Over-expression of Leishmania major MAP kinases reveals stage-specific induction of phosphotransferase activity

During the infectious cycle, protozoan parasites undergo various developmental transitions and switch virulence factors in response to extracellular signals in insect vectors and human hosts. Despite the importance of environmental sensing in parasite pathogenicity, little is known about the pathways that transduce extracellular signals into stage-specific gene expression. Here, we used a transgenic approach to gain insight into localisation and activity of three green fluorescence protein (GFP)-tagged Leishmania major mitogen-activated protein kinases, LmaMPK4, 7 and 10. The GFP-LmaMPKs in both L. major and Leishmania donovani transgenic lines showed predominant cytoplasmic localisation and the over-expression had no effect on promastigote morphology, growth and the ability to differentiate into stationary-phase metacyclics for L. major and axenic amastigotes for L. donovani. We isolated the GFP-tagged MPKs from parasite extracts and tested their phosphotransferase activity across various culture conditions. For all three GFP-LmaMPKs, kinase activity was low or absent in promastigote extracts but significantly increased in L. major promastigotes after exposure to pH 5.5 and 34 degrees C, and in axenic L. donovani amastigotes. Enhanced activity correlated with increased GFP-LmaMPK phosphorylation as judged by phospho-specific fluorescent staining of the immuno-precipitated kinases. We could extend these findings to the endogenous LmaMPK10, which accumulated in the phospho-protein fraction of axenic amastigotes but not promastigotes, and thus follows the stage-specific phosphorylation profile of episomally expressed GFP-LmaMPK10. These results provide evidence for the functional conservation of Leishmania MAP kinases in parasite environmental sensing and underscore the potential of transgenic approaches to gain insight into signaling events during the Leishmania life cycle.     

Centrin gene disruption impairs stage-specific basal body duplication and cell cycle progression in Leishmania

Centrin is a calcium-binding cytoskeletal protein involved in the duplication of centrosomes in higher eukaryotes. To explore the role of centrin in the protozoan parasite Leishmania, we created Leishmania deficient in the centrin gene (LdCEN). Remarkably, centrin null mutants (LdCEN(-/-)) showed selective growth arrest as axenic amastigotes but not as promastigotes. Flow cytometry analysis confirmed that the mutant axenic amastigotes have a cell cycle arrest at the G(2)/M stage. The axenic amastigotes also showed failure of basal body duplication and failure of cytokinesis resulting in multinucleated "large" cells. Increased terminal deoxy uridine triphosphate nick end labeling positivity was observed in centrin mutant axenic amastigotes compared with wild type cells, suggesting the activation of a programmed cell death pathway. Growth of LdCEN(-/-) amastigotes in infected macrophages in vitro was inhibited and also resulted in large multinucleated parasites. Normal basal body duplication and cell division in the LdCEN knockout promastigote is unique and surprising. Further, this is the first report where disruption of a centrin gene displays stage-specific/cell type-specific failure in cell division in a eukaryote. The centrin null mutant defective in amastigote growth could be useful as a vaccine candidate against leishmaniasis.     

Identification of amastigote-specific antigens of Leishmania donovani using kala-azar patient sera

Antigenic characterization of the soluble fraction of axenic amastigotes of Leishmania donovani ( strain Dd8, causative agent of Indian kala-azar) and their comparison with promastigotes is reported. The axenic amastigotes were assessed for their immunological status employing anti-A2 monoclonal antibody which is extremely specific for L. donovani amastigotes. SDS-PAGE of 35[S] methionine labeled proteins of the two parasite stages exhibited few stage specific and some conserved antigens in both the stages. An increased synthesis of heat shock proteins was observed in axenic amastigotes. Western blot experiments employing sera of kala azar positive patients identified immunodominent antigens of 116,83,26 and 12 kDa in axenic amastigotes which were not present in promastigotes. These amastigote stage specific antigens may have immense potential in immunodiagnosis and prophylaxis of kala-azar.     

