The stepwise selection for ketoconazole resistance induces upregulation of C14-demethylase (CYP51) in Leishmania amazonensis

Ketoconazole is a clinically safe antifungal agent that also inhibits the growth of Leishmania spp. A study was undertaken to determine whether Leishmania parasites are prone to becoming resistant to ketoconazole by upregulating C14-demethylase after stepwise pharmacological pressure. Leishmania amazonensis promastigotes [inhibitory concentration (IC)50 = 2 µM] were subjected to stepwise selection with ketoconazole and two resistant lines were obtained, La8 (IC50 = 8 µM) and La10 (IC50 = 10 µM). As a result, we found that the resistance level was directly proportional to the C14-demethylase mRNA expression level; we also observed that expression levels were six and 12 times higher in La8 and La10, respectively. This is the first demonstration that L. amazonensis can up-regulate C14-demethylase in response to drug pressure and this report contributes to the understanding of the mechanisms of parasite resistance.

Immune and inflammatory responses to Leishmania amazonensis isolated from different clinical forms of human leishmaniasis in CBA mice

Leishmania amazonensis causes different diseases depending on the host and parasitic virulence factors. In this study, CBA mice were infected with L. amazonensis isolates from patients with localized (Ba125), diffuse cutaneous (Ba276) or visceral leishmaniasis (Ba109). Mice infected with Ba125 and Ba276 progressed rapidly and lesions displayed an infiltrate rich in parasitized macrophages and were necrotic and ulcerated. Ba109 induced smaller lesions and a mixed inflammatory infiltrate without necrosis or ulceration. Ba109 induced an insidious disease with lower parasite load in CBA mice, similar to human disease. Levels of IFN-γ, IL-4 and IL-10 did not differ among the groups. Because all groups were unable to control the infection, expression of IL-4 associated with low production of IFN-γ in the early phase of infection may account for susceptibility, but others factors may contribute to the differences observed in inflammatory responses and infection progression. Evaluation of some parasitic virulence factors revealed that Ba276 exhibits higher ecto-ADPase and 5'-nucleotidase activities compared to the Ba109 and Ba125 strains. Both Ba276 and Ba125 had higher arginase activity in comparison to Ba109. Finally, these data suggest that the differences in enzyme activities among parasites can account for differences in host inflammatory responses and infection progression.

Subcellular localization of an intracellular serine protease of 68 kDa in Leishmania (Leishmania) amazonensis promastigotes

Here we report the subcellular localization of an intracellular serine protease of 68 kDa in axenic promastigotes of Leishmania (Leishmania) amazonensis, using subcellular fractionation, enzymatic assays, immunoblotting, and immunocytochemistry. All fractions were evaluated by transmission electron microscopy and the serine protease activity was measured during the cell fractionation procedure using a-N-r-tosyl-L-arginine methyl ester (L-TAME) as substrate, phenylmethylsulphone fluoride (PMSF) and L-1-tosylamino-2-phenylethylchloromethylketone (TPCK) as specific inhibitors. The enzymatic activity was detected mainly in a membranous vesicular fraction (6.5-fold enrichment relative to the whole homogenate), but also in a crude plasma membrane fraction (2.0-fold). Analysis by SDS-PAGE gelatin under reducing conditions demonstrated that the major proteolytic activity was found in a 68 kDa protein in all fractions studied. A protein with identical molecular weight was also recognized in immunoblots by a polyclonal antibody against serine protease (anti-SP), with higher immunoreactivity in the vesicular fraction. Electron microscopic immunolocalization using the same polyclonal antibody showed the enzyme present at the cell surface, as well as in cytoplasmic membranous compartments of the parasite. Our findings indicate that the internal location of this serine protease in L. amazonensis is mainly restricted to the membranes of intracellular compartments resembling endocytic/exocytic elements.

