Ehhmbp45 is a novel hemoglobin-binding protein identified in Entamoeba histolytica

Hemoglobin-binding proteins are necessary for pathogens to obtain iron from Hb. Entamoeba histolytica can grow using Hb as source of iron, but the underlying mechanism has not previously been established. In this work, we identified a 45 kDa Hb-binding protein of E. histolytica, which we named Ehhmbp45. In silico analysis showed that Ehhmbp45 contains the conserved domains needed for Hb-binding, while overlay assays demonstrated that Ehhmbp45 is able to bind Hb. In addition, we found that Ehhmbp45 mRNA levels were up-regulated under iron starvation conditions and were subsequently restored to basal levels when Hb was added to the cell cultures. These findings provide the first insights on the role of Ehhmbp45 in iron acquisition from Hb.     

The immunopathogenesis of Entamoeba histolytica

Amebiasis is the disease caused by the enteric dwelling protozoan parasite Entamoeba histolytica. The WHO considers amebiasis as one of the major health problems in developing countries; it is surpassed by only malaria and schistosomiasis for death caused by parasitic infection. E. histolytica primarily lives in the colon as a harmless commensal, but is capable of causing devastating dysentery, colitis and liver abscess. What triggers the switch to a pathogenic phenotype and the onset of disease is unknown. We are becoming increasingly aware of the complexity of the host-parasite interaction. During chronic stages of amebiasis, the host develops an immune response that is incapable of eliminating tissue resident parasites, while the parasite actively immunosuppresses the host. However, most individuals with symptomatic infections succumb only to an episode of dysentery. Why most halt invasion and a minority progress to chronic disease remains poorly understood. This review presents a current understanding of the immune processes that shape the outcome of E. histolytica infections during its different stages.     

Entamoeba histolytica: Oxygen resistance and virulence

Entamoeba histolytica virulence has been attributed to several amoebic molecules such as adhesins, amoebapores and cysteine proteinases, but supporting evidence is either partial or indirect. In this work we compared several in vitro and in vivo features of both virulent E. histolytica (vEh) and non-virulent E. histolytica (nvEh) axenic HM-1 IMSS strains, such as complement resistance, proteinase activity, haemolytic, phagocytic and cytotoxic capacities, survival in mice caecum, and susceptibility to O₂. The only difference observed was a higher in vitro susceptibility of nvEh to O₂. The molecular mechanism of that difference was analyzed in both groups of amoebae after high O₂ exposure. vEh O₂ resistance correlated with: (i) higher O₂ reduction ( and H₂O₂ production); (ii) increased H₂O₂ resistance and thiol peroxidase activity, and (iii) reversible pyruvate: ferredoxin oxidoreductase (PFOR) inhibition. Despite the high level of carbonylated proteins in nvEh after O₂ exposure, membrane oxidation by reactive oxygen species was not observed. These results suggest that the virulent phenotype of E. histolytica is related to the greater ability to reduce O₂ and H₂O₂ as well as PFOR reactivation, whereas nvEh undergoes irreversible PFOR inhibition resulting in metabolic failure and amoebic death.     

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: Molecular cloning and characterization of a novel neutral sphingomyelinase

A novel neutral sphingomyelinase (nSMase) was characterized in Entamoeba histolytica trophozoites. SMase, a sphingomyelin-specific form of phospholipase C, catalyzes the hydrolysis of sphingomyelin to ceramide and phosphorylcholine. Three amebic putative nSMase genes were found to be actively transcribed. Mg²⁺-independent nSMase activity in the soluble fraction of the trophozoites was stimulated by Mn²⁺ and partially inhibited by Zn²⁺. nSMase activity of the recombinant protein EhnSM1, increased 4.5-fold in the presence of 0.5 mM Mn²⁺, and abolished by 5 mM Zn²⁺. A dose-dependent inhibition of rEhnSM1 was observed with scyphostatin, a specific inhibitor of nSMases. The EhnSM1 and EhnSM3 were detected in the soluble fraction of the amebic lysate as 35-37 kDa proteins by western blot analysis. Immunofluorescence assay showed that the overexpressed HA-tagged EhnSM1 and EhnSM3 were localized to the cytosol. The biological role of these novel E. histolytica nSMases described in this work remains to be determined.     