Development of Luciferase Expressing Leishmania donovani Axenic Amastigotes as Primary Model for In Vitro Screening of Antileishmanial Compounds

The development of new therapeutic leads against leishmaniasis relies primarily on screening of a large number of compounds on multiplication of clinically irrelevant transgenic promastigotes. The advent of the successful in vitro culture of axenic amastigotes allows the development of transgenic axenic amastigotes as a primary screen which can test compounds in a high throughput mode like promastigotes, still representative of the clinically relevant mammalian amastigotes stage. The present study reports the development of luciferase-tagged axenic amastigotes of Leishmania donovani, the causative agent of Indian Kala-azar, for in vitro drug screening. Luciferase expressing promastigotes were transformed to axenic amastigotes at a low pH and high temperature without the loss of luciferase expression. As compared to transgenic promastigotes, the luciferase expressing axenic amastigotes exhibited more sensitivity to antileishmanial drugs, particularly to pentavalent antimony (~2.8-fold) and also to the test compounds. Hence, the developed luciferase expressing axenic amastigotes make an ideal choice for high throughput drug screening for antileishmanial compounds.     

Rapid fluorescent assay for screening drugs on Leishmania amastigotes

A rapid fluorescent viability assay employing alamarBlue was optimized for use with Leishmania axenic amastigotes, the stage of the parasite responsible for disease pathology. The activity of two protein kinase inhibitors, Staurosporine and H-89, as well as Amphotericin B, on promastigotes and amastigotes of Leishmania donovani and Leishmania tropica was compared. Both protein kinase inhibitors inhibited promastigote growth at lower concentrations than amastigotes, while the GI(50) for Amphotericin B on both stages was similar. This assay only requires a limited number of axenic amastigotes (50,000 cells/well) and can be used to rapidly screen large chemical or natural product libraries for activity against amastigotes.     

Leishmania donovani: long-term culture of axenic amastigotes at 37 degrees C

L. donovani promastigotes were subjected to heat treatment yielding an axenic amastigote stage which was long-term cultured at 37 degrees C. No differences were observed between the growth rates of axenic amastigotes and promastigotes. Flow cytometry-derived DNA histograms of axenic amastigotes and promastigotes were typical of exponentially growing cell populations. Moreover, axenic amastigotes were metabolically active as evidenced by the release of an immunoprecipitable extracellular acid phosphatase (SAcP) into their culture supernatant. Cell transformation was confirmed by transmission electronmicroscopic examination of thin sections and extended by fracture-flip survey which allowed differentiation of cell membranes. The ultrastructure and nanoanatomy of axenic amastigotes was identical to that of intracellular amastigotes. The production of large amounts of heat-shock axenic amastigotes suitable for biochemical and biological studies of differentiation in Leishmania donovani may have important implications in the development of prevention and/or treatment strategies.     

Morphological comparison of axenic amastigogenesis of trypomastigotes and metacyclic forms of Trypanosoma cruzi

Amastigogenesis occurs first when metacyclic trypomastigotes from triatomine urine differentiate into amastigotes inside mammalian host cells and a secondary process when tissue-derived trypomastigotes invade new cells and differentiate newly to amastigotes. Using scanning electron microscopy, we compared the morphological patterns manifested by trypomastigotes and metacyclic forms of Trypanosoma cruzi during their axenic-transformation to amastigotes in acidic medium at 37 C. We show here that in culture MEMTAU medium, secondary and primary axenic amastigogenesis display different morphologies. As already described, we also observed a high differentiation rate of trypomastigotes into amastigotes. Conversely, the transformation rate of in vitro-induced-metacyclic trypomastigotes to amastigotes was significantly slower and displayed distinct patterns of transformation that seem environment-dependent. Morphological comparisons of extracelullar and intracellular amastigotes showed marked similarities, albeit some differences were also detected. SDS-PAGE analyses of protein and glycoprotein from primary and axenic extracelullar amastigotes showed similarities in glycopeptide profiles, but variations between their proteins demonstrated differences in their respective macromolecular constitutions. The data indicate that primary and axenic secondary amastigogenesis of T. cruzi may be the result of different developmental processes and suggest that the respective intracellular mechanisms driving amastigogenesis may not be the same.     

