A Trypanosoma cruzi phosphoglycerate kinase isoform with a Per-Arnt-Sim domain acts as a possible sensor for intracellular conditions.

Per-ARNT-Sim (PAS) domains constitute a family of domains present in a wide variety of prokaryotic and eukaryotic organisms. They form part of the structure of various proteins involved in diverse cellular processes. Regulation of enzymatic activity and adaptation to environmental conditions, by binding small ligands, are the main functions attributed to PAS-containing proteins. Recently, genes for a diverse set of proteins with a PAS domain were identified in the genomes of several protists belonging to the group of kinetoplastids, however, until now few of these proteins have been characterized. In this work, we characterize a phosphoglycerate kinase containing a PAS domain present in Trypanosoma cruzi (TcPAS-PGK). This PGK isoform is an active enzyme of 58 kDa with a PAS domain located at its N-terminal end. We identified the protein's localization within glycosomes of the epimastigote form of the parasite by differential centrifugation and selective permeabilization of its membranes with digitonin, as well as in an enriched mitochondrial fraction. Heterologous expression systems were developed for the protein with the N-terminal PAS domain (PAS-PGKc) and without it (PAS-PGKt), and the substrate affinities of both forms of the protein were determined. The enzyme does not exhibit standard Michaelis-Menten kinetics. When evaluating the dependence of the specific activity of the recombinant PAS-PGK on the concentration of its substrates 3-phosphoglycerate (3PGA) and ATP, two peaks of maximal activity were found for the complete enzyme with the PAS domain and a single peak for the enzyme without the domain. Km values measured for 3PGA were 219 ± 26 and 8.8 ± 1.3 µM, and for ATP 291 ± 15 and 38 ± 2.2 µM, for the first peak of PAS-PGKc and for PAS-PGKt, respectively, whereas for the second PAS-PGKc peak values of approximately 1.1-1.2 mM were estimated for both substrates. Both recombinant proteins show inhibition by high concentrations of their substrates, ATP and 3PGA. The presence of hemin and FAD exerts a stimulatory effect on PAS-PGKc, increasing the specific activity by up to 55%. This stimulation is not observed in the absence of the PAS domain. It strongly suggests that the PAS domain has an important function in vivo in T. cruzi in the modulation of the catalytic activity of this PGK isoform. In addition, the PAS-PGK through its PAS and PGK domains could act as a sensor for intracellular conditions in the parasite to adjust its intermediary metabolism.

Consumption of Galactose by Trypanosoma cruzi Epimastigotes Generates Resistance against Oxidative Stress.

In this study, we demonstrate that Trypanosoma cruzi epimastigotes previously grown in LIT medium supplemented with 20 mM galactose and exposed to sub-lethal concentrations of hydrogen peroxide (100 µM) showed two-fold and five-fold viability when compared to epimastigotes grown in LIT medium supplemented with two different glucose concentrations (20 mM and 1.5 mM), respectively. Similar results were obtained when exposing epimastigotes from all treatments to methylene blue 30 µM. Additionally, through differential centrifugation and the selective permeabilization of cellular membranes with digitonin, we found that phosphoglucomutase activity (a key enzyme in galactose metabolism) occurs predominantly within the cytosolic compartment. Furthermore, after partially permeabilizing epimastigotes with digitonin (0.025 mg × mg-1 of protein), intact glycosomes treated with 20 mM galactose released a higher hexose phosphate concentration to the cytosol in the form of glucose-1-phosphate, when compared to intact glycosomes treated with 20 mM glucose, which predominantly released glucose-6-phosphate. These results shine a light on T. cruzi's galactose metabolism and its interplay with mechanisms that enable resistance to oxidative stress.

IgE antibodies against Trypanosoma cruzi arginine kinase in patients with chronic Chagas disease.

Arginine kinase (AK) is an enzyme present in various invertebrates, as well as in some trypanosomatids such as T. cruzi, the etiological agent that causes Chagas disease. In invertebrates, this protein acts as an allergen inducing an IgE-type humoral immune response. Since AK is a highly conserved protein, we decided to study whether patients with chronic Chagas disease (CCD) produce specific antibodies against T. cruzi AK (TcAK). Plasma from patients with CCD, with and without cardiac alterations and non-infected individuals were evaluated for the presence of anti-TcAK IgG and IgE antibodies by ELISA, including detection of specific IgG subclasses. Our results showed that the levels of specific anti-TcAK IgG and IgE were different between infected and non-infected individuals, but comparable between those with different clinical manifestations. Interestingly, anti-TcAK IgG4 antibodies associated with IgE-mediated allergenic processes were also increased in CCD patients. Finally, we found that several of the predicted B cell epitopes in TcAK matched allergenic peptides previously described for its homologues in other organisms. Our results revealed for the first time a parasite's specific IgE antibody target and suggest that TcAK could contribute to delineate an inefficient B cell response by prompting a bias towards a Th2 profile. These findings also shed light on a potential allergenic response in the context of T. cruzi infection.