Crystal Structure and Trimer-Monomer Transition of N-Terminal Domain of EhCaBP1 from Entamoeba histolytica

EhCaBP1 is a well-characterized calcium binding protein from Entamoeba histolytica with four canonical EF-hand motifs. The crystal structure of EhCaBP1 reveals the trimeric organization of N-terminal domain. The solution structure obtained at pH 6.0 indicated its monomeric nature, similar to that of calmodulin. Recent domain-wise studies showed clearly that the N-terminal domain of EhCaBP1 is capable of performing most of the functions of the full-length protein. Additionally, the mode of target binding in the trimer is similar to that found in calmodulin. To study the dynamic nature of this protein and further validate the trimerization of N-terminal domain at physiological conditions, the crystal structure of N-terminal domain was determined at 2.5 Å resolution. The final structure consists of EF-1 and EF-2 motifs separated by a long straight helix as seen in the full-length protein. The spectroscopic and stability studies, like far and near-ultraviolet circular dichroism spectra, intrinsic and extrinsic fluorescence spectra, acrylamide quenching, thermal denaturation, and dynamic light scattering, provided clear evidence for a conversion from trimeric state to monomeric state. As the pH was lowered from the physiological pH, a dynamic trimer-monomer transition was observed. The trimeric state and monomeric state observed in spectroscopic studies may represent the x-ray and NMR structures of the EhCaBP1. At pH 6.0, the endogenous kinase activation function was almost lost, indicating that the monomeric state of the protein, where EF-hand motifs are far apart, is not a functional state.     

Evidence for a novel Entamoeba histolytica lectin activity that recognises carbohydrates present on ovalbumin

Entamoeba histolytica, an intestinal amoeba that causes dysentery and liver abscesses, acquires nutrients by engulfing bacteria in the colonic lumen and phagocytoses apoptotic cells during tissue invasion. In preliminary studies to identify ligands that stimulate amoebic phagocytosis, we used ovalbumin immobilized on latex particles as a potential negative control protein. Surprisingly, ovalbumin strongly stimulated E. histolytica particle uptake. Experiments using highly purified ovalbumin confirmed the specificity of this finding. The mechanism of particle uptake was actin-dependent, and the Entamoeba phagosome marker amoebapore A localised to ovalbumin-bead containing vacuoles. The most well described amoebic receptor is a Gal/GalNAc-specific lectin, but d-galactose had no effect on ovalbumin-stimulated phagocytosis. Ovalbumin has a single N-glycosylation site (Asn₂₉₂) and is modified with oligomannose and hybrid-type oligosaccharides. We used both trifluoromethanesulfonic acid and N-glycanase to deglycosylate ovalbumin and tested the effect. Both methods substantially reduced the stimulatory effect of ovalbumin. Biotinylated ovalbumin bound the surface of fixed E. histolytica trophozoites saturably; furthermore, denatured ovalbumin and native ovalbumin both specifically inhibited ovalbumin-biotin binding, but deglycosylated ovalbumin had no effect. Collectively, these data suggest that E. histolytica has a previously unrecognised surface lectin activity that binds to carbohydrates on ovalbumin and stimulates phagocytosis.     

Entamoeba histolytica thioredoxin reductase: Molecular and functional characterization of its atypical properties

Background

Entamoeba histolytica, an intestinal protozoan that is the causative agent of amoebiasis, is exposed to elevated amounts of highly toxic reactive oxygen and nitrogen species during tissue invasion. Thioredoxin reductase catalyzes the reversible transfer of reducing equivalents between NADPH and thioredoxin, a small protein that plays key metabolic functions in maintaining the intracellular redox balance.

Methods

The present work deals with in vitro steady state kinetic studies aimed to reach a better understanding of the kinetic and structural properties of thioredoxin reductase from E. histolytica (EhTRXR).

Results

Our results support that native EhTRXR is a homodimeric covalent protein that is able to catalyze the NAD(P)H-dependent reduction of amoebic thioredoxins and S‐nitrosothiols. In addition, the enzyme exhibited NAD(P)H dependent oxidase activity, which generates hydrogen peroxide from molecular oxygen. The enzyme can reduce compounds like methylene blue, quinones, ferricyanide or nitro-derivatives; all alternative substrates displaying a relative high capacity to inhibit disulfide reductase activity of EhTRXR.

