5 resultados para protein content

em Universidad del Rosario, Colombia


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Background: Rhoptries are specialized organelles from parasites belonging to the phylum Apicomplexa; they secrete their protein content during invasion of host target cells and are sorted into discrete subcompartments within rhoptry neck or bulb. This distribution is associated with these proteins’ role in tight junction (TJ) and parasitophorous vacuole (PV) formation, respectively. Methods: Plasmodium falciparum RON2 amino acid sequence was used as bait for screening the codifying gene for the homologous protein in the Plasmodium vivax genome. Gene synteny, as well as identity and similarity values, were determined for ron2 and its flanking genes among P. falciparum, P. vivax and other malarial parasite genomes available at PlasmoDB and Sanger Institute databases. Pvron2 gene transcription was determined by RT-PCR of cDNA obtained from the P. vivax VCG-1 strain. Protein expression and localization were assessed by Western blot and immunofluorescence using polyclonal anti-PvRON2 antibodies. Co-localization was confirmed using antibodies directed towards specific microneme and rhoptry neck proteins. Results and discussion: The first P. vivax rhoptry neck protein (named here PvRON2) has been identified in this study. PvRON2 is a 2,204 residue-long protein encoded by a single 6,615 bp exon containing a hydrophobic signal sequence towards the amino-terminus, a transmembrane domain towards the carboxy-terminus and two coiled coil a-helical motifs; these are characteristic features of several previously described vaccine candidates against malaria. This protein also contains two tandem repeats within the interspecies variable sequence possibly involved in evading a host’s immune system. PvRON2 is expressed in late schizonts and localized in rhoptry necks similar to what has been reported for PfRON2, which suggests its participation during target cell invasion. Conclusions: The identification and partial characterization of the first P. vivax rhoptry neck protein are described in the present study. This protein is homologous to PfRON2 which has previously been shown to be associated with PfAMA-1, suggesting a similar role for PvRON2.

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Introducción: La evaluación de tecnologías en salud aplicadas a la selección de un módulo de proteína para uso hospitalario, tiene como finalidad servir de apoyo en la elección de productos costo efectivos y seguros, con el fin de favorecer la toma de decisiones a los diferentes agentes que participan en la elección de alternativas terapéuticas, recomendadas en pacientes con necesidades elevadas de proteínas, como es el caso de la presente investigación. Objetivo: Aplicar un método matemático - multicriterio que permita evaluar los módulos de proteína disponibles en el mercado para la terapia nutricional institucional. Métodos: Se establecieron dos fases, una revisión de la literatura para establecer y priorizar los criterios de evaluación técnica de las diferentes ofertas de módulos de proteína, y dos se realizó una aplicación de un modelo matemático con el fin de considerar el modulo proteico para uso dentro de las instituciones hospitalarias, el cual consistió en la asignación de un valor a cada una de las variables mediante una escala diferencial semántica establecida, que permitieron calcular el peso porcentual de cada una de las variables, cuya sumatoria arrojo la calificación porcentual de cada alternativa. Resultados: Respecto a la búsqueda de criterios de evaluación técnica para las diferentes ofertas de módulos de proteína, en la literatura se identificaron las siguientes variables para evaluación, la naturaleza o equivalencia, condiciones de administración y uso, seguridad, y eficacia. La naturaleza se evaluó mediante la calificación del cómputo químico de aminoácidos corregido por digestibilidad proteica (PDCAAS) con un peso en la evaluación del 39.05%, en referencia a las condiciones de administración y uso se tuvo en cuenta factores incluidos en los sistemas de distribución por dosis unitaria con un peso del 27.61%, la eficacia fue definida por la tasa de eficiencia proteica (PER) la cual impacta el 19.53% de la calificación y finalmente, el criterio de seguridad con un 13.81% referente al empaque y etiquetado. Conclusiones: Al realizar la evaluación de cuatro alternativas de módulos de proteína, ofertadas por las diferentes casas farmacéuticas, la mayor puntuación correspondiente a las alternativas con una calificación superior al 90%, la obtuvieron dos alternativas de módulos de proteína para uso hospitalario, las cuales contienen proteínas del suero (“Whey”) y aminoácidos en combinaciones.

