74 resultados para APICOMPLEXA


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Indirect ELISA and IFAT have been reported to be more sensitive and specific than agglutination tests. However, MAT is cheaper, easier than the others and does not need special equipment. The purpose of this study was to compare an enzyme linked immunosorbent assay using crude rhoptries of Toxoplasma gondii as coating wells (r-ELISA) with indirect fluorescence antibody test (IFAT) and modified agglutination test (MAT) to detect anti-T. gondii antibodies in sera of experimentally infected pigs. Ten mixed breed pigs between 6.5 and 7.5 weeks old were used. All pigs were negative for the presence of T. gondii antibodies by IFAT (titre < 16), r-ELISA (OD < 0.295) and MAT (titre < 16). Animals received 7 × 107 viable tachyzoites of the RH strain by intramuscular (IM) route at day 0. Serum samples were collected at days -6, 0, 7, 14, 21, 28, 35, 42, 50, and 57. IFAT detected anti-T. gondii antibodies earlier than r-ELISA and MAT. The average of antibody levels was higher at day 35 in IFAT (Log10 = 2.9) and in MAT (Log10 = 3.5), and at day 42 in r-ELISA (OD = 0.797). The antibody levels remained high through the 57th day after inoculation in MAT, and there was a decrease tendency in r-ELISA and IFAT. IFAT was used as gold standard and r-ELISA demonstrated a higher prevalence (73.3%), sensitivity (94.3%), negative predictive value (83.3%), and accuracy (95.6%) than MAT. Kappa agreements among tests were calculated, and the best results were shown by r-ELISA × IFAT (κ = 0.88, p < 0.001). Cross-reaction with Sarcocystis miescheriana was investigated in r-ELISA and OD mean was 0.163 ± 0.035 (n = 65). Additionally, none of the animals inoculated with Sarcocystis reacted positively in r-ELISA. Our results indicate that r-ELISA could be a good method for serological detection of T. gondii infection in pigs. © 2005 Elsevier Inc. All rights reserved.

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In the present study, we evaluated three techniques, mouse bioassay, histopathology, and polymerase chain reaction (PCR) to detect Toxoplasma gondii infection in tissues from experimentally infected pigs. Twelve mixed breed pigs, seronegative for T. gondii using an indirect immunofluorescent antibody test (IFAT), were used. Ten pigs were infected with 4 × 104 VEG strain oocysts, and two were maintained as uninfected controls. Animals were killed 60 days pos infection. Muscle (heart, tongue, diaphragm, and masseter) and brain samples were collected to investigate the presence of T. gondii tissue cysts by the different assay methods. For the bioassay, samples of brain (50 g) and pool of muscle samples (12.5 g of tongue, masseter, diaphragm, and heart) were used. PCR was performed using Tox4 and Tox5 primers which amplified a 529 bp fragment. The DNA extraction and PCR were performed three times, and all tissue samples were tested individually (brain, tongue, masseter, diaphragm, and heart). For histopathology, fragments of tissues were fixed in 10% of buffered formal saline and stained with HE. Histopathological results were all negative. PCR showed 25/150 (16.6%) positive samples, being 17/120 (14.1%) and 8/30 (26.6%) from muscle, and brain tissues, respectively. Tissue cysts of T. gondii were identified by mouse bioassay in 54/98 (55.1%) samples, being 31/48 (64.6%) from muscle samples, and 23/50 (46.0%) from brain samples. Toxoplasma gondii isolation in muscle samples by mouse bioassay was higher than in PCR (P < 0.01). Results indicate that DNA from pig tissues interfered with 529-bp-PCR sensitivity, and mouse bioassay was better than PCR in detecting T. gondii in tissues from pigs. © 2006 Elsevier Inc. All rights reserved.

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Rabbits were experimentally infected with sporulated Eimeria stiedai oocysts. A total of 50 white adult rabbits, New Zealand race, were distributed into two groups: Group A was infected with 1x10 4 sporulated Eimeria stiedai oocysts, while group B was inoculated with distilled water as a control. The animals generally displayed increased levels of total protein, globulin, total cholesterol, LDL-c and triacylglycerols; however, total levels of liver lipids and HDL-c decreased, and plasma glucose levels varied during the experimental period. In sum, Eimeria stiedai infection of rabbits caused a considerable number of changes in the metabolism of lipids, proteins and glucose, which is likely due to direct effects of liver cirrhosis on normal body function.

