Enrichment of right-side-out Trypanosoma cruzi plasma membrane vesicles

A simple method to prepare a high yield of Trypanosoma cruzi plasma membrane vesicles (PMV) from epimastigotes and metacyclic trypomastigotes is described. The method may be applicable to other protozoa. Solid-phase immunoassay to bind surface T. cruzi epitopes showed that this preparation was enriched with 80-82% PMV and that most of these were right-side out (81-92%). The method was based on the extraction of extrinsic proteins and subpellicular tubules with mild high and low ionic strength buffers without detergents (pH 7.4) and on the differential centrifugation of PMV based on their specific density (1.049 g/ml, 4 degrees C). Transmission electron microscopy of PMV pellets showed a heterogeneous population of vesicles without other significant cytoskeletal contaminants. T. cruzi PMV were also enriched with an ouabain- and oligomycin-insensitive magnesium-ATPase and contained an adenylyl cyclase, preserved for at least 3 months at -70 degrees C in storage buffer. Measurements of the [14C]-dextran and the 3H2O space indicated that T. cruzi PMV were not sealed, explaining why Lubrol PX and NaF failed to stimulate the adenylyl cyclase activity further and why T. cruzi PMV were unable to concentrate 86Rb in flow dialysis assays. No detectable DNA and RNA was found. The preparation was not capable of removing 51Cr or [3H]glucosamine from live L6 myoblast surfaces in physiologic conditions and acid phosphatase was extracted by this method. The contaminating fraction (18-20% by immunoassay) consisted of endoplasmic reticulum membranes with NADH oxidase activity and of kinetoplast membranes with cytochrome c oxidase and oligomycin sensitive magnesium-ATPase activity. The biologically active T. cruzi PMV retained the ability of living forms to trigger the alternate pathway of complement by releasing the Bb activation fragment from human Factor B.     

Characterization of an adenylyl cyclase activity in particulate preparations from epimastigote forms of Trypanosoma cruzi.

Particulate preparations from epimastigote forms of Trypanosoma cruzi contain an adenylyl cyclase (ATP pyrophosphate-lyase (cyclizing), EC 4.6.1.1) which could be stored at --20 degree C and resisted 5 cycles of freezing and thawing over 10 days without significant loss of activity. The enzyme reaction strictly required Mn2+, had a pH optimum of 7.7 and was not inhibited or stimulated by NaF. Particles prepared in the presence of 10 mM Mn2+ or Mg2+ were 3--4 times more active than particles prepared in the absence of these cations. However, Mg2+ could not substitute for Mn2+ during enzyme assay nor did it enhance activity in the presence of saturating concentrations of Mn2+. The binary complex Mn - ATP2- was shown to be the true substrate for the adenylyl cyclase and free ATP was highly inhibitory. Plots of enzyme activity against equimolar concentrations of ATP - Mn gave sigmoid curves with n values in Hill plots ranging between 1.5 and 2.0. Excess Mn2+ activated the cyclase catalyzed reaction at low but not at high concentrations of ATP - Mn. In the presence of an excess of 1 mM Mn2+, which transforms 97% of the added ATP to productive Mn - ATP2- complex, the substrate saturation curve assumed a Michaelian pattern with an apparent Km =0.2 mM.     

Purification and some properties of serine hydroxymethyltransferase from Trypanosoma cruzi.

