Mechanisms underlying immunosuppression induced by Trypanosoma cruzi

Trypansoma cruzi affects immune responsiveness in mammalian hosts. Studies with patients and infected animals have defined some of the immunological dysfunctions but not the underlying mechanisms. Recent work using an in vitro model system of T. cruzi-human lymphocyte interactions has made it possible to uncover specific alterations in human lymphocyte activation induced by this parasite. Felipe Kierzenbaum and Marcelo Sztein discuss recent advances in our understanding of the processes that lead to impaired human lymphocyte function and that might be involved in the immunosuppression seen in the acute phase of Chagas disease.     

Flagellar elongation induced by glucose limitation is preadaptive for Trypanosoma cruzi differentiation

Trypanosomes must sense and respond to environmental change in order to progress through their life cycles. The American trypanosome, Trypanosoma cruzi, differentiates from the noninfective epimastigote form to the infective metacyclic form spontaneously in axenic culture. Here, we investigate the initial stimulus for that change and demonstrate that T. cruzi epimastigotes sense limitation of glucose in the medium and respond by undergoing significant morphological and biochemical change. As part of this change, the mean flagellar length of the population triples, which is correlated with an increased ability to maintain interactions with hydrophobic substrates, a requirement for differentiation to the next life cycle stage.     

A superfamily of Trypanosoma cruzi surface antigens

Several genes o f Trypanosoma cruzi encode surface antigens that include an amino acid motif that is conserved among bacterial neurominidases. Oscar Campetella, Daniel Sdnchez, Juan Jose Cazzulo and Alberto Carlos Frasch here suggest grouping these gene families in a superfamily.     

Comparison of genes encoding Trypanosoma cruzi antigens

Trypanosoma cruzi, the causative agent of Chagas disease, simultaneously expresses several different surface antigens. This contrasts sharply with blood-stream forms o f the African trypanosomes, which display only one variant surface glycoprotein at a time. Over the past few years, the genes coding for a number of T. cruzi proteins recognized by sera from patients have been cloned and at least partially sequenced. However, some of those discovered in more than one laboratory have been given different names. Here, Carlos Frasch, Juan Cazzulo, Lena Aslund and UIf Pettersson try to systematize the literature available on these antigens, including what is known about their localization and function.     

Trypanosoma cruzi: early resistance induced by culture-derived trypomastigotes

Previous observations in this laboratory showed that injection of culture-derived trypomastigotes (CT), in CBA/J mice, induced an early increased resistance that was detected 24-72 hr after antigen injection and permitted mice to survive a challenge of 10(5) blood trypomastigotes (BT) corresponding to 2000 LD50%. Present experiments were conducted to determine the optimal conditions for inducing this early resistance and to investigate the early morphological changes which occurred in blood and lymphoid organs of mice infected with either BT or CT. Among nine antigens tested, only living CT showed a protective effect permitting most of mice to survive 30 days after BT challenge, while control mice injected with PBS or other antigens died at 10 +/- 1 days. A dose-response relationship was seen when different doses of CT were tested, higher doses of CT inducing higher survival and lower parasitemia. Injection of CT by either an im or ip route induced similar degrees of resistance but significantly different results were obtained when mice were challenged by using ip or im routes. Higher parasitemia and lower survival were always obtained when animals were challenged by the ip route. Within 72 hr, mice injected with BT presented a lymphopenia which reached a maximum at 48 hr, a depletion of thymic cortical zone, and splenomegaly with hyperplasia of the white pulp and congestion of the red pulp. No gross alterations were observed in animals infected with CT. Overall data suggest that the early resistance is a specifically induced phenomenon and that BT and CT induce different early reactions in the CBA/J lymphoid organs.(ABSTRACT TRUNCATED AT 250 WORDS)     

Endothelial cell signalling induced by trans-sialidase from Trypanosoma cruzi

The protozoan responsible for Chagas' disease, Trypanosoma cruzi , expresses on its surface an unusual trans -sialidase enzyme thought to play an important role in host–parasite interactions. Trans -sialidase is the product of a multigene family encoding both active and inactive proteins. We have demonstrated that despite lacking enzymatic activity due to a single mutation, Tyr342-His, inactive trans -sialidase displays sialic acid binding activity, with identical specificity to that of its active analogue. In this work we demonstrate that binding of a recombinant inactive trans -sialidase to molecules containing α2,3-linked sialic acid on endothelial cell surface triggers NF-κB activation, expression of adhesion molecules and upregulation of parasite entry into host cells. Furthermore, inactive recombinant trans -sialidase blocks endothelial cell apoptosis induced by growth factor deprivation. These results suggest that inactive members of the trans -sialidase family play a role in endothelial cell responses to T. cruzi infection.     

