Entamoeba histolytica and Entamoeba invadens: Effects of temperature and oxygen tension on growth and survival

The temperature ranges for axenic growth of Entamoeba histolytica strain HM-1 and Entamoeba invadens strain 165 clone II in TYI-S-33 medium were: 32 to 40 C for E. histolytica with an optimum of 35.5 to 37 C; whereas the range for E. invadens 165 II was 20 to 30 C, optimum 24 to 27 C. Growth of strain HM-1 at 40 C was dependent upon the cell density of the culture used as a source of the inoculum. Clonal growth in agar was used to assay survival of Entamoeba spp. trophozoites after exposure to deleterious physical conditions. The lowest temperature for thermal killing of E. histolytica HM-1 was 41.5 C and for E. invadens 165, 35.5 C. Both were killed rapidly at 42 C, but slowly at 0 C. Killing of E. histolytica HM-1 trophozoites by exposure to increased oxygen tensions was a function of temperature and time. At 24 C and 35.5 C, there was little loss of viability during the first 7 hr exposure, then killing was quite rapid. The cells were killed sooner if the medium was preexposed to air. In contrast, at 0 C there was less killing by oxygen. E. invadens 165 II appeared to be more oxygen sensitive at 24 than at 0 C. Other E. histolytica strains tested were similar to HM-1 in their responses to temperature and air.     

Entamoeba histolytica: Virulence enhancement of isoenzyme-stable parasites

Pathogenic Entamoeba histolytica isolated from patients with clinical amoebiasis can be differentiated from nonpathogenic E. histolytica obtained from asymptomatic carriers on the basis of the electrophoretic pattern of their isoenzymes. Virulence of different strains of axenically grown trophozoites of Entamoeba histolytica, as determined by various laboratory tests, such as damage to tissue culture monolayers, or their ability to cause an hepatic abscess in a hamster, are known to vary considerably. Reassociation of trophozoites of strain HK-9 with certain Escherichia coli strains for short periods of time markedly augmented their virulence, as tested by the above-mentioned methods. The bacterial association, however, did not cause any change in the electrophoretic pattern of amoebic isoenzymes (zymodeme).     

Lack of protection against Trypanosoma cruzi by multiple doses of T. lewisi culture forms. A discussion on some strains of "lewisi"

No protection against Trypanosoma cruzi was afforded to mice by previously inoculating multiple doses of T. lewisi blood stream forms, strain RU or culture forms of the IMT strain.Since these results conflicted with those obtained by other authors, we secured a sample of the strain used by them. This strain, labeled “T. lewisi” and which we called “F”, was verified to be actually T. cruzi. It was characterized by its morphologic features in axenic cultures, its capability to infect HeLa cells where the intracellular cycle was completed, by its infectivity for white mice which had amastigotes in their heart muscle, and in which the strain has been maintained by serial passages, and by the completion of its biologic cycle in triatoma bugs.The necessity for carefully testing doubtful strains, and the criteria to be adopted in these cases are discussed.     

Ultrastructural observations of Trypanosoma cruzi in a liquid medium: The kinetoplast-mitochondrion in division forms

Morphogenesis of the kinetoplast-mitochondrion complex in T. cruzi epimastigotes obtained from a liquid culture medium is described. A crystal-like pattern of channels between mitochondria and kinetoplasts is described. A new structure at the flagellar end in epimastigotes is reported.     

Trypanosoma cruzi: Multiplex PCR to detect and classify strains according to groups I and II

A multiplex PCR was developed for simultaneous detection of Trypanosoma cruzi DNA and classification of the parasite strain into groups I and II. As little as 10 fg of T. cruzi DNA could be detected by multiplex PCR. The technique was shown to be specific for T. cruzi DNA, since no PCR amplification products were obtained with DNA from other tripanosomatid species. Multiplex PCR was validated by assaying genomic DNA from 34 strains of T. cruzi that had been previously characterized; 24 blood samples from experimentally-infected mice and non-infected controls; 20 buffy coat samples from patients in the acute phase of Chagas disease and non-infected individuals, and 15 samples of feces from naturally-infected Triatoma infestans. T. cruzi samples from patients and from Y strain-infected mice were classified by multiplex PCR as T. cruzi II and samples from T. infestans and Colombiana strain-infected mice as T. cruzi I.     