Hysteresis of pyruvate phosphate dikinase from Trypanosoma cruzi.

Trypanosoma cruzi, the causative agent of Chagas' disease, belongs to the Trypanosomatidae family. The parasite undergoes multiple morphological and metabolic changes during its life cycle, in which it can use both glucose and amino acids as carbon and energy sources. The glycolytic pathway is peculiar in that its first six or seven steps are compartmentalized in glycosomes, and has a two-branched auxiliary glycosomal system functioning beyond the intermediate phosphoenolpyruvate (PEP) that is also used in the cytosol as substrate by pyruvate kinase. The pyruvate phosphate dikinase (PPDK) is the first enzyme of one branch, converting PEP, PPi, and AMP into pyruvate, Pi, and ATP. Here we present a kinetic study of PPDK from T. cruzi that reveals its hysteretic behavior. The length of the lag phase, and therefore the time for reaching higher specific activity values is affected by the concentration of the enzyme, the presence of hydrogen ions and the concentrations of the enzyme's substrates. Additionally, the formation of a more active PPDK with more complex structure is promoted by it substrates and the cation ammonium, indicating that this enzyme equilibrates between the monomeric (less active) and a more complex (more active) form depending on the medium. These results confirm the hysteretic behavior of PPDK and are suggestive for its functioning as a regulatory mechanism of this auxiliary pathway. Such a regulation could serve to distribute the glycolytic flux over the two auxiliary branches as a response to the different environments that the parasite encounters during its life cycle.

Phosphoglycerate kinase: structural aspects and functions, with special emphasis on the enzyme from Kinetoplastea.

Phosphoglycerate kinase (PGK) is a glycolytic enzyme that is well conserved among the three domains of life. PGK is usually a monomeric enzyme of about 45 kDa that catalyses one of the two ATP-producing reactions in the glycolytic pathway, through the conversion of 1,3-bisphosphoglycerate (1,3BPGA) to 3-phosphoglycerate (3PGA). It also participates in gluconeogenesis, catalysing the opposite reaction to produce 1,3BPGA and ADP. Like most other glycolytic enzymes, PGK has also been catalogued as a moonlighting protein, due to its involvement in different functions not associated with energy metabolism, which include pathogenesis, interaction with nucleic acids, tumorigenesis progression, cell death and viral replication. In this review, we have highlighted the overall aspects of this enzyme, such as its structure, reaction kinetics, activity regulation and possible moonlighting functions in different protistan organisms, especially both free-living and parasitic Kinetoplastea. Our analysis of the genomes of different kinetoplastids revealed the presence of open-reading frames (ORFs) for multiple PGK isoforms in several species. Some of these ORFs code for unusually large PGKs. The products appear to contain additional structural domains fused to the PGK domain. A striking aspect is that some of these PGK isoforms are predicted to be catalytically inactive enzymes or 'dead' enzymes. The roles of PGKs in kinetoplastid parasites are analysed, and the apparent significance of the PGK gene duplication that gave rise to the different isoforms and their expression in Trypanosoma cruzi is discussed.

Proteomic analysis of glycosomes from Trypanosoma cruzi epimastigotes.

In Trypanosoma cruzi, the causal agent of Chagas disease, the first seven steps of glycolysis are compartmentalized in glycosomes, which are authentic but specialized peroxisomes. Besides glycolysis, activity of enzymes of other metabolic processes have been reported to be present in glycosomes, such as ß-oxidation of fatty acids, purine salvage, pentose-phosphate pathway, gluconeogenesis and biosynthesis of ether-lipids, isoprenoids, sterols and pyrimidines. In this study, we have purified glycosomes from T. cruzi epimastigotes, collected the soluble and membrane fractions of these organelles, and separated peripheral and integral membrane proteins by Na2CO3 treatment and osmotic shock. Proteomic analysis was performed on each of these fractions, allowing us to confirm the presence of enzymes involved in various metabolic pathways as well as identify new components of this parasite's glycosomes.

