ from epimastigotes in being resistant to the lytic activity of human complement. These data demonstrate that marked differences in phenotypic expression exist between developmental stages of T. cruzi even when cultured under identical conditions.     

Cellular analysis of host cell infection by different developmental stages of Trypanosoma cruzi

Trypanosoma cruzi is an obligate intracellular parasite that infects phagocytic and non-phagocytic mammalian cells by a complex process that appears to involve several discrete steps. Even though the infection process was described many years ago, the molecular mechanisms involved remain poorly understood. As fluorescent proteins have proven to be excellent tools for live-cell imaging, we used EGFP- and DsRed1-1-transfected trypomastigotes, amastigotes and epimastigotes to study the infection process in living cells. Contrary to what has been reported, our results showed that epimastigotes are as infective as trypomastigotes and amastigotes. Besides, differences in replication, differentiation and parasite release times were observed among the stages. Our results suggest that the different developmental stages use distinct attachment and invasion mechanisms. We propose that fluorescent-based plasmid expression systems are good models for studying the infection process of intracellular microorganisms and could offers insights about the molecular mechanisms involved.     

Trypanosoma cruzi: Comparative fatty acid metabolism of the epimastigotes and trypomastigotes in vitro

In vitro studies on the fatty acid metabolism of the epimastigotes and trypomastigotes of Trypanosoma cruzi showed the following: (1) Trypomastigotes demonstrated the ability to convert labeled palmitic acid to CO₂. Epimastigotes either did not convert this fatty acid to CO₂ or did so at a very low rate. (2) Trypomastigotes incorporated palmitic acid into neutral lipids, but, at a rate less than that of the epimastigotes. (3) While epimastigotes readily incorporated palmitic acid into phospholipid lipids, trypomastigote forms seemed to lack this ability.     

Trypanosoma cruzi: cell biological behavior of epimastigote and amastigote forms in axenic culture

A simple protocol to maintain Trypanosoma cruzi amastigote stocks indefinitely in axenic culture is described. The growth characteristics of amastigotes differ markedly from epimastigotes cultured under identical conditions. The amastigotes replicate for two generations, followed by a transformation to epimastigotes and resumption of growth. By changing the culture medium at the end of the second amastigote generation, transformation to epimastigotes is inhibited. Therefore, the protocol used to maintain amastigotes in culture is based upon changing the culture medium at preselected intervals. Flow cytometric analyses indicate that at the end of the exponential phase of growth the amastigote population consists of predominately G1 cells; changing the medium induces the amastigotes to begin a para-synchronous round of DNA synthesis without a pre-replicative lag phase. In contrast, when exponentially growing or stationary-phase epimastigotes are transferred to fresh culture medium, they grow asynchronously until reaching a limiting cell density. Amastigotes also differ from epimastigotes in being resistant to the lytic activity of human complement. These data demonstrate that marked differences in phenotypic expression exist between developmental stages of T. cruzi even when cultured under identical conditions.     

Humoral antibody response and Ig characterization of the specific agglutinins in rabbits during experimental American trypanosomiasis

A comparative follow up study of the specific agglutinins detected by direct agglutination (DA) test and the immune response detected by specific lysis (SL), indirect immunofluorescence (IFA), indirect hemagglutination (IHA) and complement fixation (CF) tests in rabbits inoculated with trypomastigotes of T. cruzi is reported here.The specific antibody response was detected first by DA test. Reductive cleavage of sera with 2-mercaptoethanol produced a drop in the agglutinin titer of the sera during the first 30 days of infection.The next test to become positive was SL and later on the IFA, IHA and CF tests became positive simultaneously.When fractions obtained by column chromatography in Sephadex G-200 were tested serologically it was demonstrated that specific antibodies were detected mainly in fraction I (IgM) of the pooled rabbit sera obtained 15 days after inoculation (acute stage), and in fraction II (IgG) of the pooled sera obtained from rabbits 90 days after inoculation (chronic stage).Antigens prepared with trypsinized and formolized epimastigotes of three T. cruzi strains, belonging to each one of the different immunological groups described, worked similarly in the detection of specific agglutinin antibodies.Trypanosoma cruzi agglutinins were highly specific in their reaction with their homologous T. cruzi antigens as was proved by the low agglutinin titer obtained in sera from infected rabbits when, instead of T. cruzi epimastigotes, promastigotes of L. donovani were used as antigen, and by the incapacity of this parasite to absorb the T. cruzi agglutinins.     

Trypanosoma cruzi: intracellular stages grown in a cell-free medium at 37 C.