A single form of serine hydroxymethyltransferase (SHMT) was detected in epimastigotes of Trypanosoma cruzi, in contrast to the three isoforms of the enzyme characterized from another trypanosomatid, Crithidia fasciculata [Capelluto D.G.S., Hellman U., Cazzulo J.J. & Cannata J.J.B. (1999) Mol. Biochem. Parasitol. 98, 187-201]. The T. cruzi SHMT was found to be highly unstable in crude extracts. In the presence of the cysteine proteinase inhibitors N-alpha-p-tosyl-L-lysine chloromethyl ketone and Ltrans-3-carboxyoxiran-2-carbonyl-L-leucylagmatine, however, the enzyme could be purified to homogeneity. Digitonin treatment of intact cells suggested that the enzyme is cytosolic. T. cruzi SHMT presents a monomeric structure shown by the apparent molecular masses of 69 kDa (native) and 55 kDa (subunit) determined by Sephadex G-200 gel filtration and SDS/PAGE, respectively. This is in contrast to the tetrameric SHMTs described in C. fasciculata and other eukaryotes. The enzyme was pyridoxal phosphate-dependent after L-cysteine and hydroxylamine treatments and it was strongly inhibited by the substrate analog folate, which was competitive towards tetrahydrofolate and noncompetitive towards L-serine. Partial sequencing of tryptic internal peptides of the enzyme indicate considerable similarity with other SHMTs, particularly from those of plant origin.     

Isolation and characterization of a reservosome fraction from Trypanosoma cruzi

Resistance to different antibiotics was found in 26 of the 30 strains analyzed, more than 70% of the strains analyzed were resistant to carbenicillin and ampicillin and a significant correlation was found between the resistance to both antibiotics. Plasmids were found in 80% of the strains analyzed, and 11 different plasmid profiles were observed. The most common profile obtained had only a 21.2-kbp plasmid, a significant correlation was found between the presence of this plasmid and resistance to carbenicillin, although some exceptions could be detected. Plasmids were cured from a cephalothin resistant strain and reintroduced into the plasmid-free cell and into Escherichia coli DH5alpha, both strains gained resistance to this antibiotic.     

Purification and characterization of lipoamide dehydrogenase from Trypanosoma cruzi

From Trypanosoma cruzi, the causative agent of Chagas' disease, a lipoamide dehydrogenase was isolated. The enzyme, an FAD-cystine oxidoreductase, shares many physical and chemical properties with T. cruzi trypanothione reductase, the key enzyme of the parasite's thiol metabolism. 1. From 60 g epimastigotic T. cruzi cells, 2.7 mg lipoamide dehydrogenase was extracted. The flavoenzyme was purified 3000-fold to homogeneity with an overall yield of 26%. 2. The enzyme is a dimer with a subunit Mr of 55,000. With 1 mM lipoamide (Km approximately 5 mM) and 100 microM NADH (Km = 23 microM), the specific activity at pH 7.0 is 297 U/mg. 3. With excess NADH, the enzyme is reduced to the EH2.NADH complex and, by addition of lipoamide, it is reoxidized, indicating that it can cycle between the oxidized state E and the two-electron-reduced state, EH2. 4. As shown by N-terminal sequencing of the enzyme, 21 out of 30 positions are identical with those of pig heart and human liver lipoamide dehydrogenase. The sequenced section comprises the GGGPGG stretch, which represents the binding site for the pyrophosphate moiety of FAD. 5. After reduction of Eox to the two-electron-reduced state, the enzyme is specifically inhibited by the nitrosourea drug 1,3-bis(2-chloroethyl)-1-nitrosourea (Carmustine), presumably by carbamoylation at one of the nascent active-site thiols. 6. Polyclonal rabbit antibodies raised against T. cruzi lipoamide dehydrogenase and trypanothione reductase are specific for the respective enzyme, as shown by immunoblots of the pure proteins and of cell extracts.     

Plasma membrane vesicles isolated from epimastigote forms of Trypanosoma cruzi.

Membrane vesicles can be obtained from epimastigote forms of Trypansoma 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 catalyzed 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 30--50-fold enrichment of the four sugar-containing macromolecules present in epimastigote forms of T. cruzi have been demonstrated in these preparations.     

Trypanosoma cruzi adenylate cyclase activity. Purification and characterization.

