BackgroundChagas disease is a parasitic disease caused by the protozoan parasite Trypanosoma cruzi. In Mexico, the burden of the disease is difficult to estimate and improving surveillance for Chagas disease is an important priority. We aimed here at determining the seroprevalence of T. cruzi infection in humans in a rural community in Veracruz.MethodsSerum samples (196) were analyzed for T. cruzi infection using five enzyme-linked immunosorbent assay (ELISA) tests: two in-house tests based on crude parasite extract and three commercial ELISA kits. Because of highly discordant results, we further explored the importance of parasite antigens and strains by western-blot analysis.ResultsA total of 74 samples (37.7 %) were reactive with at least one ELISA, but discordance among tests was very high. The best agreement was between Chagatest recombinant and Chagatek ELISA (Kappa index = 0.798). The agreement between other combinations of tests ranged from 0.038 to 0.518. Discordant samples were confirmed by western-blot analysis using up to nine parasite strains, giving a seroprevalence of 33.7 %.ConclusionsCommercial tests had a very limited ability to detect T. cruzi infection in the study population. In-house tests based on crude parasite antigens showed a greater sensitivity but were still unable to detect all cases of T. cruzi infection, even when based on a local parasite strain. The high seroprevalence confirmed the hyper-endemicity of T. cruzi infection in the region. Reliable epidemiological surveillance of Chagas disease will require the development of improved diagnostic tests.Electronic supplementary materialThe online version of this article (doi:10.1186/s13071-015-1072-2) contains supplementary material, which is available to authorized users.
Abstract. Chagas disease is endemic in the state of Veracruz, Mexico, and we investigated here the dynamics of house infestation by Chagas disease vectors to understand disease transmission and design effective control interventions. Bug collections in 42 rural villages confirmed the widespread distribution of Triatoma dimidiata in central Veracruz. Unexpectedly, collection data further indicated a clear pattern of seasonal infestation by mostly adult bugs. Analysis of feeding sources with a polymerase chain reaction-heteroduplex assay indicated a frequent feeding on humans, in agreement with the high seroprevalence previously observed. Feeding sources also confirmed a significant dispersal of bugs between habitats. High dispersal capabilities and seasonal infestation may thus be a shared characteristic of several of the T. dimidiata sibling species from this complex. It would thus be critical to adapt vector control interventions to this behavior to improve their efficacy and sustainability, as the control of T. dimidiata has been notoriously challenging.
Acute infection with Trypanosoma cruzi is characterized by immunosuppression mediated by T cells and macrophages (Mphis). Nitric oxide (NO) production during the initial phase of acute infection might participate in the clearance of parasites by Mphis, whereas its overproduction during the late phase of acute infection would account for the immunosuppression observed. Trypanosoma cruzi molecules that might regulate the host responses have not been fully identified. Here, we demonstrate that active immunization with MBP::SSP4, a recombinant protein derived from a surface antigen specific of T. cruzi amastigotes (TcSSP4), was able to stimulate Ab production (IgG1, IgG2a, and IgG2b). On the other hand, MBP::SSP4 was able to stimulate NO production by peritoneal Mphis from BALB/c mice and Mphis from the J774 cell line. This effect was also observed at the level of inducible nitric oxide synthase (iNOS) detected by Western Blot. Furthermore, MBP::SSP4 was also shown to induce the expression of IL-1alpha, IL-6, IL-12, IFN-gamma, and TNF-alpha in normal animals, and IL-10 in immunized animals. In addition the protein MBP::SSP4 was able to bind to the surface of PMphis and J774 Mphis. These results suggest that TcSSP4 could modulate Mphi NO production and this may represent a mechanism participating in the immunoregulatory processes during Chagas' disease.
Immunization of mice with plasmids containing genes of Trypanosoma cruzi induces protective immunity in the murine model of Chagas disease. A cDNA clone that codes for an amastigote-specific surface protein (TcSSP4) was used as a candidate to develop a DNA vaccine. Mice were immunized with the recombinant protein rTcSSP4 and with cDNA for TcSSP4, and challenged with bloodstream trypomastigotes. Immunization with rTcSSP4 protein makes mice more susceptible to trypomastigote infection, with high mortality rates, whereas mice immunized with a eukaryotic expression plasmid containing the TcSSP4 cDNA were able to control the acute phase of infection. Heart tissue of gene-vaccinated animals did not show myocarditis and tissue damage at 365 days following infection, as compared with control animals. INF-γ was detected in sera of DNA vaccinated mice shortly after immunization, suggesting the development of a Th1 response. The TcSSP4 gene is a promising candidate for the development of an anti-T. cruzi DNA vaccine.
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