A liquid medium containing a high concentration of water-soluble vitamins and ATP was developed for serial cultivation of Trypanosoma cruzi at 27–37 C; fetal bovine serum and trypticase were the only undefined substances in this medium. At 27 C, Trypanosoma cruzi grows primarily (over 99%) as epimastigotes with a population density reaching 92.7 × 10⁶/ml after 12 days of incubation. During the first subculture at 37 C, many epimastigotes from the original inocula changed into metacyclic trypomastigotes after 48 hr; the trypomastigotes subsequently transformed into amastigotes by 96 hr. In the second passage at 48 hr, 57.8% of the organisms were trypomastigotes which changed into amastigotes by the end of the incubation period. The proportion of amastigotes in the third and subsequent passages increased steadily as the proportion of epimastigotes gradually diminished. Amastigotes thus obtained could be serially subcultured indefinitely, yielding population densities of over 3.0 × 10⁷/ml of medium in 4–5 days at 37 C. Available evidence indicates that these amastigotes are morphologically and physiologically similar to intracellular amastigotes.     

Trypanosoma cruzi: Nucleotide and vitamin requirements of growing epimastigotes

Using a defined culture medium it was shown that Trypanosoma cruzi epimastigotes (strains Y, Ma, and F1) do not require exogeneous nucleotides for continuous cultivation. Biochemical determinations carried out on parasites grown in the presence or absence of exogenous nucleotides revealed no differences in intracellular nucleotide concentrations. This suggests that T. cruzi epimastigotes have the capacity for de novo nucleotide synthesis. Choline and folic acid were necessary only for high yields of T. cruzi, suggesting that epimastigotes can partially satisfy their vitamin requirements.     

The lysis of Trypanosoma cruzi epimastigotes by eosinophils and neutrophils

López A.F., Bunn Moreno M.M. and Sanderson C.J. 1978. The lysis of Trypanosoma cruzi epimastigotes by eosinophils and neutrophils. International Journal for Parasitology8: 485–489. Antibody-dependent cell-mediated cytotoxicity of T. cruzi epimastigotes has been studied by means of an isotopic assay for parasite lysis, in which the release of labelled RNA is measured. It is shown that rat eosinophils and neutrophils have approximately equal activity against the parasite in the presence of antibody. Antibody enhances the activity of neutrophils about 8-fold, whereas eosinophils have no detectable activity in the absence of antibody.Attention is drawn to the tendency of eosinophils to be inactivated by in vitro manipulation, especially adherence techniques used for removing macrophages and neutrophils.     

Cultivation of Trypanosoma cruzi epimastigotes in low glucose axenic media shifts its competence to differentiate at metacyclic trypomastigotes

This study offers an insight into why Trypanosoma cruzi epimastigotes lose their capacity to differentiate into metacyclic forms, if maintained in culture media long-term through serial passages. The biological and metabolic behaviour of two T. cruzi strains isolated from various origins (human, opossum), and maintained under two schedules (alternate triatomine/mouse passages and serial culture media) were compared. To determine the effect of the environment on the parasites, the epimastigotes were grown under extreme conditions (high and low glucose concentrations), and the glucose consumption, ammonia production and changes in pH, either in one compartment (along the growth curve) or two compartments (induced metacyclogenesis) were compared. The glucose effect on the stages involved in metacyclogenesis at antigenic level was also evaluated. The results indicate that T. cruzi adapts to various environmental conditions and also that the ability of epimastigotes to undergo metacyclogenesis are influenced by the maintenance schedule. Antigenic profile analysis supports the idea that epimastigotes adapted to culture media do not complete their molecular differentiation into the trypomastigote metacyclic stage. These transition forms conserve some degree of gene expression of the epimastigote stage.     

Lipid peroxidation and the generation of free radicals, superoxide anion, and hydrogen peroxide in beta-lapachone-treated Trypanosoma cruzi epimastigotes.

β-Lapachone, an antimicrobial agent, was reduced by Trypanosoma cruzi epimastigotes to a semiquinone radical. It markedly increased the generation of superoxide anion and hydrogen peroxide in intact cells. Using NADH as electron donor, β-lapachone also increased significantly the rate of H₂O₂ generation in epimastigote homogenates. Incubation of epimastigotes with β-lapachone stimulated lipid peroxidation.     