Production of amastigotes from metacyclic trypomastigotes of Trypanosoma cruzi

Attempts to recreate all the developmental stages of Trypanosoma cruzi in vitro have thus far been met with partial success. It is possible, for instance, to produce trypomastigotes in tissue culture and to obtain metacyclic trypomastigotes in axenic conditions. Even though T. cruzi amastigotes are known to differentiate from trypomastigotes and metacyclic trypomastigotes, it has only been possible to generate amastigotes in vitro from the tissue-culture-derived trypomastigotes. The factors and culture conditions required to trigger the transformation of metacyclic trypomastigotes into amastigotes are as yet undetermined. We show here that pre-incubation of metacyclic trypomastigotes in culture (MEMTAU) medium at 37 degrees C for 48 h is sufficient to commit the parasites to the transformation process. After 72 h of incubation in fresh MEMTAU medium, 90% of the metacyclic parasites differentiate into forms that are morphologically indistinguishable from normal amastigotes. SDS-PAGE, Western blot and PAABS analyses indicate that the transformation of axenic metacyclic trypomastigotes to amastigotes is associated with protein, glycoprotein and antigenic modifications. These data suggest that (a) T. cruzi amastigotes can be obtained axenically in large amounts from metacyclic trypomastigotes, and (b) the amastigotes thus obtained are morphological, biological and antigenically similar to intracellular amastigotes. Consequently, this experimental system may facilitate a direct, in vitro assessment of the mechanisms that enable T. cruzi metacyclic trypomastigotes to transform into amastigotes in the cells of mammalian hosts.     

Leishmania mexicana: comparative fine structure of amastigotes and promastigotes in vitro and in vivo

Amastigotes of Leishmania mexicana pifanoi were cultivated by serial transfers in cell-free medium UM-54 at 33 and 35 C. Electron microscopy was used to analyze the structural relationships among promastigotes, axenically cultured amastigotes, and amastigotes in footpads of infected hamsters. These studies revealed very close structural similarities between culture and hamster derived amastigotes. However, both of these amastigotes differed from the promastigotes in the following aspects. The flagellum of promastigotes contained a paraxial rod originating at the axosome level within the flagellar pocket, whereas the flagellum of amastigotes lacks this structure. The flagellar pocket of promastigotes was usually small whereas amastigotes had a distended reservoir. Subpellicular microtubules of promastigotes terminated at the posterior end, whereas those of amastigotes ended subterminally. Membrane bounded vesicles were present only in amastigotes. These results along with the biologic and antigenic comparisons indicate that amastigotes obtained from axenic cultures are related very closely to amastigotes from infected hamster footpads and that their relationship to promastigotes is far more distant.     

Anti-leishmanial activity of disubstituted purines and related pyrazolo[4,3-d]pyrimidines

We report here results of screening directed to finding new anti-leishmanial drugs among 2,6-disubstituted purines and corresponding 3,7-disubstituted pyrazolo[4,3-d]pyrimidines. These compounds have previously been shown to moderately inhibit human cyclin-dependent kinases. Since some compounds reduced viability of axenic amastigotes of Leishmania donovani, we screened them for interaction with recombinant leishmanial cdc-2 related protein kinase (CRK3/CYC6), an important cell cycle regulator of the parasitic protozoan. Eighteen pairs of corresponding isomers were tested for viability of amastigotes and for inhibition of CRK3/CYC6 kinase activity. Some compounds (9A, 12A and 13A) show activity against amastigotes with EC₅₀ in a range 1.5-12.4 μM. Structure-activity relationships for the tested compounds are discussed and related to the lipophilicity of the compounds.     

Leishmania mexicana: Purine metabolism in promastigotes,axenic amastigotes,and amastigotes derived from vero cells

Leishmania mexicana mexicana promastigotes, axenic amastigotes, and amastigotes derived from Vero cells were examined for de novo purine synthesis and mechanisms of purine salvage. Both promastigotes and axenic amastigotes were incapable of de novo purine synthesis, as shown by the lack of [¹⁴C]formate and [¹⁴C]glycine incorporation into purine nucleotide pools. However, the ready incorporation of [¹⁴C]hypoxanthine, [¹⁴C]adenine, and [¹⁴C]guanine suggested that purine salvage pathways were operating. In addition, a significant percentage (?60%) of the total label from these purine precursors was associated with adenylate nucleotides. Nucleotide pool levels of axenic amastigotes were consistently greater but the specific activities were less than those of promastigotes, suggesting a slower rate of purine metabolism in the axenic amastigote form. Similar results were obtained from amastigotes isolated from infected Vero cells.     