Conclusions and general significance

Interestingly, EhTRXR exhibited kinetic and structural properties that differ from other low molecular weight TRXR. The TRX system could play an important role in the parasite defense against reactive species. The latter should be critical during the extra intestinal phase of the amoebic infection. So far we know, this is the first in depth characterization of EhTRXR activity and functionality.     

Ligand heterogeneity of the cysteine protease binding protein family in the parasitic protist Entamoeba histolytica

Lysosomal soluble proteins are targeted to endosomes and lysosomes by specific receptors resident in the endoplasmic reticulum and/or the Golgi apparatus. The enteric protozoan parasite Entamoeba histolytica has a novel class of lysosomal targeting receptors, named the cysteine protease binding protein family (CPBF). Among 11 CPBFs (CPBF1–11), ligands for three members, CPBF1, CPBF6 and CPBF8, were previously shown to be cysteine proteases, α- and γ- amylases, and β-hexosaminidase and lysozymes, respectively. To further understand the heterogeneity of the ligands of CPBFs, we attempted to isolate and identify the ligands for other members of CPBFs, namely CPBF2, 3, 4, 5, 7, 9, 10 and 11, by immunoprecipitation and mass spectrometric analysis. We found that CPBF2 and CPBF10 bound to α-amylases while CPBF7 bound to β-hexosaminidases. It is intriguing that cysteine protease are exclusively recognised by CPBF1, whereas three α-amylases and β-hexosaminidases are redundantly recognised by three and two CPBFs, respectively. It was shown by bioinformatics analysis and phylogenetic reconstruction that each CPBF contains six prepeptidase carboxyl-terminal domains, and the domain configuration is evolutionarily conserved among CPBFs. Taken together, CPBFs with unique and conserved domain organisation have a remarkable ligand heterogeneity toward cysteine protease and carbohydrate degradation enzymes. Further structural studies are needed to elucidate the structural basis of the ligand specificity.     

Entamoeba histolytica: Soluble and membrane-associated neutral sphingomyelinase-C and other unidentified esterase activity

Sphingomyelinase (SMase) activity was measured in Entamoeba histolytica particulate and soluble subcellular fractions. The effects on SMase of incubation time, total protein concentration, pH, and several divalent cations were determined. SMase-C and other unidentified esterase activity were detected in soluble and particulate fractions. SMase-C was 94.5-96.0% higher than the unidentified esterase activity. Soluble and insoluble SMase-C specific activities increased with protein dose and incubation time. Soluble and insoluble SMase-C activities were maximum at pH 7.5 and were dependent on Mg²⁺, Mn²⁺, or Co²⁺, and inhibited by Zn²⁺, Hg²⁺, Ca²⁺, and EDTA. SMase-C was active in the pH range of 3-10 and its maximum activity was at pH 7.5. The soluble and insoluble SMases have remarkably similar physicochemical properties, strongly suggesting that E. histolytica has just one isoform of neutral SMase-C that had not been described before and might be essential for E. histolytica metabolism or virulence.     

Entamoeba histolytica, heterologous expression and in situ immunolocalization of ornithine decarboxylase (EhODC)

Previous studies from this laboratory have dealt with the purification and biochemical characterization of ornithine decarboxylase (ODC) from Entamoeba histolytica. Enzyme compartmentalization has been described as a major mechanism in the regulation of polyamine metabolism. However, the subcellular location of ODC in the human parasite has remained unresolved. To examine this issue, we cloned the full-length gene (Ehodc) encoding for the parasite enzyme, whose open reading frame encodes for a peptide of 412 amino acids with an estimated molecular mass of 46 kDa that exhibits similarity to other ODCs. Heterologous overexpression of the gene allowed us to purify the recombinant protein (rEhODC) by metal affinity chromatography. The purified polypeptide was used to raise heteroclonal antibodies that were utilized to localize the enzyme in situ by immunofluorescence and confocal microscopy. EhODC was observed to be associated with the plasma membrane, in vesicles close to the plasma membrane and in the EhkOs organelle.     