Attachment of flagellum to the cell body is important to the kinetics of transferrin uptake by Trypanosoma cruzi

The flagellar pocket and the cytostome are surface domains of Trypanosoma cruzi epimastigote involved in acquisition of nutrients. The cytostome is physically connected to the flagellar complex. To investigate if this association plays a role in endocytosis in T. cruzi, the endocytic activity in wild type and gp72 null mutant (flagellum-cell body attachment region is absent) epimastigotes was compared. Both wild type and mutant cells were incubated with transferrin conjugated with Alexa 543 or gold particles over different time periods and thereafter qualitatively and quantitatively analyzed by flow cytometry and transmission electron microscopy. Flow cytometry analysis showed a reduction in transferrin uptake by null mutant after 30 min of incubation. In addition, at this time period, signals detected by fluorescence microscopy were slightly lower in null mutant cells. At lower incubation times, no differences between wild type and mutant epimastigotes could be observed. Quantitative data obtained by morphometric and flow cytometry analysis suggested that the speed of the endocytic process in the null mutant was similar to wild type cells, although null mutants were not able to bind cargo and therefore internalize as much as wild type epimastigotes. Our observations suggest that the physical association between cytostome and the flagellar complex plays a role in endocytosis efficiency by epimastigotes of T. cruzi.     

Trypanosoma cruzi Epimastigotes Are Able to Manage Internal Cholesterol Levels under Nutritional Lipid Stress Conditions

Trypanosoma cruzi epimastigotes store high amounts of cholesterol and cholesteryl esters in reservosomes. These unique organelles are responsible for cellular digestion by providing substrates for homeostasis and parasite differentiation. Here we demonstrate that under nutritional lipid stress, epimastigotes preferentially mobilized reservosome lipid stocks, instead of lipid bodies, leading to the consumption of parasite cholesterol reservoirs and production of ergosterol. Starved epimastigotes acquired more LDL-NBD-cholesterol by endocytosis and distributed the exogenous cholesterol to their membranes faster than control parasites. Moreover, the parasites were able to manage internal cholesterol levels, alternating between consumption and accumulation. With normal lipid availability, parasites esterified cholesterol exhibiting an ACAT-like activity that was sensitive to Avasimibe in a dose-dependent manner. This result also implies that exogenous cholesterol has a role in lipid reservoirs in epimastigotes.     

Ultrastructure of the “Cyst-like Bodies” of Trypanosoma conorhini*

SYNOPSIS. An electron microscope study was made of the “cyst-like bodies” (CLBs) previously described in cultures of Trypanosoma conorhini. It is again suggested that CLBs are a process of reproduction which involves fusion of epimastigotes, repeated divisions of DNA-containing organelles and organization of daughter epimastigotes that, after being completely formed, may be found free within the large central “vacuole” of the CLB. This “vacuole,” it is now evident, results from the fused and muchdilated flagellar reservoirs of parent epimastigotes. Our interpretation of the CLBs and their possible genetic significance are discussed.     

Separation of Individual Stages of Trypanosoma cruzi Grown in Cell Culture by Continuous Free-Flow Electrophoresis

The separation of extracellular protozoan parasites from host cells based on a difference in surface charge has been described. However, with Trypanosoma cruzi no method exists for the isolation of pure parasite stages from heterogeneous mixtures. Studies on the electrophoresis of mixed stage populations confirm significant surface charge density differences exist among epimastigotes, trypomastigotes, and amastigotes. In ascending order of electronegativity, amastigotes have the lowest charge density, try-pomastigotes next, followed by epimastigotes. A technique has been developed for the separation of purified populations of parasites based on these charge differences using a continuous free-flow electrophoresis apparatus. The separated populations are morphologically intact and maintain their infectivity to mice. This separation method is applicable for preparative and analytical isolation of pure stages of T. cruzi for biochemical and immunological studies.     

Proliferation and Differentiation of Trypanosoma cruzi inside Its Vector Have a New Trigger: Redox Status

Trypanosoma cruzi proliferate and differentiate inside different compartments of triatomines gut that is the first environment encountered by T. cruzi. Due to its complex life cycle, the parasite is constantly exposed to reactive oxygen species (ROS). We tested the influence of the pro-oxidant molecules H₂O₂ and the superoxide generator, Paraquat, as well as, metabolism products of the vector, with distinct redox status, in the proliferation and metacyclogenesis. These molecules are heme, hemozoin and urate. We also tested the antioxidants NAC and GSH. Heme induced the proliferation of epimastigotes and impaired the metacyclogenesis. β-hematin, did not affect epimastigote proliferation but decreased parasite differentiation. Conversely, we show that urate, GSH and NAC dramatically impaired epimastigote proliferation and during metacyclogenesis, NAC and urate induced a significant increment of trypomastigotes and decreased the percentage of epimastigotes. We also quantified the parasite loads in the anterior and posterior midguts and in the rectum of the vector by qPCR. The treatment with the antioxidants increased the parasite loads in all midgut sections analyzed. In vivo, the group of vectors fed with reduced molecules showed an increment of trypomastigotes and decreased epimastigotes when analyzed by differential counting. Heme stimulated proliferation by increasing the cell number in the S and G2/M phases, whereas NAC arrested epimastigotes in G1 phase. NAC greatly increased the percentage of trypomastigotes. Taken together, these data show a shift in the triatomine gut microenvironment caused by the redox status may also influence T. cruzi biology inside the vector. In this scenario, oxidants act to turn on epimastigote proliferation while antioxidants seem to switch the cycle towards metacyclogenesis. This is a new insight that defines a key role for redox metabolism in governing the parasitic life cycle.     