Entamoeba histolytica: Effect on virulence, growth and gene expression in response to monoxenic culture with Escherichia coli 055

Monoxenic cultivation of pathogenic Entamoeba histolytica trophozoites with Escherichia coli serotype 055 which binds strongly to the Gal/GalNAc amoebic lectin, markedly improved the growth of E. histolytica and produced a significant decrease in cysteine proteinase activity and a lower cytopathic activity on monolayer cells after 3 months of monoxenic culture. However, after long term monoxenic culture (12 months) the proteolytic and cytopathic activities were recovered and the amoebic growth reached the maximum yield. Employing the GeneFishing^R technology and DNA macroarrays we detected differentially gene expression related to the amoebic interaction with bacteria. A number of differentially expressed genes encoding metabolic enzymes, ribosomal proteins, virulence factors and proteins related with cytoskeletal and vesicle trafficking were found. These results suggest that E. coli 055 has a nutritional role that strongly supports the amoebic growth, and is also able to modulate some biological activities related with amoebic virulence.     

Trypanosoma cruzi: Synergistic cytotoxicity of multiple amphipathic anti-microbial peptides to T. cruzi and potential bacterial hosts

The parasite Trypanasoma cruzi is responsible for Chagas disease and its triatomine vector, Rhodnius prolixus, has a symbiotic relationship with the soil bacterium, Rhodococcus rhodnii.R. rhodnii that was previously genetically engineered to produce the anti-microbial peptide, cecropin A was co-infected with T. cruzi into R. prolixus resulting in clearance of the infectious T. cruzi in 65% of the vectors. Similar anti-microbial peptides have been isolated elsewhere and were studied for differential toxicity against T. cruzi and R. rhodnii. Of the six anti-microbial peptides tested, apidaecin, magainin II, melittin, and cecropin A were deemed potential candidates for the Chagas paratransgenic system as they were capable of killing T.cruzi at concentrations that exhibit little or no toxic effects on R. rhodnii. Subsequent treatments of T. cruzi with these peptides in pair-wise combinations resulted in synergistic killing, indicating that improvement of the 65% parasite clearance seen in previous experiments may be possible utilizing combinations of different anti-microbial peptides.     

Water-Soluble Ruthenium Complexes Bearing Activity Against Protozoan Parasites

Parasitic illnesses are major causes of human disease and misery worldwide. Among them, both amebiasis and Chagas disease, caused by the protozoan parasites, Entamoeba histolytica and Trypanosoma cruzi, are responsible for thousands of annual deaths. The lack of safe and effective chemotherapy and/or the appearance of current drug resistance make the development of novel pharmacological tools for their treatment relevant. In this sense, within the framework of the medicinal inorganic chemistry, metal-based drugs appear to be a good alternative to find a pharmacological answer to parasitic diseases. In this work, novel ruthenium complexes [RuCl₂(HL)(HPTA)₂]Cl₂ with HL = bioactive 5-nitrofuryl containing thiosemicarbazones and PTA?=?1,3,5-triaza-7-phosphaadamantane have been synthesized and fully characterized. PTA was included as co-ligand in order to modulate complexes aqueous solubility. In fact, obtained complexes were water soluble. Their activity against T. cruzi and E. histolytica was evaluated in vitro. [RuCl₂(HL4)(HPTA)₂]Cl₂ complex, with HL4?=?N-phenyl-5-nitrofuryl-thiosemicarbazone, was the most active compound against both parasites. In particular, it showed an excellent activity against E. histolytica (half maximal inhibitory concentration (IC₅₀)?=?5.2 μM), even higher than that of the reference drug metronidazole. In addition, this complex turns out to be selective for E. histolytica (selectivity index (SI) >38). The potential mechanism of antiparasitic action of the obtained ruthenium complexes could involve oxidative stress for both parasites. Additionally, complexes could interact with DNA as second potential target by an intercalative-like mode. Obtained results could be considered a contribution in the search for metal compounds that could be active against multiple parasites.     