Efeitos da fosforilação de proteínas em Leishmania L. amazonensis / Effects of protein phosphorylation in Leshmania L. amazonensis

(...) Com o objetivo de abordar tais vias parasito, estudamos bioquimicamente e citoquimicamente a atividade fosfatase ácida. Parasitos tratados com os três inibidores po 1h e 24h apresetaram atividade fosfatase ácida secretada significativametne dimunuída. com a finalidade de estudar as vias de sinalização do parasito na interação com a célula hospedeira, promastigotas pré-tratados com os antagonistas foram incubados com macrófagos peritoneais. Observamos que estaurosporina 1μM inibiu, de forma significativa, a internalização e a sobrevivência intracelular dos parasitos. Nossos dados sugerem que inibidores de proteína cinases podem exercer efeitos na morfologia, infectividade e proliferação de Leishmania, bloqueando o ciclo celular desses parasitos.

Association of Lutzomyia columbiana (Diptera: Psychodidae) with a leismaniasis focus in Colombia due to species to the Leishmania mexicana complex

In Colombia, Leishmania mexicana has a scattered geographical destribution and no sand fly vectors have been associated with its transmission. During the present study, the anthropophilic sand fly Lutzomyia columbiana was found to be the only species collected using diverse methods, in a samall focus of Le. mexicana in the municipality of samaniego, SW Colombia. Ecological data indicate that this sand fly species is present in both peri and intradomestic habitats, where it readitly bites man. Further evidence comes from experimental infections of wild-caught Lu. columbiana with Le. mexicana after feeding on infected hamsters. Based on these results, it is suggested that this sand fly is the most likely vector in the study area, suggesting the existence of a previouly unknown sand fly-parasite association.

Complement resistance of Leishmania amazonensis promastigotes is independent of parasite proteases and lysis of sensitive forms is not due to natural antibodies in normal human serum

Leishmania amazonensis promastigotes cultivated in vitro differentiate from complement-sensitive to complement-resistant forms. In order to determine the possible involvement of parasite proteases in this process, L. amazonensis promastigotes were collected daily and their proteolytic enzyme patterns analyzed using polyacrylamide gels copolymerized with gelatin. Although promastigotes at different growth stages showed differences in protease patterns, these changes did not correlate with their susceptibility to complement. The major protease of promastigotes, gp63, was expressed at the same level throughout culture, regardless of the complement resistance of the promastigotes. Furthermore, inhibitors specific for the classes of proteases found in L. amazonensis promastigotes did not interfere with the complement-mediated killing of promastigotes. We also investigated the binding of natural antibodies to promastigotes at different stages of growth using ELISA. Although complement-sensitive promastigotes bound significantly more antibodies from fresh normal human serum than complement-resistant promastigotes, equivalent amounts of C3 were detected on their surfaces following complement activation. Moreover, serum depleted of anti-Leishmania antibodies was as efficient in killing promastigotes as the intact serum. These data suggest that the resistance of L. amazonensis to complement killing involves strategies other than that of the regulated expression endogenous proteases capable of inactivating complement components, or the differential ability to bind natural antibodies that might interfere with complement deposition on the parasite surface.

Fructose 2, 6 bisphosphate promotes the monomer-tetramer conservation of Leishmania mexicana amazonensis pyruvate kinase type two

The enzyme pyruvate kinase of Leishmania mexicana amazonensis presents two forms with different kinetic properties and behavior for the heterotrophic activator fructose 2,6 bisphosphate. Pyruvate kinase 1, which is isolated as a tetramer, is inhibited by this metabolite. The second activity, Pyruvate kinase 2, is activated by fructose 2,6 bisphosphate, which promotes the monomer-tetramer conversion of this enzyme

Intracellular calcium homeostasis in Leishmania mexicana. Identification and characterization of a plasma membrane calmodulin-dependent Ca(2+)-ATPase