Adenylate cyclase activity associated with Trypanosoma cruzi sedimentable fractions was solubilized by treatment with the non-ionic detergent Lubrol PX and 0.5 M-(NH4)2SO4. The following hydrodynamic and molecular parameters were established for a partially purified enzyme-detergent complex: sedimentation coefficient 6.2 S; Stokes radius 5.65 nm; partial specific volume 0.83 ml/g; Mr 244 000; frictional ratio 1.33. A Mr of about 124 000 was calculated for the detergent-free protein from these parameters. The pI of this enzyme activity was 6.2. A monoclonal antibody to T. cruzi adenylate cyclase was obtained, which inhibited cyclase activities from several lower eukaryotic organisms. The T. cruzi adenylate cyclase was further purified by using this antibody in immunoaffinity chromatographic columns. Fractions obtained after this chromatography showed, on SDS/polyacrylamide-gel electrophoresis, a main polypeptide band with an apparent Mr of about 56 000, which specifically reacted with the monoclonal antibody.     

Antiparasitic activity and effect of casearins isolated from Casearia sylvestris on Leishmania and Trypanosoma cruzi plasma membrane

Leishmaniasis and Chagas disease are infectious diseases caused by parasite Leishmania sp. and Trypanosoma cruzi, respectively, and are included among the most neglected diseases in several underdeveloped and developing countries, with an urgent demand for new drugs. Considering the antiparasitic potential of MeOH extract from leaves of Casearia sylvestris Sw. (Salicaceae), a bioguided fractionation was conducted and afforded four active clerodane diterpenes (casearins A, B, G, and J). The obtained results indicated a superior efficacy of tested casearins against trypomastigotes of T. cruzi, with IC₅₀ values ranging from 0.53 to 2.77 μg/ml. Leishmania infantum promastigotes were also susceptible to casearins, with IC₅₀ values in a range between 4.45 and 9.48 μg/ml. These substances were also evaluated for mammalian cytotoxicity against NCTC cells resulting in 50% cytotoxic concentrations (CC₅₀) ranging from 1.46 to 13.76 μg/ml. Additionally, the action of casearins on parasite membranes was investigated using the fluorescent probe SYTOX Green. The obtained results demonstrated a strong interaction of casearins A and B to the plasma membrane of T. cruzi parasites, corroborating their higher efficacy against these parasites. In contrast, the tested casearins induced no alteration in the permeability of plasma membrane of Leishmania parasites, suggesting that biochemical differences between Leishmania and T. cruzi plasma membrane might have contributed to the target effect of casearins on trypomastigotes. Thus, considering the importance of studying novel and selective drug candidates against protozoans, casearins A, B, G, and J could be used as tools to future drug design studies.     

Internalization of components of the host cell plasma membrane during infection by Trypanosoma cruzi

Epimastigote and trypomastigote forms of Trypanosoma cruzi attach to the macrophage surface and are internalized with the formation of a membrane bounded vacuole, known as the parasitophorous vacuole (PV). In order to determine if components of the host cell membrane are internalized during formation of the PV we labeled the macrophage surface with fluorescent probes for proteins, lipids and sialic acid residues and then allowed the labeled cells to interact with the parasites. The interaction process was interrupted after 1 hr at 37 masculineC and the distribution of the probes analyzed by confocal laser scanning microscopy. During attachment of the parasites to the macrophage surface an intense labeling of the attachment regions was observed. Subsequently labeling of the membrane lining the parasitophorous vacuole containing epimastigote and trypomastigote forms was seen. Labeling was not uniform, with regions of intense and light or no labeling. The results obtained show that host cell membrane lipids, proteins and sialoglycoconjugates contribute to the formation of the membrane lining the PV containing epimastigote and trypomastigote T. cruzi forms. Lysosomes of the host cell may participate in the process of PV membrane formation.     

Purification of a glycoprotein excreted by Trypanosoma cruzi to increase the permeability of the host-cell membrane

During invasion of the prospective host cell, metacyclic forms of Trypanosoma cruzi render the membrane of HeLa cells permeable to the alpha-sarcin toxin, by excreting a glycoprotein with N-acetyl-D-glucosamine residues. The molecular weight of the glycoprotein is 64,000 dalton and its isoelectric point is 4.8.     