Trypanosoma cruzi TcSMUG L-surface Mucins Promote Development and Infectivity in the Triatomine Vector Rhodnius prolixus

Background

TcSMUG L products were recently identified as novel mucin-type glycoconjugates restricted to the surface of insect-dwelling epimastigote forms of Trypanosoma cruzi, the etiological agent of Chagas disease. The remarkable conservation of their predicted mature N-terminal region, which is exposed to the extracellular milieu, suggests that TcSMUG L products may be involved in structural and/or functional aspects of the interaction with the insect vector.

Methodology and Principal Findings

Here, we investigated the putative roles of TcSMUG L mucins in both in vivo development and ex vivo attachment of epimastigotes to the luminal surface of the digestive tract of Rhodnius prolixus. Our results indicate that the exogenous addition of TcSMUG L N-terminal peptide, but not control T. cruzi mucin peptides, to the infected bloodmeal inhibited the development of parasites in R. prolixus in a dose-dependent manner. Pre-incubation of insect midguts with the TcSMUG L peptide impaired the ex vivo attachment of epimastigotes to the luminal surface epithelium, likely by competing out TcSMUG L binding sites on the luminal surface of the posterior midgut, as revealed by fluorescence microscopy.

Conclusion and Significance

Together, these observations indicate that TcSMUG L mucins are a determinant of both adhesion of T. cruzi epimastigotes to the posterior midgut epithelial cells of the triatomine, and the infection of the insect vector, R. prolixus.     

Resistance of mice immunized with irradiated and lyophilized stages of Trypanosoma cruzi to infections with metacyclics

Okanla E. O., Stumpf J. L. &; Dusanic D. G. 1982. Resistance of mice immunized with irradiated and lyophilized stages of Trypanosoma cruzi to infections with metacyclics. International Journal for Parasitology12: 251–256. BALB/c mice were immunized with either irradiated or lyophilized metacyclic, epimastigote or bloodstream forms of Trypanosoma cruzi in three weekly injections of 1 × 10⁸ trypanosomes/injection. The lyophilized trypanosomes were emulsified in equal quantities of Freund's complete adjuvant. Two weeks following the final immunization, the mice were challenged subcutaneously with metacyclics obtained from either culture or the vector Triatoma infestans. The mice challenged with metacyclics from culture included groups of mice immunized with each of the three stages, while those challenged with metacyclics from the T. infestans included mice immunized with the epimastigotes or metacyclics. Mice immunized with the irradiated epimastigotes, metacyclics and blood-stream form trypomastigote challenged with metacyclics from culture exhibited reduced parasitemias compared to mice of the control groups. Parasitemias were lowest in those mice immunized with irradiated metacyclics. The parasitemias terminated in the immunized mice before those of the control animals. No protection was detected in the mice inoculated with lyophilized trypanosomes and challenged with culture metacyclics. Groups of mice injected with either irradiated or lyophilized epimastigotes or metacyclics and challenged with metacyclics from T. infestans exhibited resistance both by reduction of the parasitemias and the duration of the parasitemias when compared to the infected control animals. This study demonstrated the comparative effectiveness in mice of irradiated and lyophilized vaccines produced from either metacyclics, epimastigotes or bloodstream forms when challenged with metacyclics obtained from culture and the vector.     

Antibody-dependent cytolysis of Trypanosoma cruzi by human polymorphonuclear leukocytes.

Human polymorphonuclear leukocytes were cytotoxic to Trypanosoma cruzi epimastigotes in the presence of specific antibodies from Chagas' disease patients and sera from rabbits immunized with homogenates of T. cruzi epimastigotes. Cytotoxicity was evaluated by the in vitro release of [³H]uridine-labeled RNA from culture forms. Under the same conditions, mononuclear cells were not cytotoxic. Pretreatment of target cells with antibodies was as effective as the continued presence of antisera during the reaction, while sera-treated effector cells did not mediate cytotoxicity. The cytotoxic effect depended on the concentration of effector cells and antibody and was progressive until 4 hr of incubation at 28 °C.