dinucleotide (NADH) and flavin adenine dinucleotide, which donate electrons to the electron transport chain to fuel oxidative phosphorylation (OXPHOS), the process by which 32 ATP molecules are generated in the mitochondria.In inflammatory settings, OXPHOS is inhibited by nitric oxide (NO) production in monocyte-derived inflammatory dendritic cells (moDCs) in an autocrine manner. In the absence of an active respiratory chain, sustained glycolytic metabolism is essential for moDC survival and function (9). Furthermore, NO production seems to be central in orchestrating HIF-1α responses by inducing its stabilization and transcriptional activation (10).Chagas disease, a complex pathological condition resulting from Trypanosoma cruzi infection, has become one of the most frequent causes of heart failure, cardio-embolic stroke, and sudden death in Latin America (11). The acute phase lasts 2-3 months and is characterized by detectable parasitemia and active parasite replication within target tissues. However, clinical symptoms are usually mild and nonspecific, and the vast majority of acute infections are never detected. During this phase, cell-mediated immunity controls parasite levels, but it is insufficient to completely clear the infection; most individuals remain infected for life. People who survive the acute phase enter a chronic asymptomatic phase (indeterminate stage), which is generally symptomless and may last from 10 to 30 years. Approximately 30% of patients in this period, also recognized as "silent," may develop heart abnormalities (12) that could give rise to the cardiac form of chronic infection. Although antiparasitic therapy is clearly recommended for acute Chagas disease, the treatment of patients in the chronic stage is controversial. This is largely due to a lack of large, randomized trials and incomplete understanding of pathological immune mechanisms developed during this stage. After decades of controversies, it is widely accepted nowadays that parasite persistence is a necessary and sufficient condition for the sustained inflammatory responses underlying the progression of cardiac lesions of chronic Chagas disease (13-18). Thus, one of the main challenges in understanding Chagas myocarditis immunopathology is to find out why, despite a robust immune response during the acute phase of the infection, the parasite is not completely eliminated, being able to sustain a pathological inflammatory environment.Cell-mediated immunity involves activation of phagocytes and of cytotoxic T lymphocytes (CTLs). In this sense, we have recently reported increased IL-1β plasma levels concomitant with enhanced frequency of NO-producing leukocytes and the surface nitration of CTLs associated with decreased functionality of this T cell compartment in the peripheral blood from patients with Chagas disease in the indeterminate phase (19). In this study, we went deeper by exploring how metabolism affects the monocyte compartment and T cell functionality during this human infectious disease. We have found that the nonc...
Trypanosoma cruzi is a genetically heterogeneous group of organisms that cause Chagas disease. It has been long suspected that the clinical outcome of the disease and response to therapeutic agents are, at least in part, related to the genetic characteristics of the parasite. Herein, we sought to validate the significance of the genotype of T. cruzi isolates recovered from patients with different clinical forms of Chagas disease living in Argentina on their biological behaviour and susceptibility to drugs. Genotype identification of the newly established isolates confirmed the reported predominance of TcV, with a minor frequency of TcI. Epimastigote sensitivity assays demonstrated marked dissimilar responses to benznidazole, nifurtimox, pentamidine and dihydroartemisinin in vitro. Two TcV isolates exhibiting divergent response to benznidazole in epimastigote assays were further tested for the expression of anti-oxidant proteins. Benznidazole-resistant BOL-FC10A epimastigotes had decreased expression of Old Yellow Enzyme and cytosolic superoxide dismutase, and overexpression of mitochondrial superoxide dismutase and tryparedoxin- 1, compared to benznidazole-susceptible AR-SE23C parasites. Drug sensitivity assays on intracellular amastigotes and trypomastigotes reproduced the higher susceptibility of AR-SE23C over BOL-FC10A parasites to benznidazole observed in epimastigotes assays. However, the susceptibility/resistance profile of amastigotes and trypomastigotes to nifurtimox, pentamidine and dihydroartemisinin varied markedly with respect to that of epimastigotes. C3H/He mice infected with AR-SE23C trypomastigotes had higher levels of parasitemia and mortality rate during the acute phase of infection compared to mice infected with BOL-FC10A trypomastigotes. Treatment of infected mice with benznidazole or nifurtimox was efficient to reduce patent parasitemia induced by either isolate. Nevertheless, qPCR performed at 70 dpi revealed parasite DNA in the blood of mice infected with AR-SE23C but not in BOL-FC10A infected mice. These results demonstrate high level of intra-type diversity which may represent an important obstacle for the testing of chemotherapeutic agents.
Numerous abnormalities of the peripheral blood T cell compartment have been reported in human chronic Trypanosoma cruzi infection and related to prolonged antigenic stimulation by persisting parasites. Herein, we measured circulating lymphocytes of various phenotypes based on the differential expression of CD19, CD4, CD27, CD10, IgD, IgM, IgG and CD138 in a total of 48 T. cruzi-infected individuals and 24 healthy controls. Infected individuals had decreased frequencies of CD19+CD27+ cells, which positively correlated with the frequencies of CD4+CD27+ cells. The contraction of CD19+CD27+ cells was comprised of IgG+IgD-, IgM+IgD- and isotype switched IgM-IgD- memory B cells, CD19+CD10+CD27+ B cell precursors and terminally differentiated CD19+CD27+CD138+ plasma cells. Conversely, infected individuals had increased proportions of CD19+IgG+CD27-IgD- memory and CD19+IgM+CD27-IgD+ transitional/naïve B cells. These observations prompted us to assess soluble CD27, a molecule generated by the cleavage of membrane-bound CD27 and used to monitor systemic immune activation. Elevated levels of serum soluble CD27 were observed in infected individuals with Chagas cardiomyopathy, indicating its potentiality as an immunological marker for disease progression in endemic areas. In conclusion, our results demonstrate that chronic T. cruzi infection alters the distribution of various peripheral blood B cell subsets, probably related to the CD4+ T cell deregulation process provoked by the parasite in humans.
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