Structure and function of Per-ARNT-Sim domains and their possible role in the life-cycle biology of Trypanosoma cruzi.

Per-ARNT-Sim (PAS) domains of proteins play important roles as modules for signalling and cellular regulation processes in widely diverse organisms such as Archaea, Bacteria, protists, plants, yeasts, insects and vertebrates. These domains are present in many proteins where they are used as sensors of stimuli and modules for protein interactions. Characteristically, they can bind a broad spectrum of molecules. Such binding causes the domain to trigger a specific cellular response or to make the protein containing the domain susceptible to responding to additional physical or chemical signals. Different PAS proteins have the ability to sense redox potential, light, oxygen, energy levels, carboxylic acids, fatty acids and several other stimuli. Such proteins have been found to be involved in cellular processes such as development, virulence, sporulation, adaptation to hypoxia, circadian cycle, metabolism and gene regulation and expression. Our analysis of the genome of different kinetoplastid species revealed the presence of PAS domains also in different predicted kinases from these protists. Open-reading frames coding for these PAS-kinases are unusually large. In addition, the products of these genes appear to contain in their structure combinations of domains uncommon in other eukaryotes. The physiological significance of PAS domains in these parasites, specifically in Trypanosoma cruzi, is discussed.

[Seroprevalence of Trypanosoma cruzi infection in the rural population of Sucre State, Venezuela]. / Seroprevalencia de la infección por Trypanosoma cruzi en la población rural del estado Sucre, Venezuela.

The current study aimed to determine the seroprevalence of Trypanosoma cruzi infection in Sucre State, Venezuela, and its association with epidemiological risk factors. The cluster sampling design allowed selecting 96 villages and 576 dwellings in the State's 15 municipalities. A total of 2,212 serum samples were analyzed by ELISA, HAI, and IFI. Seroprevalence in Sucre State was 3.12%. Risk factors associated with T. cruzi infection were: accumulated garbage, flooring and wall materials, type of dwelling, living in a house with wattle and daub walls and/or straw roofing, living in a house with risky walls and roofing, risky buildings and wattle and daub outbuildings, poultry inside the human dwelling, and presence of firewood. Infection was associated with individual age, and three seropositive cases were found in individuals less than 15 years of age. Sucre State has epidemiological factors that favor the risk of acquiring T. cruzi infection.

Resumen: El objetivo del presente estudio fue determinar la seroprevalencia de la infección por Trypanosoma cruzi en el estado Sucre (Venezuela) y su asociación con factores de riesgo epidemiológicos. El diseño muestral por conglomerados permitió seleccionar 96 centros poblados y 576 viviendas en los 15 municipios del estado. Asimismo, se evaluaron un total de 2.212 muestras de sueros, a través de las pruebas de ELISA, HAI e IFI. La seroprevalencia en el estado Sucre fue de 3,12%. Los factores de riesgo asociados a la infección por T. cruzi fueron: deposición de basura, materiales predominantes en el piso y paredes, tipo de vivienda, vivir en casas con paredes de bahareque y/o techos de palmas, vivir en casa con paredes y techos de riesgo, construcciones de riesgo y anexos de bahareque, aves dentro de la vivienda y la presencia de leña. La infección se encontró asociada a la edad de los individuos, se detectaron tres casos seropositivos en menores de 15 años. En el estado Sucre existen variables epidemiológicas que favorecen el riesgo a contraer la infección por T. cruzi.

Resumo: O estudo teve como objetivo determinar a soroprevalência da infecção pelo Trypanosoma cruzi no Estado de Sucre, Venezuela, e a associação com fatores de risco epidemiológicos. O delineamento da amostragem em clusters permitiu a seleção de 96 vilarejos e 576 moradias nos 15 municípios do Estado. No total, 2.212 amostras de soro foram analisadas com ELISA, HAI e IFI. O estudo mostrou uma soroprevalência de 3,12% no Estado de Sucre. Os seguintes fatores de risco estiveram associados à infecção pelo T. cruzi: acúmulo de lixo, materiais de piso e paredes impróprios, tipo de moradia, moradias com paredes de pau-a-pique e/ou teto de palha, moradias em situação de risco e construções anexas feitas de pau-a-pique, aves dentro das moradias e presença de lenha. A infecção esteve associada à idade individual, e três casos soropositivos foram identificados em indivíduos com menos de 15 anos de idade. O Estado de Sucre apresenta fatores epidemiológicos que aumentam o risco de infecção pelo T. cruzi.