The intracellular Ca2+ concentration in different trypanosomatids is about 50 nanomolar, which concentration in different trypanosomatids is about 50 nanomolar, which is 4 orders of magnitude lower than in the extracellular milieu. This fact implies the existence of well developed mechanisms for the maintenance of such a high calcium gradient. In higher eukaryotics a number of different structures have been implicated in this function. Some of them are located in intracellular organelles, and others in the plasma membrane. Since intracellular organelles are limited by their storage capacity, long-term Ca2+ homeostasis resides solely in the plasma membrane. In higher eukaryotics, a calcium pump or Ca(2+)-ATPase located in the plasma membrane, because of its high Ca2+ affinity, has been proposed as the structure responsible for the maintenance of the cytoplasmic Ca2+ concentration at the submicromolar level. The presence of a Ca(2+)-ATPase in trypanosomatids has been debated. While some groups have reported its absence, others have reported the existence of an enzyme which is Mg(2+)-independent or even inhibited by Mg2+. On the other hand, in none of these reports any correlation was shown between the Ca(2+)-ATPase activity observed and the Ca2+ transport function attributed to this enzyme. We have previously shown that a calmodulin-stimulated Mg(2+)-dependent Ca(2+)-ATPase is present in the plasma membrane of Leishmania braziliensis and of Trypanosoma cruzi. Plasma membrane vesicles from these parasites are able to accumulate Ca2+ in the presence of the ATP-Mg complex. The similarities found between the kinetics parameters and other properties of the Ca(2+)-ATPase and the Ca2+ transport activity strongly suggest a common molecular entity. The stoichiometry calculated from these parameters approaches the 1:1 stoichiometry for Ca2+ and ATP, as reported for the Ca2+ pump from higher eukaryotic cells. In this report we show that plasma membrane vesicles from Leishmania mexicana possess a Ca(2+)-ATPase with characteristics which are similar to that reported by us for other trypanosomatids. Thus, the enzyme has a high Ca2+ affinity which is further increased upon addition of calmodulin. The maximal velocity is also increased by calmodulin...

Identification of GTPase genes in the protozoa parasites Trypanosoma cruzi and Leishmania amazonensis

A PCR based assay was designed in order to amplify putative ras gene sequences of the GTPase superfamily eventually present in Leishmania amazonensis and Trypanosoma cruzi. A set of primers corresponding to the conserved motifs G1 and G3 of the GTP binding proteins was synthesized. Sequencing of six PCR products (three from Leishmania and three from Trypanosoma) identified, however, two other different GTPases. The 270 bp L. amazonensis clone, pLef-11, shared an amino acid identity of around 80 percent with an eukaryotic elongation factor 1a of protein synthesis. On the other hand, the 168 bp T. cruzi clone, pTCr1, demonstrated over 60 percent amino acid identity to ras-related proteins of the rab-YPT-SEC4 family involved in control of vesicular traffic. To our knowledge, this is the first report of GTP binding protein genes in trypanosomatids

From lysosomes to cells, from cells to Leishmania: amino acid esters as potential chemotherapeutic agents

Amino acid esters can disrupt lysosomes and damage monocytes and certain lymphocyte populations. Lysosomal disruption involves pH trapping of the esters, followed by their hydrolyssis by as yet unidentified enzymes. Accumulation of the more polar amino acids is assumed to cause osmotic lysis of the organelles. we have discovered that certain amino acid esters and amides destroy Leishmania mexicana amazonensis amastigores lodged within macrophages in culture, as well as parasites isolated from mouse lesions. This paper reviews the amino acid specificity of parasite killing, the resistance of amastigotes derived from infection of macrophages with promastigotes, the involvement of an acidified compartment within the parasites, and the protection conferred by other amino acid esters, and the protease inhibitors antipain and chymostatin, aginst the destruction of amastigotes by Leucine-methyl ester. Studies with tritiated esters confirm the critical role of ester hydrolysis for leishmanicidal activity and strengthen the view that similar mechanisms underlie disruption of lysosomes and destruction of Leismania. Characterization of the parasite organelles and of the enzymes involved in the leishmanicidal activity as well as structure-activity studies may permit the design of compounds mor selective for the parasites