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Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP)

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Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES)

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O mercado de peixes ornamentais vem crescendo gradativamente nos últimos anos e com a crescente pressão exercida nos bancos naturais de recursos pesqueiros, busca-se alternativas para a continuidade da produção de pescado, seja através da aqüicultura ou da busca por novos recursos pouco ou até mesmo inexplorado, como e o caso do cara-pix8una, Aequidens plagiozonatus. A partir desse conhecimento é importante a realização de estudos que caracterizem o perfil parasitológico dessas espécies de peixes a fim de verificar e controlar a disseminação de parasitas que geram desequilíbrio nos ecossistemas aquáticos. Por isso, o objetivo deste estudo foi Descrever morfologicamente os microparasitas (microsporídios, mixosporídios e coccidios) encontrados em A. plagiozonatus provenientes do rio Peixe-Boi /PA, através do levantamento de ações parasitárias causadas por microparasitas (microsporídios, myxosporídios e coccidios) com ênfase na morfologia destes. Para isso, foram realizadas 5 coletas, totalizando 100 espécimes, sendo estes necropsiados e tendo seus órgãos analisados. Dos órgãos parasitados foram retirados fragmentos, fixados e processados para microscopia de luz. Foram calculados o Indice hepatossomático dos exemplares e a prevalência parasitaria para cada grupo de parasitas analisados, enfatizando os microparasitas. A partir das observações feitas foram encontrados os 3 filos parasitas: Myxozoa, Microsporidia e Apicomplexa. A prevalência dos microsporídios nos exemplares estudados foi de 100%, dos mixosporidios 18% e dos Apicomplexa de 45%. Nossos dados representam uma importante contribuição para o estudo ictiossanitário em A. plagiozonatus na região, uma vez que qualquer atividade que envolva a extração de recursos naturais deve ser gerenciada por meio de medidas de ordenamento e manejo, para permitir o equilíbrio dos ecossistemas, promovendo o uso sustentável de seus recursos e garantindo a preservação do sistema, a fim de que se possa evitar a propagação e transferência de doenças por meio de animais aquáticos.

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Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES)

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Pós-graduação em Medicina Veterinária - FMVZ

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Parasitos do gênero Cryptosporidium pertencem ao filo Apicomplexa, com localização intracelular e extracitoplasmática obrigatória e se desenvolvem principalmente na superfície das células epiteliais de hospedeiros vertebrados. O cão, possível fonte de infecção humana, elimina oocistos fecais deste protozoário com grande potencial zoonótico no ambiente. O presente estudo teve como objetivo caracterizar molecularmente Cryptosporidium spp. obtidos de amostras fecais de filhotes caninos (naturalmente infectados). Um total de 200 cães foram examinados, sendo 100 machos e 100 fêmeas, 111 de padrão racial determinado e 89 sem raça definida (SRD). Destes, 81 animais, 43, 48 e 28 tinham até dois, de dois a três; de três a seis e de seis a doze meses, respectivamente. Conforme sua origem, os animais eram provenientes dos Municípios de Araçatuba e Votuporanga, SP, sendo que 126 eram de domicílios; 11 mantidos em Centros de Zoonoses; 50 de Pet Shops; 12 de um criatório e uma (0,5%) era errante e havia sido adotada. A ocorrência de Cryptosporidium spp. foi de 1% (2/200). Ambas eram fêmeas, SRD, com idade entre 60 e 90 dias. A de origem residencial apresentava fezes pastosas com coloração castanho claro e a outra, resgatada do CCZ, material fecal escurecido de consistência liquefeita. O sequenciamento dos fragmentos amplificados confirmou a presença de Cryptosporidium canis. A partir dos resultados obtidos neste trabalho, é possível concluir que 2% dos caninos analisados eram hospedeiros de C. canis