Localization of a Mg2+-activated ATPase in the plasma membrane of Trypanosoma cruzi

The Wachstein and Meisel incubation medium was used to detect ATPase activity in epimastigote, spheromastigote (amastigote), and bloodstream trypomastigote forms of Trypanosoma cruzi. Reaction product, indicative of enzyme activity, was associated with the plasma membrane covering the cell body and the flagellum of the parasite. No reaction product was found in the portion of the plasma membrane lining the flagellar pocket. The plasma membrane-associated ATPase activity was not inhibited by ouabain or oligomycin, was detected in incubation medium without K+, was inhibited by prolonged glutaraldehyde fixation, and its activity was diminished when Mg2+ was omitted from the incubation medium. The Ernst medium was used to detect Na+-K+-ATPase activity in T. cruzi. No reaction product indicative of the presence of this enzyme was detected. Reaction product indicative of 5'-nucleotidase was not detected in T. cruzi. Acid phosphatase activity was detected in lysosomes. Those results indicate that a Mg2+-activated ATPase is present in the plasma membrane of T. cruzi and that it can be used as an enzyme marker, provided that the mitochondrial and flagellar ATPases are inhibited, to assess the purity of plasma membrane fractions isolated from this parasite.     

Amphotericin B-induced carbohydrate changes on the Trypanosoma cruzi surface membrane.

Changes in the cell surface carbohydrates of Trypanosoma cruzi epimastigotes induced by Amphotericin B (AmB) were assessed by chemical methods and by agglutination assay employing a panel of highly purified lectins of various sugar specificities. Escherichia coli K12 with mannose-sensitive fimbriae was also used as an agglutination probe. Amphotericin B caused a decrease in the total carbohydrate content of all glycoconjugate fractions isolated. Exposure to AmB strongly affected the mannose/galactose ratio (1:5) in the CHCl3/methanol/H2O soluble fraction. These sugars in 1.4:1 ratio were the major hexose components of control cells. The decrease in the mannose content (48 to 15%) after AmB treatment agrees with the marked decrease in the T. cruzi cell surface receptors for fimbriated E. coli K12. Also, an increase in the galactose content (74%) as compared with control cells (34%) is in agreement with the peanut agglutinin and Euonymus europaeus lectins agglutination results. Differences in the cell surface carbohydrates induced by AmB could be associated with alterations in the membrane structure and organization.     

Adenosine kinase from Trypanosoma cruzi

Adenosine kinase was demonstrated in the soluble fraction of $\text{Trypanosoma}\text{cruzi}$. Magnesium is required for activity. ATP and GTP are efficient phosphate donors while $\text{p}\text{-}\text{nitrophenylphosphate}$ is without activity. The pH optimum is high (8.0), it is heat labile and is stabile to freezing (?20° or ?80°). It is substrate inhibited, does not survive dialysis and its stability to gel filtration is enhanced by the presence of ATP or GTP. Time curves are parabolic only if the enzyme is preincubated with ATP (or GTP); sigmoid when preincubated with adenosine.     

Protein fraction from Trypanosoma cruzi infected spleen cell supernatants with immunosuppressive activity in vitro

Hydro-insoluble protein components of splenocyte supernatants (HPSS) from C3H/He and C57BL/6 mice infected with Trypanosoma cruzi were isolated after diffusion against water and centrifugation. It is strongly suggested that the major component in the precipitate from infected splenocyte cultures, showing a relative mol. wt of 14,000–15,000 and a pI ≌ 6.6 is responsible for the immunosuppressive effect of the blastogenic response to mitogens shown in vitro. It showed its effect across the haplotype barrier (H-2^k↔H-2^b). Its activity is dose-dependent and its production is related to the period of infection, being 17 days post-infection the date of maximum production by infected splenocytes. Its origin is so far uncertain but seems to be a host product and is probably acting through interaction with normal macrophages, rendering them immunosuppressive. An immunosuppressive protein with similar pI, absent in normal serum, was detected in infected sera.