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La asfixia perinatal es la principal causa de muerte en la primera semana de vida la nivel mundial, los niños que sufren esta complicación y sobreviven pueden presentar trastornos neurológicos de diferente nivel de compromiso que inciden en su desarrollo personal y social. Las cifras de muerte por este problema de salud han disminuido de manera importante, sin embargo en el reporte de la Organización Mundial de Salud (OPS) del 2010, la asfixia perinatal es causa del 29% de muertes infantiles en los países de América Latina y el Caribe 2. Es necesario conocer además la extensión del daño neurológico que sufren estos niños, con este fin se desarrolló un estudio piloto en el Hospital Universitario Mayor Mederi de Bogotá, en el cual se determinó la concentración de un marcador metabólico de daño cerebral, la proteína S100B en suero de 60 recién nacidos sanos, con el objetivo de analizar la asociación del mismo con el peso al nacer, la edad gestacional y el diagnóstico. Los resultados no mostraron diferencias significativas entre este marcador y las variables analizadas que puede asociarse al pequeño número de pacientes, sin embargo han sentado las bases para el desarrollo de un estudio que incluya varios hospitales de Bogotá y sobre todo la determinación del mismo en recién nacidos con diagnóstico de hipoxia en el período perinatal, lo cual aportará información del grado de la alteración que puedan tener a nivel cerebral y contribuya al mejor manejo evolutivo con la aplicación de medidas de intervención en estadios tempranos de la vida.

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Background: The tight junction (TJ) is one of the most important structures established during merozoite invasion of host cells and a large amount of proteins stored in Toxoplasma and Plasmodium parasites’ apical organelles are involved in forming the TJ. Plasmodium falciparum and Toxoplasma gondii apical membrane antigen 1 (AMA-1) and rhoptry neck proteins (RONs) are the two main TJ components. It has been shown that RON4 plays an essential role during merozoite and sporozoite invasion to target cells. This study has focused on characterizing a novel Plasmodium vivax rhoptry protein, RON4, which is homologous to PfRON4 and PkRON4. Methods: The ron4 gene was re-annotated in the P. vivax genome using various bioinformatics tools and taking PfRON4 and PkRON4 amino acid sequences as templates. Gene synteny, as well as identity and similarity values between open reading frames (ORFs) belonging to the three species were assessed. The gene transcription of pvron4, and the expression and localization of the encoded protein were also determined in the VCG-1 strain by molecular and immunological studies. Nucleotide and amino acid sequences obtained for pvron4 in VCG-1 were compared to those from strains coming from different geographical areas. Results: PvRON4 is a 733 amino acid long protein, which is encoded by three exons, having similar transcription and translation patterns to those reported for its homologue, PfRON4. Sequencing PvRON4 from the VCG-1 strain and comparing it to P. vivax strains from different geographical locations has shown two conserved regions separated by a low complexity variable region, possibly acting as a “smokescreen”. PvRON4 contains a predicted signal sequence, a coiled-coil α-helical motif, two tandem repeats and six conserved cysteines towards the carboxyterminus and is a soluble protein lacking predicted transmembranal domains or a GPI anchor. Indirect immunofluorescence assays have shown that PvRON4 is expressed at the apical end of schizonts and co-localizes at the rhoptry neck with PvRON2.

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Background: Plasmodium vivax malaria remains a major health problem in tropical and sub-tropical regions worldwide. Several rhoptry proteins which are important for interaction with and/or invasion of red blood cells, such as PfRONs, Pf92, Pf38, Pf12 and Pf34, have been described during the last few years and are being considered as potential anti-malarial vaccine candidates. This study describes the identification and characterization of the P. vivax rhoptry neck protein 1 (PvRON1) and examine its antigenicity in natural P. vivax infections. Methods: The PvRON1 encoding gene, which is homologous to that encoding the P. falciparum apical sushi protein (ASP) according to the plasmoDB database, was selected as our study target. The pvron1 gene transcription was evaluated by RT-PCR using RNA obtained from the P. vivax VCG-1 strain. Two peptides derived from the deduced P. vivax Sal-I PvRON1 sequence were synthesized and inoculated in rabbits for obtaining anti-PvRON1 antibodies which were used to confirm the protein expression in VCG-1 strain schizonts along with its association with detergent-resistant microdomains (DRMs) by Western blot, and its localization by immunofluorescence assays. The antigenicity of the PvRON1 protein was assessed using human sera from individuals previously exposed to P. vivax malaria by ELISA. Results: In the P. vivax VCG-1 strain, RON1 is a 764 amino acid-long protein. In silico analysis has revealed that PvRON1 shares essential characteristics with different antigens involved in invasion, such as the presence of a secretory signal, a GPI-anchor sequence and a putative sushi domain. The PvRON1 protein is expressed in parasite's schizont stage, localized in rhoptry necks and it is associated with DRMs. Recombinant protein recognition by human sera indicates that this antigen can trigger an immune response during a natural infection with P. vivax. Conclusions: This study shows the identification and characterization of the P. vivax rhoptry neck protein 1 in the VCG-1 strain. Taking into account that PvRON1 shares several important characteristics with other Plasmodium antigens that play a functional role during RBC invasion and, as shown here, it is antigenic, it could be considered as a good vaccine candidate. Further studies aimed at assessing its immunogenicity and protection-inducing ability in the Aotus monkey model are thus recommended.