María Elisa Solana

Trypanosoma cruzi Induces Regulatory Dendritic Cells In Vitro

ABSTRACT A main feature of acute infection with Trypanosoma cruzi is the presence of immunological disorders. A previous study demonstrated that acute infection with the virulent RA strain downregulates the expression of major histocompatibility complex class II (MHC-II) on antigen-presenting cells and impairs the T-cell stimulatory capacity of splenic dendritic cells (DC). In the present work, we assessed the ability of trypomastigotes (Tp) to modulate the differentiation stage and functionality of bone marrow-derived DC in vitro. We observed that the Tp stage of T. cruzi failed to activate DC, which preserved their low expression of MHC-II and costimulatory molecules, as well as their endocytic activity. We also show that Tp induced transforming growth factor β (TGF-β) secretion by DC and enhanced the gap between interleukin-10 (IL-10) and IL-12p70 production, showing a higher IL-10/IL-12p70 ratio upon lipopolysaccharide (LPS) treatment. In addition, we observed that Tp prevented DC full activation induced by LPS, thereby downregulating their MHC-II surface expression and inhibiting their capacity to stimulate lymphocyte proliferation. In vitro IL-10 neutralization during the differentiation process of DC with Tp+LPS showed a reversion of their inhibitory effect during mixed lymphocyte reaction. In contrast, only simultaneous neutralization of IL-10 and TGF-β, after DC differentiation, was involved in the partial restitution of lymphocyte proliferation. Since both TGF-β and IL-10 are immunosuppressive cytokines essential in the modulation of the immune response and important in the induction of tolerance, our results suggest for the first time that Tp are responsible for the generation of regulatory DC in vitro.

PGE2 involvement in experimental infection with Trypanosoma cruzi subpopulations

PGE2 involvement in experimental Trypanosoma cruzi infection depends on the lethal capacity of the parasite subpopulation used. Mice acutely infected with non-lethal K98 displayed an enhancement in PGE2 serum levels during the acute period, while those infected with lethal T. cruzi subpopulations (RA or K98-2) showed levels not different from normal mice. The enhancement detected in K98 group could be related both to an increased number of CD8+ T cell number and to enhanced PGE2 release per cell by CD8+; values of PGE2 release by adherent cells were not altered in this group. Treatment with cyclooxygenase inhibitors enhanced mortality rates of mice infected with K98, and administration of 16,16-dimethyl PGE2 (dPGE) reversed this effect. However, mice infected with RA did not reduce their mortality rates by administration of diverse doses of dPGE. These findings suggest that PGE2 could play a role in resistance in mice infected with K98.

TRYPANOSOMA CRUZI: EFFECT OF PARASITE SUBPOPULATION ON MURINE PREGNANCY OUTCOME

C3H/HeN female mice infected with distinct Trypanosoma cruzi subpopulations (RA strain [pantropic/reticulotropic] and K98 clone of the CA-I strain [myotropic]) show differences both in inflammatory compromise of the genital tract and in the outcome of pregnancy. The group of mice infected with the K98 clone show lymphomononuclear infiltrates in pelvian fat and in uterus interstitium, coexisting with the presence of T. cruzi DNA, and show moderate oophoritis, perioophoritis, and vasculitis. However, neither parasite DNA nor inflammatory foci were detected in the uterus, and only mild oophoritis was observed among RA-infected mice at mating time. Independently from the parasite subpopulation, females developed estrous 30 days postinoculation (PI), and at the same time, parasite counts were similar for K98 and for RA-infected mice. However, fertility was significantly diminished in K98-infected females. On day 14 of gestation, fetal resorptions increased in this group and cannot be attributed to hormonal disbalance because similar serum progesterone levels were found in all groups. At this time (44 days PI), parasitemia was higher in K98- than in RA-infected mice. However, resorptions were not triggered by massive infection because polymerase chain reaction failed to prove parasite DNA in resorbing fetuses. In contrast with K98 females, RA-infected mice delivered T. cruzi–infected newborns.

