Analysis of hematologic and serum chemistry values of Spheniscus magellanicus with molecular detection of avian malarial parasites (Plasmodium spp) / Análise dos valores hematológicos e bioquímicos de Spheniscus magellanicus com detecção molecular de parasitos maláricos aviários (Plasmodium spp)

Magellanic penguins (Spheniscus magellanicus) routinely migrate from their breeding colonies to Southern Brazil often contracting diseases during this migration, notably avian malaria, which has been already reported in Brazil and throughout the world. Detection of Plasmodium spp. in blood smears is the routine diagnostic method of avian malaria, however it has a low sensitivity rate when compared to molecular methods...

O pinguim-de-Magalhães (Spheniscus magellanicus) migra das suas colônias reprodutivas até o extremo sul do Brasil. Esses pinguins frequentemente são acometidos por doenças, notavelmente a malária aviária, que é relatada no Brasil e no mundo. A detecção de Plasmodium spp. no esfregaço sanguíneo é o método de rotina mas apresenta baixa sensibilidade quando comparado aos métodos moleculares...

Metabolomics in the fight against malaria

Metabolomics uses high-resolution mass spectrometry to provide a chemical fingerprint of thousands of metabolites present in cells, tissues or body fluids. Such metabolic phenotyping has been successfully used to study various biologic processes and disease states. High-resolution metabolomics can shed new light on the intricacies of host-parasite interactions in each stage of the Plasmodium life cycle and the downstream ramifications on the host’s metabolism, pathogenesis and disease. Such data can become integrated with other large datasets generated using top-down systems biology approaches and be utilised by computational biologists to develop and enhance models of malaria pathogenesis relevant for identifying new drug targets or intervention strategies. Here, we focus on the promise of metabolomics to complement systems biology approaches in the quest for novel interventions in the fight against malaria. We introduce the Malaria Host-Pathogen Interaction Center (MaHPIC), a new systems biology research coalition. A primary goal of the MaHPIC is to generate systems biology datasets relating to human and non-human primate (NHP) malaria parasites and their hosts making these openly available from an online relational database. Metabolomic data from NHP infections and clinical malaria infections from around the world will comprise a unique global resource.

¿La hemozoína, presente y futuro? / ¿Hemozoin present and future

La malaria es una enfermedad causada por parásitos del género Plasmodium estos parásitos tienen un ciclo intraeritocítico en el hospedador vertevrado. En el glóbulo rojo, el parásito ingiere la hemoglobina, obteniendo aminácidos y formando hemozoína. La hemozoína es un un material microcristalino oscuro, de color marrón amarillento, insoluble en agua, no tóxico, producido en la vacuola parasitófora del Plasmodium; este compuesto producido por el Plasmodium carece de la toxicidad que tiene el grupo hemo para el parásito. Asimismo se ha evidenciado que la hemozoína es una sustancia inmuno moduladora que tiene diversos efectos, como mediar la activación y migración de neutrófilos, incrementar la producción de óxido nítrico, inducir la activación de mataloproteínas 9, inducir la secreción de diferentes mediadores proinflamatorios, alterar las funciones de los monocitos y macrófagos humanos, tales como el estallido oxidativo, eliminación de bacterias, presentación de antígenos y la habilidad de diferenciarse a células dendríticas funcionales; por lo que la hemozína tiene efectos duales, tanto activadores como supresores de la respuesta inmune. Asimismo, la hemozoína es unblanco terapéutico potente, ya que los fármacos que inhiban su formación provocan toxicidad al parasíto e incluso la muerte del mismo.

Malaria is a disease caused by parasites of the genus Plasmodium. These parasites have intraerythrocytic cycle in the vertbrate host. In the red cell, the parasite ingests hemoglobin, obtaining amino acids and formin hemozoin. The microcrystaline material hemozoin is a dark, yellowish brown, insoluble in water, nontoxic, produced in the Plasmodium parasitophorous vacuole, this compound produced by Plasmodiun lacks the toxicity that has heme to the parasite. It has also been shown that hemozoin is an immune modulating substance that has different ffects, mediating the neutrophils activation and migration, increased nitric oxide production, induce activation of metallproteinase-9, induce the secretion of various proinflammatory mediators, alter the funcions of human monocytes and macrophages such as oxidative burst, removing bacteria, antigen presentation and the ability to differentiate into functional dendritic cells, so the hemozoin has dual effects, both activators and suppressors of the immune response. Also, the hemozoin is a potent therapeutic target, since rugs that inhibit their formation causes toxicity to the parasite and even death itself.