Conservation and function of Rab small GTPases in Entamoeba: Annotation of E. invadens Rab and its use for the understanding of Entamoeba biology

Entamoeba invadens is a reptilian enteric protozoan parasite closely related to the human pathogen Entamoeba histolytica and a good model organism of encystation. To understand the molecular mechanism of vesicular trafficking involved in the encystation of Entamoeba, we examined the conservation of Rab small GTPases between the two species. E. invadens has over 100 Rab genes, similar to E. histolytica. Most of the Rab subfamilies are conserved between the two species, while a number of species-specific Rabs are also present. We annotated all E. invadens Rabs according to the previous nomenclature [Saito-Nakano, Y., Loftus, B.J., Hall, N., Nozaki, T., 2005. The diversity of Rab GTPases in Entamoeba histolytica. Experimental Parasitology 110, 244-252]. Comparative genomic analysis suggested that the fundamental vesicular traffic machinery is well conserved, while there are species-specific protein transport mechanisms. We also reviewed the function of Rabs in Entamoeba, and proposed the use of the annotation of E. invadens Rab genes to understand the ubiquitous importance of Rab-mediated membrane trafficking during important biological processes including differentiation in Entamoeba.     

Trypanosoma cruzi: Nucleotide and vitamin requirements of growing epimastigotes

Using a defined culture medium it was shown that Trypanosoma cruzi epimastigotes (strains Y, Ma, and F1) do not require exogeneous nucleotides for continuous cultivation. Biochemical determinations carried out on parasites grown in the presence or absence of exogenous nucleotides revealed no differences in intracellular nucleotide concentrations. This suggests that T. cruzi epimastigotes have the capacity for de novo nucleotide synthesis. Choline and folic acid were necessary only for high yields of T. cruzi, suggesting that epimastigotes can partially satisfy their vitamin requirements.     

Detection of matrix metallopeptidase-9-like proteins in Trypanosoma cruzi

In this study, the cell-associated and extracellular peptidases of Trypanosoma cruzi grown in modified Roitman’s complex (MRC) medium were analyzed by measuring peptidase activity in gelatin-containing zymograms. Our results showed that the cell-associated peptidases as well as peptidases extracellularly released by T. cruzi displayed two distinct proteolytic classes: cysteine and metallopeptidase activities. The major cysteine peptidase, cruzipain, synthesized by T. cruzi cells was detected in cellular parasite content, as a 50 kDa reactive polypeptide, after probing with anti-cruzipain antibody. In addition, metallo-type peptidases belonging to the matrix metallopeptidase-9 (MMP-9) family were revealed, after Western blotting, as a 97 kDa protein band in cellular extract and an 85 kDa polypeptide in both cellular and secreted parasite extracts. The MMP-9-like activity present in cells and spent culture medium was immunoprecipitated by an anti-MMP-9 polyclonal antibody. The surface location of MMP-9-like proteins in T. cruzi was also evidenced by means of flow cytometry analysis. Furthermore, doxycycline that has direct MMP-9 inhibiting properties in vitro, inhibited MMP-9-like activities in gel zymography, immunoprecipitation and flow cytometry analyses. This is the first report of the presence of MMP-9-like molecules in T. cruzi. The presence of a matrix extracellular-degrading enzyme may play a role in the T. cruzi-host cell interaction, making this enzyme a potential target for future drug development against this pathogenic trypanosomatid.     

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 IgG₁ bound to live trypomastigotes levels. At the end of Bz therapy, the LT splenocyte compartment was studied for activation/memory cell surface markers ( and ). 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 () 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.     

Trypanosoma cruzi: Role of macrophage membrane components in the phagocytosis of bloodstream forms

The phagocytosis of Trypanosoma cruzi bloodstream forms is mediated by macrophage Pronase-sensitive membrane components. Trypsin and chymotrypsin treatment of macrophages, which prevents the uptake of T. cruzi culture forms, does not inhibit the phagocytosis of bloodstream parasites. The phagocytosis activity of the macrophages was recovered within 6–8 hr after the removal of Pronase. Inhibition of protein synthesis after Pronase treatment prevents the recovery of the endocytic activity of the macrophages. Fc and C3b receptors are not apparently essential for the phagocytosis of T. cruzi bloodstream forms. The described membrane components may help to explain the tropism of some T. cruzi strains for cells of the mononuclear phagocytic system in the living host.     