HOST SELENIUM DEFICIENCY INCREASES THE SEVERITY OF CHRONIC INFLAMMATORY MYOPATHY IN TRYPANOSOMA CRUZI-INOCULATED MICE

Weanling C3H/HeN mice were fed either a torula yeast-based diet deficient in selenium (Se) or the same diet supplemented with 0.2 ppm Se as sodium selenite. After 4 wk of feeding, the mice were inoculated intraperitoneally with the CA-I strain (clone K98) of Trypanosoma cruzi (TC). Before inoculation, mean serum Se levels were 430 versus 61 ng/ml in adequate and deficient mice, respectively. During the ascending phase of parasitemia, the Se-deficient mice exhibited significantly higher levels of parasites at 22–34 days postinfection (PI). However, no difference was found in the subsequent descending phase. As judged by visual examination at 2-mo-PI, some Se-deficient infected mice presented clinical signs of motor dysfunction. At 3-mo-PI, the end of the observation period, this chronic disease developed into a hind limb flaccid paralysis affecting 5 of 8 infected deficient mice. No signs of paralysis were seen in noninfected mice fed either diet or in infected mice fed the Se-adequate diet. At the histological level, both Se-adequate and Se-deficient infected mice showed mild myocarditis and moderate to severe myositis, with increasing intensity from 1- to 3-mo-PI in both groups. However, the severity of myositis was always more intense in the Se-deficient mice so that prominent areas of skeletal muscle replaced by fibrotic tissue were frequently observed. Thus, it can be concluded that Se deficiency in the murine host increases the severity of TC-induced myositis.

Comparison between PCR and larvae visualization methods for diagnosis of Strongyloides stercoralis out of endemic area: A proposed algorithm.

Underdiagnosis of chronic infection with the nematode Strongyloides stercoralis may lead to severe disease in the immunosuppressed. Thus, we have set-up a specific and highly sensitive molecular diagnosis in stool samples. Here, we compared the accuracy of our polymerase chain reaction (PCR)-based method with that of conventional diagnostic methods for chronic infection. We also analyzed clinical and epidemiological predictors of infection to propose an algorithm for the diagnosis of strongyloidiasis useful for the clinician. Molecular and gold standard methods were performed to evaluate a cohort of 237 individuals recruited in Buenos Aires, Argentina. Subjects were assigned according to their immunological status, eosinophilia and/or history of residence in endemic areas. Diagnosis of strongyloidiasis by PCR on the first stool sample was achieved in 71/237 (29.9%) individuals whereas only 35/237(27.4%) were positive by conventional methods, requiring up to four serial stool samples at weekly intervals. Eosinophilia and history of residence in endemic areas have been revealed as independent factors as they increase the likelihood of detecting the parasite according to our study population. Our results underscore the usefulness of robust molecular tools aimed to diagnose chronic S. stercoralis infection. Evidence also highlights the need to survey patients with eosinophilia even when history of an endemic area is absent.

Reduction of parasite levels in blood improves pregnancy outcome during experimental Trypanosoma cruzi infection.

Infection with a myotropic Trypanosoma cruzi clone induces maternal fertility failure. In the current work, we evaluated whether reduction of maternal parasitaemia before mating has beneficial effects on pregnancy outcome. Female mice were subjected to benznidazole (Bz) treatment after infection. On day 30 of therapy, mating was assessed and pregnancy outcome was determined on day 14 of gestation. Fetal resorptions diminished in T. cruzi-infected Bz-treated mice compared with T. cruzi-infected untreated mice. This was in agreement with the reduction in the blood/solid tissue parasite load and with the percentage of necrotic foci in placental samples from T. cruzi-infected Bz-treated females. To study eventual changes in the immune homeostasis of T. cruzi-infected Bz-treated mice, activation of the immune system was evaluated at the end of Bz therapy and before mating. We found specific IgG1 reduction resulting in a predominance of specific IgG2a, reduced numbers of CD69+ CD4+ cells and diminished frequency and numbers of CD44+ T cells. Concanavalin A-stimulated splenocytes from T. cruzi-infected Bz-treated mice produced higher amounts of IFN-gamma than T. cruzi-infected untreated mice. These results indicate that reduction of maternal parasite load improves pregnancy outcome. These findings correlate with a favourable modulation of the immune response.

Decay-accelerating factor 1 deficiency exacerbates Trypanosoma cruzi-induced murine chronic myositis.

Introduction: Murine infection with Trypanosoma cruzi (Tc) has been used to study the role of T‐cells in the pathogenesis of human inflammatory idiopathic myositis. Absence of decay‐accelerating factor 1 (Daf1) has been shown to enhance murine T‐cell responses and autoimmunity. Methods: To determine whether Daf1 deficiency can exacerbate Tc‐induced myositis, C57BL/6 DAF+/+ and DAF−/− mice were inoculated with 5 × 104 trypomastigotes, and their morbidity, parasitemia, parasite burden, histopathology, and T‐cell expansion were studied in the acute and chronic stages. Results: DAF−/− mice had lower parasitemia and parasite burden but higher morbidity, muscle histopathology, and increased number of CD44+ (activated/memory phenotype) splenic CD4+ and CD8+ T‐cells. Conclusions: An enhanced CD8+ T‐cell immune‐specific response may explain the lower parasitemia and parasite burden levels and the increase in histopathological lesions. We propose that Tc‐inoculated DAF−/− mice are a useful model to study T‐cell mediated immunity in skeletal muscle tissues. Muscle Nerve 46: 582–587, 2012

Dendritic cells devoid of IL-10 induce protective immunity against the protozoan parasite Trypanosoma cruzi.