Biochemical and functional characterization of novel NADH kinase in the enteric protozoan parasite Entamoeba histolytica

NAD(H) kinase catalyzes the phosphorylation of NAD(H) to form NADP(H) using ATP or inorganic polyphosphate as a phosphoryl donor. While the enzyme is conserved throughout prokaryotes and eukaryotes, remarkable differences in kinetic parameters including substrate preference, cation dependence, and physiological roles exist among the organisms. In the present study, we biochemically characterized NAD(H) kinase from the anaerobic/microaerophilic fermentative protozoan parasite Entamoeba histolytica, which lacks the conventional mitochondria capable of oxidative phosphorylation, leading to ATP. The kinetic properties of E. histolytica NAD(H) kinase recombinantly produced in Escherichia coli showed remarkable differences from those in bacteria and higher eukaryotes. Entamoeba NAD(H) kinase preferred NADH to NAD+ as the phosphoryl acceptor, utilized nucleoside triphosphates including ATP, GTP and deoxyATP, but not nucleoside di-, mono-phosphates, or inorganic polyphosphates, as the phosphoryl donor. To further understand the physiological roles in E. histolytica, we generated a stable transformant overexpressing NAD(H) kinase. Overexpression of NAD(H) kinase resulted in a 1.6–2 fold increase in the NADPH and NADP+ concentrations, a 40% reduction of the intracellular concentration of reactive oxygen species, and also led to increased tolerance toward hydrogen peroxide. These data, together with the essentially of NAD(H) kinase gene, underscore its significance as an NADP(H)-producing enzyme in this organism, and should help in designing of drugs targeting this enzyme.     

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.     

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.     

Members of the Entamoeba histolytica transmembrane kinase family play non-redundant roles in growth and phagocytosis

Entamoeba histolytica contains a large and novel family of transmembrane kinases (TMKs). The expression patterns of the E. histolytica TMKs in individual trophozoites and the roles of the TMKs for sensing and responding to extracellular cues were incompletely characterised. Here we provide evidence that single cells express multiple TMKs and that TMK39 and TMK54 likely serve non-redundant cellular functions. Laser-capture microdissection was used in conjunction with microarray analysis to demonstrate that single trophozoites express more than one TMK gene. Anti-peptide antibodies were raised against unique regions in the extracellular domains of TMK39, TMK54 and PaTMK, and TMK expression was analysed at the protein level. Flow cytometric assays revealed that populations of trophozoites homogeneously expressed TMK39, TMK54 and PaTMK, while confocal microscopy identified different patterns of cell surface expression for TMK39 and TMK54. The functions of TMK39 and TMK54 were probed by the inducible expression of dominant-negative mutants. While TMK39 co-localised with ingested beads and expression of truncated TMK39 interfered with trophozoite phagocytosis of apoptotic lymphocytes, expression of a truncated TMK54 inhibited growth of amoebae and altered the surface expression of the heavy subunit of the E. histolytica Gal/GalNAc lectin. Overall, our data indicates that multiple members of the novel E. histolytica TMK family are utilised for non-redundant functions by the parasite.     

Entamoeba invadens: Cloning and molecular characterization of chitinases

Entamoeba histolytica, the causative agent of amebiasis infects through its cyst form and this transmission may be blocked using encystation specific protein as drug target. In this study, we have characterized the enzyme chitinase which express specifically during encystation. The reptilian parasite Entamoeba invadens, used as a model for encystation study contain three chitinases. We report the molecular cloning, over-expression and biochemical characterization of all three E. invadens chitinase. Cloned chitinases were over-expressed in bacterial system and purified by affinity chromatography. Their enzymatic profiles and substrate cleaving patterns were characterized. All of them showed binding affinity towards insoluble chitin though two of them lack the chitin binding domain. All the chitinases cleaved and released dimmers from the insoluble substrate and act as an exochitinase. Homology modeling was also done to understand the substrate binding and cleavage pattern.     