The control of Monomorium pharaonis (Hymenoptera: Formicidae) with Bacillus thuringiensis

In this study, the effect of different preparations made from Bacillus thuringiensis var. thuringiensis (strains: CCEB 555 and CCEB 058) on ants, Monomorium pharaonis, under laboratory conditions is reported. The different preparations tested consisted of (1) a liquid culture of the strain B. thuringiensis CCEB 555 (containing spores and exotoxin), (2) the supernatant of the culture broth of strain CCEB 555 (containing exotoxin), and (3) the biological preparation “Bathurin” prepared from the strain B. thuringiensis CCEB 058 (containing spores and inclusions, without exotoxin). The preparations were used either pure or in alternation with borax, i.e., 1 wk borax, 3 wk the respective preparation for several months. All preparations were found to be toxic to M. pharaonis and their effect was characterized by a slow extinction of the ant colony. Administration of “Bathurin” (1.3%) yielded a 100% mortality after 20 wk. Using a liquid culture of B. thuringiensis var. thuringiensis, 100% mortality was recorded after 21 wk, a period of time which did not differ from that obtained with the supernatant of the culture containing exotoxin. The alternation with borax was found to accelerate ant mortality by 9–10 wk after administration. In all experiments, the worker ants died first, the queen ants surviving them by 1–3 wk.In experiments employing worker ants only, a 100 and 98% mortality, respectively, occurred within 3 wk after administration of a liquid culture of B. thuringiensis and “Bathurin” supplemented with borax.     

Synthesis and biological evaluation of isoxazolyl-sulfonamides: A non-cytotoxic scaffold active against Trypanosoma cruzi, Leishmania amazonensis and Herpes Simplex Virus

In this study we report the synthesis, characterization, biological evaluation, and druglikeness assessment of a series of 20 novel isoxazolyl-sulfonamides, obtained by a four-step synthetic route. The compounds had their activity against Trypanosoma cruzi, Leishmania amazonensis, Herpes Simplex Virus type 1 and cytotoxicity evaluated in phenotypic assays. All compounds have drug-like properties, showed low cytotoxicity and were promising regarding all other biological activities reported herein, especially the inhibitory activity against T. cruzi. The compounds 8 and 16 showed significant potency and selectivity against T. cruzi (GI₅₀?=?14.3?µM, SI?>?34.8 and GI₅₀?=?11.6?µM, SI?=?29.1, respectively). These values, close to the values of the reference drug benznidazole (GI₅₀?=?10.2?µM), suggest that compounds 8 and 16 represent promising candidates for further pre-clinical development targeting Chagas disease.     

Antibody-dependent cytotoxicity of human and mouse mononuclear cells against Trypanosoma cruzi epimastigotes

Human peripheral mononuclear cells were cytotoxic to antibody-sensitized Trypanosoma cruzi epimastigotes. The cytotoxic effect depended on the concentration of effector cells and antiserum, and was progressive until 17 hr of incubation at 28 °C. After 3 hr of incubation the highest specific activity was achieved at a 50:1 effector to target cell ratio. A nonspecific cytotoxic effect in the absence of antiserum was observed at a 100:1 parasite to cell ratio or after 17 hr of incubation. When the human mononuclear cell population was depleted of adherent cells by Sephadex G-10 filtration or adsorption to glass, the cytotoxic effect was greatly reduced. Similar results were obtained using mouse spleen cells, indicating that only the adherent cells were cytotoxic to sensitized T. cruzi in both systems. When human mononuclear cells were incubated with amobarbital, cyanide, azide, or aminotriazole, an inhibition of cytotoxicity against sensitized T. cruzi was observed, suggesting that oxygen reduction products and myeloperoxidase were involved in the destruction of sensitized T. cruzi epimastigotes by normal human mononuclear cells.     