Seroprevalencia de la infección por Trypanosoma cruzi en la población rural del estado Sucre, Venezuela / Seroprevalence of Trypanosoma cruzi infection in the rural population of Sucre State, Venezuela / Soroprevalência de infecção pelo Trypanosoma cruzi na população rural do Estado de Sucre, Venezuela

Resumen: El objetivo del presente estudio fue determinar la seroprevalencia de la infección por Trypanosoma cruzi en el estado Sucre (Venezuela) y su asociación con factores de riesgo epidemiológicos. El diseño muestral por conglomerados permitió seleccionar 96 centros poblados y 576 viviendas en los 15 municipios del estado. Asimismo, se evaluaron un total de 2.212 muestras de sueros, a través de las pruebas de ELISA, HAI e IFI. La seroprevalencia en el estado Sucre fue de 3,12%. Los factores de riesgo asociados a la infección por T. cruzi fueron: deposición de basura, materiales predominantes en el piso y paredes, tipo de vivienda, vivir en casas con paredes de bahareque y/o techos de palmas, vivir en casa con paredes y techos de riesgo, construcciones de riesgo y anexos de bahareque, aves dentro de la vivienda y la presencia de leña. La infección se encontró asociada a la edad de los individuos, se detectaron tres casos seropositivos en menores de 15 años. En el estado Sucre existen variables epidemiológicas que favorecen el riesgo a contraer la infección por T. cruzi.

Abstract: The current study aimed to determine the seroprevalence of Trypanosoma cruzi infection in Sucre State, Venezuela, and its association with epidemiological risk factors. The cluster sampling design allowed selecting 96 villages and 576 dwellings in the State's 15 municipalities. A total of 2,212 serum samples were analyzed by ELISA, HAI, and IFI. Seroprevalence in Sucre State was 3.12%. Risk factors associated with T. cruzi infection were: accumulated garbage, flooring and wall materials, type of dwelling, living in a house with wattle and daub walls and/or straw roofing, living in a house with risky walls and roofing, risky buildings and wattle and daub outbuildings, poultry inside the human dwelling, and presence of firewood. Infection was associated with individual age, and three seropositive cases were found in individuals less than 15 years of age. Sucre State has epidemiological factors that favor the risk of acquiring T. cruzi infection.

Resumo: O estudo teve como objetivo determinar a soroprevalência da infecção pelo Trypanosoma cruzi no Estado de Sucre, Venezuela, e a associação com fatores de risco epidemiológicos. O delineamento da amostragem em clusters permitiu a seleção de 96 vilarejos e 576 moradias nos 15 municípios do Estado. No total, 2.212 amostras de soro foram analisadas com ELISA, HAI e IFI. O estudo mostrou uma soroprevalência de 3,12% no Estado de Sucre. Os seguintes fatores de risco estiveram associados à infecção pelo T. cruzi: acúmulo de lixo, materiais de piso e paredes impróprios, tipo de moradia, moradias com paredes de pau-a-pique e/ou teto de palha, moradias em situação de risco e construções anexas feitas de pau-a-pique, aves dentro das moradias e presença de lenha. A infecção esteve associada à idade individual, e três casos soropositivos foram identificados em indivíduos com menos de 15 anos de idade. O Estado de Sucre apresenta fatores epidemiológicos que aumentam o risco de infecção pelo T. cruzi.

Subcellular localization of glycolytic enzymes and characterization of intermediary metabolism of Trypanosoma rangeli.

Trypanosoma rangeli is a hemoflagellate protist that infects wild and domestic mammals as well as humans in Central and South America. Although this parasite is not pathogenic for human, it is being studied because it shares with Trypanosoma cruzi, the etiological agent of Chagas' disease, biological characteristics, geographic distribution, vectors and vertebrate hosts. Several metabolic studies have been performed with T. cruzi epimastigotes, however little is known about the metabolism of T. rangeli. In this work we present the subcellular distribution of the T. rangeli enzymes responsible for the conversion of glucose to pyruvate, as determined by epifluorescense immunomicroscopy and subcellular fractionation involving either selective membrane permeabilization with digitonin or differential and isopycnic centrifugation. We found that in T. rangeli epimastigotes the first six enzymes of the glycolytic pathway, involved in the conversion of glucose to 1,3-bisphosphoglycerate are located within glycosomes, while the last four steps occur in the cytosol. In contrast with T. cruzi, where three isoenzymes (one cytosolic and two glycosomal) of phosphoglycerate kinase are expressed simultaneously, only one enzyme with this activity is detected in T. rangeli epimastigotes, in the cytosol. Consistent with this latter result, we found enzymes involved in auxiliary pathways to glycolysis needed to maintain adenine nucleotide and redox balances within glycosomes such as phosphoenolpyruvate carboxykinase, malate dehydrogenase, fumarate reductase, pyruvate phosphate dikinase and glycerol-3-phosphate dehydrogenase. Glucokinase, galactokinase and the first enzyme of the pentose-phosphate pathway, glucose-6-phosphate dehydrogenase, were also located inside glycosomes. Furthermore, we demonstrate that T. rangeli epimastigotes growing in LIT medium only consume glucose and do not excrete ammonium; moreover, they are unable to survive in partially-depleted glucose medium. The velocity of glucose consumption is about 40% higher than that of procyclic Trypanosoma brucei, and four times faster than by T. cruzi epimastigotes under the same culture conditions.

