4 resultados para Antigen-presenting

em Universidad del Rosario, Colombia


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La utilización de la dexametasona está asociada con la supresión de la respuesta inmune en pacientes con cáncer en estadíos III y IV, debido posiblemente a una acción inhibidora sobre las células dendríticas presentadoras de antígenos. Bajo la acción de la dexametasona, las células dendríticas secretan niveles muy bajos de IL-10, lo que a su vez disminuye, tanto la respuesta mediada por los linfocitos Th2 como la inducida por las células NK. La IL-10 tiene pues un efecto dual, si se tiene en cuenta que, en la mayoría de los modelos experimentales, aumenta en pacientes tratados con glucocorticoides tipo dexametasona e inhibe la respuesta mediada por los linfocitos Th1, con una consecuente exacerbación del proceso. Metodología: Se utilizó la prueba de ELISA para determinar IL-10 en pacientes con diferentes tipos de tumor en estadíos III y IV, sometidos a quimioterapia y tratados con dexametasona-metoclopramida como antiemético y en un grupo control de personas sanas. Resultados: En este modelo experimental, todos los pacientes con cáncer en estadíos III y IV presentaron niveles séricos de IL-10 muy bajos, comparados con los del grupo control. Además, IL-10 no aumentó su concentración en los pacientes tratados con dexametasona. Conclusión: IL-10 no provoca anergia de las células dendríticas ni disminución de la respuesta citotóxica mediada por Th1. Por tanto, se sospecha que es la dexametasona y no la IL-10 la responsable de la supresión en la respuesta inmune en pacientes con cáncer en estadíos III y IV, lo que podrá ser demostrado en posteriores estudios que complementen los resultados obtenidos.

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Las reacciones alérgicas a medicamentos cutáneas severas (RAM) como el Síndrome Stevens Johnson (SJS) y la Necrólisis Epidérmica Tóxica (NET),caracterizadas por exantema, erosión de la piel y las membranas mucosas, flictenas, desprendimiento de la piel secundario a la muerte de queratinocitos y compromiso ocular. Son infrecuentes en la población pero con elevada morbi-mortalidad, se presentan luego de la administración de diferentes fármacos. En Asia se ha asociado el alelo HLA-B*15:02 como marcador genético para SJS. En Colombia no hay datos de la incidencia de estas RAM, ni de la relación con medicamentos específicos o potenciales y tampoco estudios de aproximación genómica de genes de susceptibilidad.

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Background Plasmodium vivax continues to be the most widely distributed malarial parasite species in tropical and sub-tropical areas, causing high morbidity indices around the world. Better understanding of the proteins used by the parasite during the invasion of red blood cells is required to obtain an effective vaccine against this disease. This study describes characterizing the P. vivax asparagine-rich protein (PvARP) and examines its antigenicity in natural infection. Methods The target gene in the study was selected according to a previous in silico analysis using profile hidden Markov models which identified P. vivax proteins that play a possible role in invasion. Transcription of the arp gene in the P. vivax VCG-1 strain was here evaluated by RT-PCR. Specific human antibodies against PvARP were used to confirm protein expression by Western blot as well as its subcellular localization by immunofluorescence. Recognition of recombinant PvARP by sera from P. vivax-infected individuals was evaluated by ELISA. Results VCG-1 strain PvARP is a 281-residue-long molecule, which is encoded by a single exon and has an N-terminal secretion signal, as well as a tandem repeat region. This protein is expressed in mature schizonts and is located on the surface of merozoites, having an apparent accumulation towards their apical pole. Sera from P. vivax-infected patients recognized the recombinant, thereby suggesting that this protein is targeted by the immune response during infection.

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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.