Generation of Leishmania donovani axenic amastigotes: their growth and biological characteristics

In this report, we describe an in vitro culture system for the generation and propagation of axenic amastigotes from the well characterised 1S-CL2D line of Leishmania donovani. Fine structure analyses of these in vitro-grown amastigotes demonstrated that they possessed morphological features characteristic of L. donovani tissue-derived amastigotes. Further, these axenic amastigotes (LdAxAm) were shown to synthesise and release a secretory acid phosphatase isoform similar to that produced by intracellular amastigotes. Such LdAxAm also expressed surface membrane 3'-nucleotidase enzyme activity similar to that of tissue-derived amastigotes. Moreover, LdAxAm, in contrast to promastigotes, expressed significant levels of the amastigote-specific A2 proteins. In addition, LdAxAm, derived from long term cultures of Ld 1S-CL2D promastigotes, had significant infectivity for both human macrophages in vitro and for hamsters in vivo. Thus, the in vitro culture system described herein provides a useful tool for the generation of large quantities of uniform populations of axenic amastigotes of the L. donovani 1S-CL2D line. The availability of such material should greatly facilitate studies concerning the cell and molecular biology of this parasite developmental stage.     

Quantitative proteome profiling informs on phenotypic traits that adapt Leishmania donovani for axenic and intracellular proliferation

Protozoan parasites of the genus Leishmania are important human pathogens that differentiate inside host macrophages into an amastigote life cycle stage. Although this stage causes the pathogenesis of leishmaniasis, only few proteins have been implicated in amastigote intracellular survival. Here we compare morphology, infectivity and protein expression of L. donovani LD1S grown in host free (axenic) culture, or exclusively propagated in infected hamsters, with the aim to reveal parasite traits absent in axenic but selected for in hamster-derived amastigotes through leishmanicidal host activities. Axenic and splenic amastigotes showed a striking difference in virulence and the ability to cause experimental hepato-splenomegaly in infected hamsters. 2D-DIGE analysis revealed statistically significant differences in abundance for 152 spots, with 14 spots showing fivefold or higher abundance in splenic amastigotes. Proteins identified by MS analysis include the anti-oxidant enzyme tryparedoxin peroxidase, and enzymes implicated in protein and amino acid metabolism. Analysis of parasite growth in vitro in minimal medium demonstrated increased survival of hamster-derived compared with axenic parasites under conditions that mimic the nutrient poor, cytotoxic phagolysosome. Thus, our comparative proteomics analysis sheds important new light on the biochemistry of bona fide amastigotes and informs on survival factors relevant for intracellular L. donovani infection.     

In vitro sodium nitroprusside-mediated toxicity towards Leishmania amazonensis promastigotes and axenic amastigotes

Leishmania parasites survive despite exposure to the toxic nitrosative oxidants during phagocytosis by the host cell. In this work, the authors investigated comparatively the resistance of Leishmania amazonensis promastigotes and axenic amastigotes to a relatively strong nitrosating agent that acts as a nitric oxide (NO) donor, sodium nitroprusside (SNP). Results demonstrate that SNP is able to decrease, in vitro, the number of L. amazonensis promastigotes and axenic amastigotes in a dose-dependent maner. Promastigotes, cultured in the presence of 0.25, 0.5, and 1 mmol L(-1) SNP for 24 h showed about 75% growth inhibition, and 97-100% when the cultures were treated with >2 mmol L(-1) SNP. In contrast, when axenic amastigotes were growing in the presence of 0.25-8 mM SNP added to the culture medium, 50% was the maximum of growth inhibition observed. Treated promastigotes presented reduced motility and became round in shape further confirming the leishmanicidal activity of SNP. On the other hand, axenic amastigotes, besides being much more resistant to SNP-mediated cytotoxicity, did not show marked morphological alteration when incubated for 24 h, until 8 mM concentrations of this nitrosating agent were used. The cytotoxicity toward L. amazonensis was attenuated by reduced glutathione (GSH), supporting the view that SNP-mediated toxicity triggered multiple oxidative mechanisms, including oxidation of thiols groups and metal-independent oxidation of biomolecules to free radical intermediates.     