Trypanosoma cruzi: identification of specific epimastigote antigens by human immune sera

Soluble antigens from epimastigotes of Trypanosoma cruzi were analyzed by western blot in terms of their reactivity with sera from patients with Chagas' disease. In addition, sera from patients with visceral (AVL) and tegumental leishmaniasis (ATL) were also tested in order to identify cross-reactivities with Trypanosoma cruzi antigens. Twenty eight polypeptides with molecular weights ranging from 14 kDa to 113 kDa were identified with sera from Chagas' disease patients. An extensive cross-reactivity was observed when sera from human visceral leishmaniasis were used, while only a slight cross-reaction was observed with sera from tegumental leishmaniasis. On the other hand, 10 polypeptides specifically reacting with sera from Chagas' disease patients were identified. Among them, the antigens with molecular weights of 46 kDa and 25 kDa reacted with all sera tested and may be good candidates for specific immunodiagnosis of Chagas' disease.     

Myenteric plexus is differentially affected by infection with distinct Trypanosoma cruzi strains in Beagle dogs

Chagasic megaoesophagus and megacolon are characterised by motor abnormalities related to enteric nervous system lesions and their development seems to be related to geographic distribution of distinct Trypanosoma cruzi subpopulations. Beagle dogs were infected with Y or Berenice-78 (Be-78) T. cruzi strains and necropsied during the acute or chronic phase of experimental disease for post mortem histopathological evaluation of the oesophagus and colon. Both strains infected the oesophagus and colon and caused an inflammatory response during the acute phase. In the chronic phase, inflammatory process was observed exclusively in the Be-78 infected animals, possibly due to a parasitism persistent only in this group. Myenteric denervation occurred during the acute phase of infection for both strains, but persisted chronically only in Be-78 infected animals. Glial cell involvement occurred earlier in animals infected with the Y strain, while animals infected with the Be-78 strain showed reduced glial fibrillary acidic protein immunoreactive area of enteric glial cells in the chronic phase. These results suggest that although both strains cause lesions in the digestive tract, the Y strain is associated with early control of the lesion, while the Be-78 strain results in progressive gut lesions in this model.     

Interleukin-12 but not interleukin-18 is required for immunity to Trypanosoma cruzi in mice

Protective immunity to the parasite Trypanosoma cruzi in mice depends on a pro-inflammatory T cell response involving the production of interferon-gamma (IFN-gamma). In conjunction with interleukin-12 (IL-12), IL-18 promotes the synthesis of IFN-gamma and a T helper type 1 immune response. We investigated the requirements of IL-12 and IL-18 in murine T. cruzi infection by use of C57BL/6 mice genetically deficient in either cytokine. IL-12p40(-/-) mice succumbed to infection at doses of 100 parasites, whereas IL-18(-/-) and wild-type mice resisted infectious doses up to 1000 parasites to the same extent. Levels of parasitemia were comparable between the latter groups, as were tissue parasite burdens according to quantitative real-time PCR. In contrast, IL-12p40(-/-) mice displayed vastly increased levels of parasites both in blood and in tissue. IFN-gamma concentrations in the serum of infected mice and in supernatants of splenocytes stimulated in vitro were decreased in IL-18(-/-) mice, whereas in IL-12p40(-/-) mice, IFN-gamma was undetectable in the serum and drastically reduced in cell supernatants. Levels of IL-12 production were generally comparable between wild-type and IL-18(-/-) mice, as were levels of IL-4, IL-2 and nitric oxide. Thus, the requirement for endogenous pro-inflammatory cytokines for a protective murine immune response against T. cruzi is satisfied by the expression of IL-12, while IL-18 is dispensable.     

Inhibition by Trypanosoma cruzi of interferon-gamma production by mitogen-stimulated mouse spleen cells

Infection by Trypanosoma cruzi is accompanied by severe immunosuppression during the acute period. As part of our studies, to define the alterations caused by Trypanosoma cruzi in lymphocyte function, we examined in this work the interferon-gamma (IFN-gamma)-producing capacity of mitogen-stimulated mouse spleen and human peripheral blood mononuclear cells in the presence or absence of blood forms of the parasite. Co-culture of phytohaemagglutinin- or concanavalin A-stimulated spleen cells from normal mice with T. cruzi significantly decreased the levels of IFN-gamma activity found in the supernatants at 48 or 72 h. In contrast, human peripheral blood mononuclear cells, though suppressed by T. cruzi in their capacity to proliferate upon mitogenic stimulation, showed no significant decrease in IFN-gamma production. The addition of exogenous IFN-gamma did not reverse the suppressive effect of T. cruzi on either mouse or human cells. These results revealed, for the first time, the ability of T. cruzi to impair IFN-gamma production by activated mouse lymphocytes. The lack of restoration by exogenous IFN-gamma suggested that the reduced levels of this lymphokine were not, at least by themselves, the causative factor of reduced lymphoproliferation.     