Effect of the sesquiterpene lactone incomptine A in the energy metabolism of Entamoeba histolytica

Entamoeba histolytica is the causative agent of human amoebiasis, which mainly affects developing countries. Although several drugs are effective against E. histolytica trophozoites, the control of amoebiasis requires the development of new and better alternative therapies. Medicinal plants have been the source of new molecules with remarkable antiprotozoal activity. Incomptine A isolated from Decachaeta incompta leaves, is a sesquiterpene lactone of the heliangolide type which has the major in vitro activity against E. histolytica trophozoites. However the molecular mechanisms involved in its antiprotozoal activity are still unknown. Using a proteomic approach based on two-dimensional gel electrophoresis and mass spectrometry (ESI-MS/MS) analysis, we evidenced that 21 E. histolytica proteins were differentially expressed in response to incomptine A treatment. Notably, three glycolytic enzymes, namely enolase, pyruvate:ferredoxin oxidoreductase and fructose-1,6-biphosphate aldolase, were down-regulated. Moreover, ultrastructural analysis of trophozoites through electronic microscopy showed an increased number of glycogen granules. Taken together, our data suggested that incomptine A could affect E. histolytica growth through alteration of its energy metabolism.     

Plasma membrane vesicles isolated from epimastigote forms of trypanosoma cruzi

Membrane vesicles can be obtained from epimastigote forms of Trypanosoma cruzi by incubating cells with either cross-linking reagents or acid pH. Acetate, phtalate or citrate, at pH 4.0, but not at higher pH values, were able to induce plasma membrane vesiculation. Vesicles have been purified by sucrose density centrifugation and their membrane origin was demonstrated by the following criteria: (a) Vesicles are 5–10 times richer in protein-bound iodine when they are prepared from cells previously labeled with ¹³¹I by the lactoperoxidase catalysed reaction. (b) Electron microscopy of vesiculating cells shows physical continuity between cell plasma membrane and vesicle membrane. (c) Antibodies prepared against purified vesicles are able to agglutinate epimastigote forms of T. cruzi with sera dilutions up to 1 : 256 to 1 : 512. (d) Freeze-fracture studies of the purified vesicles have shown images of faces P and E compatible with known images of the intact cell plasma membrane.Typical preparations of acetate vesicles present the following characteristics: total carbohydrate : protein = 1.5–2.0; orcinol : protein = 0.07 and absence of diphenylamine reaction. Vesicles contain 0.2–0.5% and 0.3–1.0% of the total homogenate protein and carbohydrate, respectively. The presence of 10 major protein bands and a 30–50-fold enrichment of the four sugar-containing macromolecules present in epimastigote forms of T. cruzi have been demonstrated in these preparations.     

Steady-state kinetics of the hypoxanthine phosphoribosyltransferase from Trypanosoma cruzi

The kinetic mechanism for the reaction catalyzed by the hypoxanthine phosphoribosyltransferase (HPRT) from Trypanosoma cruzi was analyzed to determine the feasibility of designing a parasite-specific mechanism-based inhibitor of this enzyme. The results show that the HPRT from T. cruzi follows an essentially ordered bi–bi reaction, and like its human counterpart also likely forms a dead end complex with purine substrates and the product pyrophosphate. Computational fitting of the kinetics data to multiple initial velocity equations gave results that are consistent with the dead end complex arising when the hypoxanthine- or guanine-bound form of the enzyme binds pyrophosphate rather than the phosphoribosylpyrophosphate substrate of the productive forward reaction. Limited proteolytic digestion was employed to provide additional support for formation of the dead end complex and to estimate the K_d values for substrates of both the forward and reverse reactions. Due to similarities with the kinetic mechanism of the human HPRT, the results reported here for the HPRT from T. cruzi indicate that the design of a mechanism-based inhibitor of the trypanosomal HPRT, that would not also inhibit the human enzyme, may be difficult. However, the results also show that a potent selective inhibitor of the trypanosomal HPRT might be achieved via the design of a bi-substrate type inhibitor that incorporates analogs of moieties for a purine base and pyrophosphate.     

Catabolic metabolism in Trypanosoma cruzi

Culture, blood and intracellular forms of Trypanosoma cruzi have a high rate of endogenous oxygen uptake and probably utilize amino acids and carbohydrates as their exogenous energy sources. It is likely that triglyceride is the main energy reserve. Oxidation of carbohydrate by all forms is probably via a glycolytic sequence and a complete tricarboxylic acid cycle. These data suggest that the substrates utilized and catabolic pathways present in mammalian forms of T. cruzi are similar to those of culture forms of the organism and are quite distinct from those of the bloodstream forms of African trypanosomes.