Characterization of metacaspases with trypsin-like activity and their putative role in programmed cell death in the protozoan parasite Leishmania

In this report, we have characterized two metacaspases of Leishmania donovani, L. donovani metacaspase-1 (LdMC1) and LdMC2. These two proteins show 98% homology with each other, and both contain a characteristic C-terminal proline-rich domain. Both genes are transcribed in promastigotes and axenic amastigotes of L. donovani; however, LdMC1 shows increased mRNA levels in axenic amastigotes. An anti-LdMC antibody was obtained and showed reactivity with a single approximately 42-kDa protein band in both promastigote and axenic amastigote parasite whole-cell lysates by Western blotting. Pulse-chase experiments suggest that LdMCs are not synthesized as proenzymes, and immunofluorescence studies show that LdMCs are associated with the acidocalcisome compartments of L. donovani. Enzymatic assays of immunoprecipitated LdMCs show that native LdMCs efficiently cleave trypsin substrates and are unable to cleave caspase-specific substrates. Consistently, LdMC activity is insensitive to caspase inhibitors and is efficiently inhibited by trypsin inhibitors, such as leupeptin, antipain, and N(alpha)-tosyl-L-lysine-chloromethyl ketone (TLCK). In addition, our results show that LdMC activity was induced in parasites treated with hydrogen peroxide, a known trigger of programmed cell death (PCD) in Leishmania and that parasites overexpressing metacaspases are more sensitive to hydrogen peroxide-induced PCD. These findings suggest that Leishmania metacaspases are not responsible for the caspase-like activities reported in this organism and suggest a possible role for LdMCs as effector molecules in Leishmania PCD.     

Antileishmanial activities and mechanisms of action of indole-based azoles

Two 3-(alpha-azolylbenzyl)indoles were evaluated against Leishmania amastigotes. Both compounds proved to be very active against intracellular and axenic amastigotes. The IC50 values of the imidazole derivative, PM17, and the triazole analogue, PM19, against L. mexicana axenic amastigotes, were 4.4 +/- 0.1 and 6.4 +/- 0.1 microM, respectively. Against intracellular amastigotes, PM17 produced a 66% decrease of leishmanial burden at 1 microM and PM19 had an IC50 of 1.3 microM. In a Balb/c mice model of L. major leishmaniasis, administration of PM17 led to a clear-cut parasite burden reduction: 98.9% in the spleen, 79.0% in the liver and 49.9% in the popliteal node draining the cutaneous lesion. As anticipated, it was brought to the fore that PM17 decreases ergosterol biosynthesis leading to membrane fungal cell alterations. Moreover it was proved that this imidazole antifungal agent induces a parasite burden-correlated decrease in interleukine-4 production both in the splenocyte and the popliteal node of the mouse.     

Developmental regulation of proline transport in Leishmania donovani

Leishmania donovani are the causative agents of kala azar in humans. These organisms cycle between the proline-rich environment of the sand fly vector (extracellular promastigotes) and the sugar-rich condition in the mammalian host (intracellular amastigotes). Parasites have adapted to these extreme changes in proline concentrations: promastigotes utilize proline as a carbon source, whereas amastigotes utilize sugars and fatty acids. Previous studies have suggested that promastigotes and amastigotes express distinct proline transporters. However, the information available on these transporters is limited. In this work, proline transport was investigated in axenic L. donovani cultures. Three transport systems were identified: cation-dependent and -independent proline transporters in promastigotes (systems A and B, respectively) and a single cation-independent transporter in amastigotes (system C). Systems A and C have broad specificity to almost all amino acids and obtain optimum activity at acidic pH ranges (pH 6 and 5, respectively). System B is more specific to proline, as it is inhibited by only five amino acids. Temperature response analyses indicated that the transporters of both promastigotes and amastigotes perform best at 37 degrees C. The activity of system A during parasite differentiation was assessed. The transport activity of system A disappeared 3 days after promastigotes were induced to differentiate into amastigotes. In these cells, elevated temperature and acidic pH each suppressed the activity of system A. When amastigotes were induced to differentiate back into promastigotes, system A resumed its activity 24 h after differentiation was initiated. In conclusion, L. donovani obtain proline transport systems that are stage specific, regulated by both pH and temperature. This paper constitutes the first investigation of amino acid transport in axenic L. donovani.     