Trypanosoma cruzi invasion is associated with trogocytosis

Trogocytosis was originally thought to be restricted to the interaction of cells of the immune system with cancer cells. Such membrane exchanges are probably a general process in cell biology, and membrane exchange has been demonstrated to occur between non-immune cells within an organism. Herein, we report that membrane and protein exchange, consistent with trogocytosis, between Trypanosoma cruzi (both the Brazil and Tulahuen strains) and the mammalian cells it infects. Transfer of labeled membrane patches was monitored by labeling of either parasites or host cells, i.e. human foreskin fibroblasts and rat myoblasts. Trypomastigotes and amastigotes transferred specific surface glycoproteins to the host cells along with membranes. Exchange of membranes between the parasite and host cells occurred during successful invasion. Extracellular amastigotes did not transfer membrane patches and were did not transfer either membranes or proteins to the host cells. Membrane exchange was also found to occur between interacting epimastigotes in cell-free culture and may be important in parasite–parasite interactions as well. Further studies should provide new insights into pathogenesis and provide targets for therapeutic intervention.     

Guerreiro Machado reaction. Chromatographic analysis of Trypanosoma cruzi antigens

The aqueous extract of Trypanosoma cruzi, previously treated by benzene, was filtered through a column of Sephadex G-200. The eluted fractions were tested by complement-fixation with the chagasic reference serum. It was found that the CF antigens were eluted in the first fractions and the contaminants in the last ones. The aqueous antigen, when dried and extracted with methanol, showed a very high titer in the complement-fixation quantitative test. This antigen is free of contaminants and can be recommended for use in the serological test for the diagnosis of Chagas' disease.     

Chagas disease: recombinant Trypanosoma cruzi antigens for serological diagnosis

Diagnosis of individuals infected by Trypanosoma cruzi is performed mainly by serological tests using crude antigens, which might crossreact with other infections. In the past ten years, many recombinant T. cruzi proteins and synthetic peptides have been described, and some are already on the market. Managers of laboratories and blood banks need to make decisions on a cost-benefit basis whether to include these new-generation tests. Here, we indicate antigens that are likely to prove most useful.     

Trypanosoma cruzi: shedding of surface antigens as membrane vesicles

Tissue culture-derived trypomastigotes from Trypanosoma cruzi spontaneously shed surface antigens into the culture medium. The shedding is a temperature- and time-dependent phenomenon and is independent of the presence of proteins or immune serum in the medium. The analysis of this process in four strains (Y, YuYu, CA1, and RA) showed differences in the amounts of polypeptides released. However, for all strains the liberation of the entire set of surface polypeptides ranging in molecular mass from 70 to 150 kDa was observed. Biochemical and electron microscopic data strongly suggest that most of the surface antigens are released as plasma membrane vesicles, ranging from 20 to 80 nm in diameter.     

Programmed cell death in Trypanosoma cruzi induced by Bothrops jararaca venom

Cells die through a programmed process or accidental death, know as apoptosis or necrosis, respectively. Bothrops jararaca is a snake whose venom inhibits the growth of Trypanosoma cruzi epimastigote forms causing mitochondrion swelling and cell death. The aim of the present work was to determine the type of death induced in epimastigotes of T. cruzi by this venom. Parasite growth was inhibited after venom treatment, and 50% growth inhibition was obtained with 10 microg/ml. Ultrastructural observations confirmed mitochondrion swelling and kinetoplast disorganization. Furthermore, cytoplasmic condensation, loss of mitochondrion membrane potential, time-dependent increase in phosphatidylserine exposure at the outer leaflet plasma membrane followed by permeabilization, activation of caspase like protein and DNA fragmentation were observed in epimastigotes throughout a 24 h period of venom treatment. Taken together, these results indicate that the stress induced in epimastigote by this venom, triggers a programmed cell death process, similar to metazoan apoptosis, which leads to parasite death.     

The trans-sialidase of Trypanosoma cruzi is anchored by two different lipids

The trans-sialidase from the trypomastigote stage of Trypanosomacruzi was metabolically labeled with [³H]-palmitic acid andpurified by immunoprecipitation with a monodonal antibody. Theaction of PI-PLC on the immunoprecipitate released a lipid thatwas analyzed by TLC. Lyso-1-O-hexadecylglycerol and N-palmitoyl-sphinganinewere obtained in a 1:3 ratio. A comparison with the GPI anchorspresent in the different stages of T.cruzi was made. GPI trans-sialidase Trypanosoma cruzi     

Trypanosoma cruzi: a stage-specific calpain-like protein is induced after various kinds of stress

Calpains are calcium-dependent cysteine proteinases found in all living organisms and are involved in diverse cellular processes. Calpain-like proteins have been reported after in silico analysis of the Tritryps genome and are believed to play important roles in cell functions of trypanosomatids. We describe the characterization of a member of this family, which is differentially expressed during the life-cycle of Trypanosoma cruzi.