Nuevo método de evaluación del efecto antiparasitario en modelos in vitro e in vivo, a través de la visualización de Trypanosoma cruzi-GFP / New method of evaluation of the antiparasitic effect models in in vitro and in vivo, through the viewing of Trypanosoma cruzi-GFP

Los tratamientos de primera línea para la enfermedad de Chagas generan importantes efectos adversos que acentúan el deterioro de la salud en los pacientes. La necesidad de generar fármacos alternativos ha permitido desarrollar estudios donde se emplean parásitos capaces de expresar una proteína fluorescente, a fin de correlacionar fluorescencia con población de protozoarios. En este sentido, ideamos una metodología para el seguimiento de la proliferación de Trypanosoma cruzi-GFP (Green Fluorescent Protein) en modelos in vitro e in vivo, empleando el equipo iBox- UVP. Los ensayos in vitro se iniciaron con una curva de calibración usando concentraciones entre 5x105 y 5x107 parásitos/mL. Seguidamente, con una curva de proliferación evidenciamos a través de la fluorescencia la susceptibilidad de los parásitos frente a la droga comercial Benznidazol (IC50= 5,3±1,3 μM). En el ensayo in vivo se corroboró cualitativamente el efecto quimioterapéutico del Benznidazol (100 mg/kg/día) en ratones C57BL/6, partiendo de un inóculo de 2,5x105 parásitos, haciendo captura de imágenes de fluorescencia cada dos días a partir del día 1, e inicio del tratamiento por vía oral el sexto día. El coeficiente de correlación cercano a 1 obtenido en la curva de calibración habla de un método de cuantificación parasitario sencillo y robusto; también los ensayos en modelos in vitro e in vivo permitieron monitorear el efecto dosis-dependiente de Benznidazol sobre T. cruzi-GFP. En síntesis, elaboramos una metodología novedosa, rápida, no invasiva y que sigue en tiempo real la respuesta quimioterapéutica de drogas anti-T. cruzi.

The first-line treatments for Chagas disease generate significant adverse effects that accentuate the health deterioration in patients. The need to generate alternative drugs has led to the development of studies in which parasites will express a fluorescent protein, and correlate this expression with protozoan population. We devised a methodology for monitoring the proliferation of Trypanosoma cruzi- GFP (Green Fluorescent Protein) in models in vitro and in vivo, using the equipment iBox-UVP. In vitro assays were initiated with a calibration curve using concentrations between 5x105 and 5x107 parasites/mL. Subsequently, with a proliferation curve, through fluorescence we determined the susceptibility of the parasites against the commercial drug Benznidazol (IC50= 5,3±1,3 μM). In vivo assays corroborated qualitatively the chemotherapeutic effect of Benznidazol (100 mg/kg/day) in C57BL/6 mice, starting from an inoculum of 2.5x105 parasites, making capture of fluorescence imaging every two days from day 1, and starting oral treatment on the sixth day. The correlation coefficient close to 1 obtained in the calibration curve showed that this quantification method of parasites is simple and robust; assays in vitro and in vivo allowed monitoring dose-dependent effects of Benznidazol agains T. cruzi-GFP. We have produced an innovative, rapid, non-invasive method that monitors in real time the chemotherapeutic response of anti-T. cruzi drugs.

Interaction of Trypanosoma evansi with the plasminogen-plasmin system.