Protein kinase A activity is associated with metacyclogenesis in Leishmania amazonensis

Because of the importance of cell signalling processes in proliferation and differentiation, the adenylate cyclase pathway was studied, specifically the protein kinase A (PKA) in Leishmania amazonensis. The PKAs of soluble (SF) and enriched membrane fractions (MF) from infective/non-infective promastigotes and axenic amastigotes were assayed. In order to purify the PKA molecule, fractions were chromatographed on DEAE-cellulose columns and the phosphorylative activity was evaluated using [gamma(32)P]-ATP as the phosphate source. These experiments were performed in the presence of cyclic adenosine monophosphate (cAMP) and an inhibitor of PKA. Our data demonstrated that the PKA activity was significantly higher (about two times) in SF from promastigotes with a high concentration of metacyclic forms, when compared with the non-infective promastigotes, suggesting an association of this activity and the metacyclogenesis process. A discrete phosphorylative activity in axenic amastigotes was observed. As the adenylate cyclase/cAMP pathway would be involved in the parasite-host interiorization, the PKA activity may constitute a good intracellular target for studies of leishmanicidal drugs.     

Amastigote and epimastigote stage-specific components of Trypanosoma cruzi characterized by using monoclonal antibodies. Purification and molecular characterization of an 83-kilodalton amastigote protein

Stage-specific mAb have been produced to amastigotes and epimastigotes of Trypanosoma cruzi (Brazil strain). mAb C-1 through C-6 reacted specifically with T. cruzi strains; no cross-reactions were found with membranes of promastigotes or amastigotes of Leishmania species. One mAb produced against the epimastigote membranes (C-5) was found to be specific against this stage by radioimmune binding assay, immunofluorescence, and radioimmunoprecipitation. mAb C-5 recognized a novel epimastigote protein at Mr (greater than 200,000) on immunoprecipitation with radiolabeled epimastigotes. Three amastigote stage-specific monoclonal antibodies were produced against membrane-enriched preparations of T. cruzi (Brazil strain) amastigotes grown in axenic culture (C-1 through C-3). By indirect immunofluorescence assay, monoclonal antibody C-2 bound only to T. cruzi amastigotes; no reaction with either tissue culture-derived trypomastigotes or epimastigotes was observed. mAb C-1 and C-2 each specifically immunoprecipitated a single protein molecule with Mr 83,000 from [35S]-methionine-labeled amastigotes. mAb C-2 was also used to affinity purify an 83-kDa Ag that was recognized by human Chagasic sera from patients of endemic countries of Latin America in an enzyme immunoassay. Amino acid composition and preliminary sequence data of the 83-kDa protein are presented. These mAb and/or purified Ag may be useful in studying stage differentiation, monitoring transformation, and for further taxonomic, epidemiologic, and immunologic studies of Chagas' disease.     

Leishmania major and Leishmania tropica: I the in vitro effects of an immunomodulator, S2-Complex

This study was undertaken to try to determine the possible anti-leishmanial activity of S2-Complex, an organic complex of copper chloride, ascorbic acid, and nicotinamide. The promastigotes, axenic amastigotes, and intracellular amastigotes of both Leishmania major and Leishmania tropica were incubated with different concentrations of S2-Complex. The EC50 for each form was calculated. Results show that all forms of the parasites were dose dependently inhibited by S2-Complex. The promastigotes of both parasites were the most resistant with highest EC50 followed by axenic amastigotes. While intracellular amastigotes were the most sensitive with the lowest EC50.These results indicate that S2-Complex has a direct anti-leishmanial effect. When mice were treated with S2-Complex or BCG for four days before harvesting the macrophages, and the macrophages infected with both L. major and L. tropica, they showed increased phagocytosis and increased parasite killing. The results of S2-Complex were not statistically different from the immunomodulating agent BCG. These results indicate that S2-Complex has an immunomodulating effect in addition to the direct anti-leishmanial effect.