Leishmania (Leishmania) amazonensis is a protozoan that causes infections with a broad spectrum of clinical manifestations. The currently available chemotherapeutic treatments present many problems, such as several adverse side effects and the development of resistant strains. Natural compounds have been investigated as potential antileishmanial agents, and the effects of epoxy-␣-lapachone on L. (L.) amazonensis were analyzed in the present study. This compound was able to cause measurable effects on promastigote and amastigote forms of the parasite, affecting plasma membrane organization and leading to death after 3 h of exposure. This compound also had an effect in experimentally infected BALB/c mice, causing reductions in paw lesions 6 weeks after treatment with 0.44 mM epoxy-␣-lapachone (mean lesion area, 24.9 ؎ 2.0 mm 2 ), compared to untreated animals (mean lesion area, 30.8 ؎ 2.6 mm 2 ) or animals treated with Glucantime (mean lesion area, 28.3 ؎ 1.5 mm 2 ). In addition, the effects of this compound on the serine proteinase activities of the parasite were evaluated. Serine proteinase-enriched fractions were extracted from both promastigotes and amastigotes and were shown to act on specific serine proteinase substrates and to be sensitive to classic serine proteinase inhibitors (phenylmethylsulfonyl fluoride, aprotinin, and antipain). These fractions were also affected by epoxy-␣-lapachone. Furthermore, in silico simulations indicated that epoxy-␣-lapachone can bind to oligopeptidase B (OPB) of L. (L.) amazonensis, a serine proteinase, in a manner similar to that of antipain, interacting with an S1 binding site. This evidence suggests that OPB may be a potential target for epoxy-␣-lapachone and, as such, may be related to the compound's effects on the parasite.
BackgroundLeishmania (Vianna) braziliensis, Leishmania (Leishmania) amazonensis and Leishmania (Leishmania) chagasi are important parasites in the scenario of leishmaniasis in Brazil. During the life cycle of these parasites, the promastigote forms adhere to the midgut epithelial microvillii of phlebotomine insects to avoid being secreted along with digestive products. Lulo cells are a potential model that will help to understand the features of this adhesion phenomenon. Here, we analyze the interaction between Leishmania spp. promastigotes and Lulo cells in vitro, specifically focusing on adhesion events occurring between three Leishmania species and this cell line.MethodsConfluent monolayers of Lulo cells were incubated with promastigotes and adhesion was assessed using both light microscopy and scanning electron microscopy.FindingsThe results indicate that species from the subgenera Leishmania and Viannia have great potential to adhere to Lulo cells. The highest adherence rate was observed for L. (L.) chagasi after 24 h of incubation with Lulo cells (27.3 ± 1.8% of cells with adhered promastigotes), followed by L. (L.) amazonensis (16.0 ± 0.7%) and L. (V.) braziliensis (3.0 ± 0.7%), both after 48 h. In the ultrastructural analysis, promastigote adherence was also assessed by scanning electron microscopy, showing that, for parasites from both subgenera, adhesion occurs by both the body and the flagellum. The interaction of Lulo cells with Leishmania (L.) chagasi showed the participation of cytoplasmic projections from the former closely associating the parasites with the cells.ConclusionsWe present evidence that Lulo cells can be useful in studies of insect-parasite interactions for Leishmania species.
Peptides from the COOH-terminal extension of cysteine proteinase B from Leishmania (Leishmania) amazonensis (cyspep) can modulate immune responses in vertebrate hosts. With this hypothesis as base, we used the online analysis tool SYFPEITHI to predict seven epitopes from this region with potential to bind H2 proteins. We performed proliferation tests and quantified reactive T lymphocytes applying a cytometry analysis, using samples from draining lymph node of lesions from L. (L.) amazonensis-infected mice. To define reactivity of T cells, we used complexes of DimerX (H2 D(b):Ig and H2 L(d):Ig) and the putative epitopes. Additionally, we applied surface plasmon resonance to verify real time interactions between the putative epitopes and DimerX proteins. Five peptides induced blastogenesis in BALB/c cells, while only two presented the same property in C57BL/6 mouse cells. In addition, our data indicate the existence of CD8+ T lymphocyte populations able to recognize each tested peptide in both murine strains. We observed an overlapping of results between the peptides that induced lymphocyte proliferation and those capable of binding to the DimerX in the surface plasmon resonance assays thus indicating that using these recombinant proteins in biosensing analyses is a promising tool to study real time molecular interactions in the context of major histocompatibility complex epitopes. The data gathered in this study reinforce the hypothesis that cyspep-derived peptides are important factors in the murine host infection by L. (L.) amazonensis.
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