Trypanosoma evansi is a widely-distributed haemoflagellated parasite of veterinary importance that infects a variety of mammals including horses, mules, camels, buffalos, cattle and deer. It is the causal agent of a trypanosomiasis known as Surra which produces epidemics of great economic importance in Africa, Asia and South America. The main pathology includes an enlarged spleen with hypertrophy of lymphoid follicles, congested lungs, neuronal degeneration and meningoencephalitis, where migration of the parasites from the blood to the tissues is essential. Most cells, including pathogenic cells, use diverse strategies for tissue invasion, such as the expression of surface receptors to bind plasminogen or plasmin. In this work, we show that T. evansi is able to bind plasminogen and plasmin on its surface. The analysis of this binding revealed a high affinity dissociation constant (Kd of 0.080±0.009µM) and 1×10(5) plasminogen binding sites per cell. Also a second population of receptors with a Kd of 0.255±0.070µM and 3.2×10(4) plasminogen binding sites per cell was determined. Several proteins with molecular masses between ∼18 and ∼70kDa are responsible for this binding. This parasite-plasminogen interaction may be important in the establishment of the infection in the vertebrate host, where the physiological concentration of available plasminogen is around 2µM.

Production of a conjugate between the rK346 antigen from Leishmania infantum and the horseradish peroxidase C for the detection of rK346 antibodies / Producción de un conjugado entre el antígeno rK346 de Leishmania infantum y la peroxidasa C de rábano picante para la detección de anticuerpos rK346

It was designed and characterized a reporter system to be captured by antibodies bound to ELISA plates. The system was designed with the rK346 from Leishmania infantum, a highly antigenic and specific protein. The rK346 was coupled to the horseradish peroxidase C (HRPc) from Armoracia rusticana using glutaraldehyde or sulfo-SMCC. Glutaraldehyde conjugation was performed in two steps. Separation of conjugates was carried out using a Sepharose S-200 in size exclusion chromatography (SEC); fractions were analyzed via HRPc activity and through ELISA plates sensitized with polyclonal anti-rK346 IgG purified from rabbit serum. A heterogeneous population of conjugates rK346-HRPc was obtained with molecular weights ranging between 109.7 ± 16.5 to 67.6 ± 10.1 kDa; with rK346-HRPc stoichiometries of 1:2; 2:1; 3:1; and 2:2. Conjugation using sulfo-SMCC was carried out first by introducing -SH groups onto the HRPc using the SATA reagent and the antigen was modified with sulfo-SMCC during 45 min. Separation and analysis of conjugates was performed similarly as with glutaraldehyde, resulting in a heterogeneous population of conjugates rK346-HRPc with molecular weights between 150.5 ± 22.6 to 80.0 ± 12.0 kDa; with rK346-HRPC stoichiometries of 2:1; 1:2; 2:2; and 1:3, with an increased conjugation efficiency in comparison with glutaraldehyde. This enables sulfo-SMCC to be used as a potential reagent for coupling the antigen to the HRPc, to design an economic, specific and easy method to apply as a reporter system, available to assess individuals at risk and/or at early and late stages of visceral leishmaniasis.

Se diseñó y caracterizó un sistema reportero para ser capturado por anticuerpos enlazados a placas de ELISA. El sistema fue diseñado con una proteína altamente antigénica y específica, la rK346 de Leishmania infantum. La rK346 fue acoplada a la peroxidasa C de rábano picante (HRPc) de Armoracia rusticana usando glutaraldehido o sulfo-SMCC. La conjugación con glutaraldehido fue realizada en dos pasos. La separación de los conjugados fue llevada a cabo a través de una cromatografía de exclusión molecular sefarosa S-200 (CES), las fracciones fueron analizadas midiendo la actividad HRPc y por placas ELISA sensibilizadas con inmunoglobulina G policlonal anti-rK346, purificada desde suero de conejo. Se obtuvo una población heterogénea de conjugados rK346-HRPc en un rango de pesos moleculares entre 109,7 ± 16,5 a 67,6 ± 10,1 kDa; con estequiometria rK346-HRPc de 1:2; 2:1; 3:1; y 2:2. La conjugación usando sulfo-SMCC se llevó a cabo primero introduciendo grupos -SH en la HRPc usando el reactivo SATA; el antígeno se modificó con sulfo-SMCC. La separación y el análisis de los conjugados se realizaron de forma similar que con el glutaraldehido, resultando en una población heterogénea de conjugados rK346-HRPc con un rango de pesos moleculares entre 150,5 ± 22,6 a 80,0 ± 12,0 kDa; con estequiometria rK346-HRPC de 2:1; 1:2; 2:2 y 1:3, y con una eficiencia de conjugación incrementada en comparación con glutaraldehido. De esta forma, se habilitó al sulfo-SMCC como un reactivo potencial para acoplar antígenos a la HRPc, como método para el diseño de un sistema reportero económico, especifico y fácil de aplicar, útil en la evaluación de individuos en riesgo y/o en estados tempranos o avanzados de leishmaniasis visceral.