Neospora caninum: Cloning and expression of a gene coding for cytokine-inducing profilin

Profilins are actin-binding proteins that in Toxoplasma gondii stimulate innate immunity in mice by binding Toll-like receptors (TLR) on dendritic cells (DC) leading to release of inflammatory cytokines, primarily IL-12 and IFN-γ. The purpose of the present study was to characterize Neospora caninum profilin, termed NcProfilin. Recombinant NcProfilin was purified by affinity chromatography, and used to prepare specific antisera to allow characterization of native NcProfilin antigen in N. caninum tachyzoites. By immunoblotting, recombinant NcProfilin is 22 kDa, and is similar in size to the respective 22 kDa native protein. Immunofluorescence and immunoelectron microscopy localized native NcProfilin to the apical end of N. caninum tachyzoites. Incubation of recombinant NcProfilin with spleen cells from BALB/c mice induced release of IFN-γ. Also, injection of BALB/c mice with purified rNcProfilin elicited a strong IFN-γ and IL-12 responses at 6 and 24 h after injection indicating that NcProfilin may be an important protein in regulation of cytokine responses to N. caninum.     

Conformational changes induced by detergents during the refolding of chemically denatured cysteine protease ppEhCP-B9 from Entamoeba histolytica

EhCP-B9, a cysteine protease (CP) involved in Entamoeba histolytica virulence, is a potential target for disease diagnosis and drug design. After purification from inclusion bodies produced in Escherichia coli, the recombinant EhCP-B9 precursor (ppEhCP-B9) can be refolded using detergents as artificial chaperones. However, the conformational changes that occur during ppEhCP-B9 refolding remain unknown. Here, we comprehensively describe conformational changes of ppEhCP-B9 that are induced by various chemical detergents acting as chaperones, including non-ionic, zwitterionic, cationic and anionic surfactants. We monitored the effect of detergent concentration and incubation time on the secondary and tertiary structures of ppEhCP-B9 using fluorescence and circular dichroism (CD) spectroscopy. In the presence of non-ionic and zwitterionic detergents, ppEhCP-B9 adopted a β-enriched structure (ppEhCP-B9_β1) without proteolytic activity at all detergent concentrations and incubation times evaluated. ppEhCP-B9 also exhibits a β-rich structure in low concentrations of ionic detergents, but at concentrations above the critical micelle concentration (CMC), the protein acquires an α + β structure, similar to that of papain but without proteolytic activity (ppEhCP-B9_α + β1). Interestingly, only within a narrow range of experimental conditions in which SDS concentrations were below the CMC, ppEhCP-B9 refolded into a β-sheet rich structure (ppEhCP-B9_β2) that slowly transforms into a different type of α + β conformation that exhibited proteolytic activity (ppEhCP-B9_α + β2) suggesting that enzymatic activity is gained as slow transformation occurs.     

Entamoeba histolytica: Cysteine proteinase activity and virulence. Focus on cysteine proteinase 5 expression levels

Cysteine proteinase (CP) activity and CP5 mRNA levels were analyzed in eleven samples of Entamoeba histolytica isolated from patients presenting different clinical profiles. The virulence degree of the isolates, determined in hamster liver, correlated well with the clinical form of the patient and culture conditions. CP5 mRNA levels were also determined in sample freshly picked up directly from liver amoebic abscess. Differences were not observed in the levels of CP5 mRNA and CP specific activity among the cultured samples. However, different levels of CP5 mRNA were observed in trophozoite freshly isolated from hepatic amoebic lesions. These results reinforce the importance of CP5 for the virulence of amoebae and the need for studies with the parasite present in lesions to validate mechanisms involved in pathogenesis of amoebiasis.     

Entamoeba histolytica: Expression and localization of Gal/GalNAc lectin in virulent and non-virulent variants from HM1:IMSS strain

We have purified Gal/GalNAc lectin from Entamoeba histolytica by electroelution. The purified protein was used to immunize rabbits and obtain polyclonal IgG’s anti-lectin. These antibodies were used as tools to analyze the expression and localization of the amoebic lectin in both virulent (vEh) and non-virulent (nvEh) variants of axenically cultured HM1:IMSS strain. vEh is able to induce liver abscesses in hamsters, whereas nvEh has lost this ability. In vitro, amoebic trophozoites from both variants equally express this protein as shown by densitometric analysis of the corresponding band in Western blots from lysates. In both types of trophozoites, the pattern of distribution of the lectin was mainly on the surface. We have also compared by immunohistochemistry the presence and distribution of lectin in the in vivo liver lesions produced in hamsters. In order to prolong the survival of nvEh to analyze both variants in an in vivo model, hamsters inoculated with nvEh were treated with methyl prednisolone. Our results suggest that the Gal/GalNAc lectin is equally expressed in both nvEh and vEh.