In diverse models of microbial infections, protection is improved by immunization with dendritic cells (DC) loaded with whole pathogen lysate. However, pathogens that modulate DC function as a way to evade immunity may represent a challenge for these vaccination strategies. Thus, DC must be instructed in a particular manner to circumvent this issue and drive an effective immune response. Trypanosoma cruzi or its molecules alter DC function and, as we demonstrated, this phenomenon is associated with the parasite-driven stimulation of IL-10 production by DC. Here, we show that DC from IL-10-deficient mice pulsed in vitro with trypomastigote lysate secreted increased amounts of Th1-related cytokines and stimulated higher allogeneic and antigen-specific lymphocyte responses than their wild-type counterparts. In a model of DC-based immunization, these antigen-pulsed IL-10-deficient DC conferred protection against T. cruzi infection to recipient mice. Efficient immunity was associated with enhanced antigen-specific IFN-gamma production and endogenous DC activation. We illustrate for the first time a DC-based vaccination against T. cruzi and evidence the key role of IL-10 produced by sensitizing DC in inhibiting the induction of protection. These results support the rationale for vaccination strategies that timely suppress the effect of specific cytokines secreted by antigen presenting DC.

Trypanosoma cruzi: immunological predictors of benznidazole efficacy during experimental infection.

C3H/HeN male mice were infected with a lethal population of Trypanosoma cruzi and treated with benznidazole (Bz). Parasitemia, body weight and survival rate were registered during the therapy with significant improvement for T. cruzi-infected Bz-treated animals. Besides, flow cytometry resulted a useful method to discriminate between cured animals from those not cured by monitoring IgG(1) bound to live trypomastigotes levels. At the end of Bz therapy, the LT splenocyte compartment was studied for activation/memory cell surface markers (CD(69)(+) and CD(44)(+)). Cytofluorometric analysis showed that T. cruzi-infected untreated mice increased their activated LT numbers and this effect was completely abolished only in cured mice at the end of Bz administration. The same behavior was observed for the memory LT subpopulation correlating to an effector memory (CD(62L)(-)) displayed by T. cruzi infection. Bz treatment was able to modulate the immunological response by reducing the deleterious effect of the acute phase in all T. cruzi-infected mice.

Inhibition of HIV-1 Replication in Human Monocyte- Derived Macrophages by Parasite Trypanosoma cruzi

Background Cells of monocyte/macrophage lineage are one of the major targets of HIV-1 infection and serve as reservoirs for viral persistence in vivo. These cells are also the target of the protozoa Trypanosoma cruzi, the causative agent of Chagas disease, being one of the most important endemic protozoonoses in Latin America. It has been demonstrated in vitro that co-infection with other pathogens can modulate HIV replication. However, no studies at cellular level have suggested an interaction between T. cruzi and HIV-1 to date. Methodology/Principal Findings By using a fully replicative wild-type virus, our study showed that T. cruzi inhibits HIV-1 antigen production by nearly 100% (p<0.001) in monocyte-derived macrophages (MDM). In different infection schemes with luciferase-reporter VSV-G or BaL pseudotyped HIV-1 and trypomastigotes, T. cruzi induced a significant reduction of luciferase level for both pseudotypes in all the infection schemes (p<0.001), T. cruzi-HIV (>99%) being stronger than HIV-T. cruzi (∼90% for BaL and ∼85% for VSV-G) infection. In MDM with established HIV-1 infection, T. cruzi significantly inhibited luciferate activity (p<0.01). By quantifying R-U5 and U5-gag transcripts by real time PCR, our study showed the expression of both transcripts significantly diminished in the presence of trypomastigotes (p<0.05). Thus, T. cruzi inhibits viral post-integration steps, early post-entry steps and entry into MDM. Trypomastigotes also caused a ∼60-70% decrease of surface CCR5 expression on MDM. Multiplication of T. cruzi inside the MDM does not seem to be required for inhibiting HIV-1 replication since soluble factors secreted by trypomastigotes have shown similar effects. Moreover, the major parasite antigen cruzipain, which is secreted by the trypomastigote form, was able to inhibit viral production in MDM over 90% (p<0.01). Conclusions/Significance Our study showed that T. cruzi inhibits HIV-1 replication at several replication stages in macrophages, a major cell target for both pathogens.