Kinetic and molecular characterization of the pyruvate phosphate dikinase from Trypanosoma cruzi.

Trypanosoma cruzi, like other trypanosomatids analyzed so far, can use both glucose and amino acids as carbon and energy source. In these parasites, glycolysis is compartmentalized in glycosomes, authentic but specialized peroxisomes. The major part of this pathway, as well as a two-branched glycolytic auxiliary system, are present in these organelles. The first enzyme of one branch of this auxiliary system is the PPi-dependent pyruvate phosphate dikinase (PPDK) that converts phosphoenolpyruvate (PEP), inorganic pyrophosphate (PPi) and AMP into pyruvate, inorganic phosphate (Pi) and ATP, thus contributing to the ATP/ADP balance within the glycosomes. In this work we cloned, expressed and purified the T. cruzi PPDK. It kinetic parameters were determined, finding KM values for PEP, PPi and AMP of 320, 70 and 17 µM, respectively. Using molecular exclusion chromatography, two native forms of the enzyme were found with estimated molecular weights of 200 and 100 kDa, corresponding to a homodimer and monomer, respectively. It was established that T. cruzi PPDK's specific activity can be enhanced up to 2.6 times by the presence of ammonium in the assay mixture. During growth of epimastigotes in batch culture an apparent decrease in the specific activity of PPDK was observed. However, when its activity is normalized for the presence of ammonium in the medium, no significant modification of the enzyme activity per cell in time was found.

Trypanosoma evansi contains two auxiliary enzymes of glycolytic metabolism: Phosphoenolpyruvate carboxykinase and pyruvate phosphate dikinase.

Trypanosoma evansi is a monomorphic protist that can infect horses and other animal species of economic importance for man. Like the bloodstream form of the closely related species Trypanosoma brucei, T. evansi depends exclusively on glycolysis for its free-energy generation. In T. evansi as in other kinetoplastid organisms, the enzymes of the major part of the glycolytic pathway are present within organelles called glycosomes, which are authentic but specialized peroxisomes. Since T. evansi does not undergo stage-dependent differentiations, it occurs only as bloodstream forms, it has been assumed that the metabolic pattern of this parasite is identical to that of the bloodstream form of T. brucei. However, we report here the presence of two additional enzymes, phosphoenolpyruvate carboxykinase and PPi-dependent pyruvate phosphate dikinase in T. evansi glycosomes. Their colocalization with glycolytic enzymes within the glycosomes of this parasite has not been reported before. Both enzymes can make use of PEP for contributing to the production of ATP within the organelles. The activity of these enzymes in T. evansi glycosomes drastically changes the model assumed for the oxidation of glucose by this parasite.

Polymerase Chain Reaction Diagnosis of Leishmaniasis: A Species-Specific Approach.

Leishmaniasis is an infectious disease caused by protozoan parasites of the genus Leishmania which are transmitted to humans through bites of infected sand flies. The variable clinical manifestations and the evolution of the disease are determined by the infecting species. Recognition at a species level is of utmost importance since this greatly impacts therapy decision making as well as predicts outcome for the disease. This chapter describes the application of polymerase chain reaction (PCR) in the detection of Leishmania parasites across the disease spectrum, including protocols for sample collection and transportation, genomic material extraction, and target amplification methods with special emphasis on PCR amplification of the cytochrome b gene for Leishmania spp. species identification.

Detection of Trypanosoma cruzi by Polymerase Chain Reaction.

American Trypanosomiasis (Chagas disease) is an infectious disease caused by the hemoflagellate parasite Trypanosoma cruzi which is transmitted by reduviid bugs. T. cruzi infection occurs in a broad spectrum of reservoir animals throughout North, Central, and South America and usually evolves into an asymptomatic chronic clinical stage of the disease in which diagnosis is often challenging. This chapter describes the application of polymerase chain reaction (PCR) for the detection of Trypanosoma cruzi DNA including protocols for sample preparation, DNA extraction, and target amplification methods.

Production of a conjugate between the rK346 antigen from Leishmania infantum and the horseradish peroxidase C for the detection of rK346 antibodies.

It was designed and characterized a reporter system to be captured by an- tibodies bound to ELISA plates. The system was designed with the rK346 from Leishmania infantum, a highly antigenic and specific protein. The rK346 was coupled to the horseradish peroxidase C (HRPc) from Armoracia rusticana using glutaraldehyde or sulfo-SMCC. Gluta- raldehyde conjugation was performed in two steps. Separation of conjugates was carried out using a Sepharose S-200 in size exclusion chromatography (SEC); fractions were analyzed via HRPc activity and through ELISA plates sensitized with polyclonal anti-rK346 IgG puri- fied from rabbit serum. A heterogeneous population of conjugates rK346-HRPc was obtained with molecular weights ranging between 109.7 ± 16.5 to 67.6 ± 10.1 kDa; with rK346-HRPe stoichiometries of 1:2; 2:1; 3:1; and 2:2. Conjugation using sulfo-SMCC was carried out first by introducing -SH groups onto the HRPc using the SATA reagent and the antigen was modi- fied with sulfo-SMCC during 45 min. Separation and analysis of conjugates was performed similarly as with glutaraldehyde, resulting in a heterogeneous population of conjugates rK346- HRPc with molecular weights between 150.5 ± 22.6 to 80.0 ± 12.0 kDa; with rK346-HRPC stoichiometries of 2:1; 1:2; 2:2; and 1:3, with an increased conjugation efficiency in compari- son with glutaraldehyde. This enables sulfo-SMCC to be used as a potential reagent for cou- pling the antigen to the HRPc, to design an economic, specific and easy method to apply as a reporter system, available to assess individuals at risk and/or at early and late stages of visceral leishmaniasis.

ADENOSINE DEAMINASE ACTIVITY AND SERUM C-REACTIVE PROTEIN AS PROGNOSTIC MARKERS OF CHAGAS DISEASE SEVERITY.

Chagas disease is a public health problem worldwide. The availability of diagnostic tools to predict the development of chronic Chagas cardiomyopathy is crucial to reduce morbidity and mortality. Here we analyze the prognostic value of adenosine deaminase serum activity (ADA) and C-reactive protein serum levels (CRP) in chagasic individuals. One hundred and ten individuals, 28 healthy and 82 chagasic patients were divided according to disease severity in phase I (n = 35), II (n = 29), and III (n = 18). A complete medical history, 12-lead electrocardiogram, chest X-ray, and M-mode echocardiogram were performed on each individual. Diagnosis of Chagas disease was confirmed by ELISA and MABA using recombinant antigens; ADA was determined spectrophotometrically and CRP by ELISA. The results have shown that CRP and ADA increased linearly in relation to disease phase, CRP being significantly higher in phase III and ADA at all phases. Also, CRP and ADA were positively correlated with echocardiographic parameters of cardiac remodeling and with electrocardiographic abnormalities, and negatively with ejection fraction. CRP and ADA were higher in patients with cardiothoracic index ≥ 50%, while ADA was higher in patients with ventricular repolarization disturbances. Finally, CRP was positively correlated with ADA. In conclusion, ADA and CRP are prognostic markers of cardiac dysfunction and remodeling in Chagas disease.

[Entomological study of Trypanosoma cruzi vectors in the rural communities of Sucre state, Venezuela]. / Estudio entomológico de vectores transmisores de la infección por Trypanosoma cruzi en la población rural del estado Sucre, Venezuela.

INTRODUCTION: The ecological niche of Reduvidae vectors has been modified due to environmental changes and human encroachment into the rural areas. OBJECTIVE: This study evaluates the current entomological indices of triatomines responsible for Trypanosoma cruzi infection in Sucre State, Venezuela. MATERIALS AND METHODS: A cross-sectional and prospective study was conducted in 95 towns and 577 dwellings in the 15 municipalities of the state of Sucre, Venezuela, from August to November, 2008. Triatomine bugs were identified on the basis of morphological characteristics, and their feces examined for T. cruzi infection through direct microscopy. Positive slides were stained with Giemsa and parasites were identified by morphologic characterization. RESULTS: The entomological indices expressing the highest values were dispersion (16.67%) and household colonization (33.33%). The triatomine species captured were: Rhodnius prolixus , Rhodnius main intradomiciliary vector. CONCLUSIONS: Despite the low index of vector infection (1.72%), the existence of species with domiciliary and peridomiciliary reproductive success ensures the persistence of the epidemiological chain both for the disease and the parasite.