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Coccidiosis of the domestic fowl is a worldwide disease caused by seven species of protozoan parasites of the genus Eimeria. The genome of the model species, Eimeria tenella, presents a complexity of 55-60 MB distributed in 14 chromosomes. Relatively few studies have been undertaken to unravel the complexity of the transcriptome of Eimeria parasites. We report here the generation of more than 45,000 open reading frame expressed sequence tag (ORESTES) cDNA reads of E. tenella, Eimeria maxima and Eimeria acervulina, covering several developmental stages: unsporulated oocysts, sporoblastic oocysts, sporulated oocysts, sporozoites and second generation merozoites. All reads were assembled to constitute gene indices and submitted to a comprehensive functional annotation pipeline. In the case of E. tenella, we also incorporated publicly available ESTs to generate an integrated body of information. Orthology analyses have identified genes conserved across different apicomplexan parasites, as well as genes restricted to the genus Eimeria. Digital expression profiles obtained from ORESTES/EST countings, submitted to clustering analyses, revealed a high conservation pattern across the three Eimeria spp. Distance trees showed that unsporulated and sporoblastic oocysts constitute a distinct clade in all species, with sporulated oocysts forming a more external branch. This latter stage also shows a close relationship with sporozoites, whereas first and second generation merozoites are more closely related to each other than to sporozoites. The profiles were unambiguously associated with the distinct developmental stages and strongly correlated with the order of the stages in the parasite life cycle. Finally, we present The Eimeria Transcript Database (http://www.coccidia.icb.usp.br/eimeriatdb), a website that provides open access to all sequencing data, annotation and comparative analysis. We expect this repository to represent a useful resource to the Eimeria scientific community, helping to define potential candidates for the development of new strategies to control coccidiosis of the domestic fowl. (C) 2011 Australian Society for Parasitology Inc. Published by Elsevier Ltd. All rights reserved.

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Different types of shed vesicles as, for example, exosomes, plasma-membrane-derived vesicles or microparticles, are the focus of intense research in view of their potential role in cell cell communication and under the perspective that they might be good tools for immunotherapy, vaccination or diagnostic purposes. This review discusses ways employed by pathogenic trypanosomatids to interact with the host by shedding vesicles that contain molecules important for the establishment of infection, as opposed to previous beliefs considering them as a waste of cellular metabolism. Trypanosomatids are compared with Apicomplexa, which circulate parasite antigens bound to vesicles shed by host cells. The knowledge of the origin and chemical composition of these different vesicles might lead to the understanding of the mechanisms that determine their biological function. (C) 2012 Institut Pasteur. Published by Elsevier Masson SAS. All rights reserved.

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Toxosplasma gondii is the model parasite of the phylum Apicomplexa, which contains numerous obligate intracellular parasites of medical and veterinary importance, including Eimeria, Sarcocystis, Cryptosporidium, Cyclospora, and Plasmodium species. Members of this phylum actively enter host cells by a multistep process with the help of microneme protein (MIC) complexes that play important roles in motility, host cell attachment, moving junction formation, and invasion. T. gondii (Tg)MIC1-4-6 complex is the most extensively investigated microneme complex, which contributes to host cell recognition and attachment via the action of TgMIC1, a sialic acid-binding adhesin. Here, we report the structure of TgMIC4 and reveal its carbohydrate-binding specificity to a variety of galactose-containing carbohydrate ligands. The lectin is composed of six apple domains in which the fifth domain displays a potent galactose-binding activity, and which is cleaved from the complex during parasite invasion. We propose that galactose recognition by TgMIC4 may compromise host protection from galectin-mediated activation of the host immune system.

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Abstract Background Plasmodium vivax is the most widely distributed human malaria, responsible for 70–80 million clinical cases each year and large socio-economical burdens for countries such as Brazil where it is the most prevalent species. Unfortunately, due to the impossibility of growing this parasite in continuous in vitro culture, research on P. vivax remains largely neglected. Methods A pilot survey of expressed sequence tags (ESTs) from the asexual blood stages of P. vivax was performed. To do so, 1,184 clones from a cDNA library constructed with parasites obtained from 10 different human patients in the Brazilian Amazon were sequenced. Sequences were automatedly processed to remove contaminants and low quality reads. A total of 806 sequences with an average length of 586 bp met such criteria and their clustering revealed 666 distinct events. The consensus sequence of each cluster and the unique sequences of the singlets were used in similarity searches against different databases that included P. vivax, Plasmodium falciparum, Plasmodium yoelii, Plasmodium knowlesi, Apicomplexa and the GenBank non-redundant database. An E-value of <10-30 was used to define a significant database match. ESTs were manually assigned a gene ontology (GO) terminology Results A total of 769 ESTs could be assigned a putative identity based upon sequence similarity to known proteins in GenBank. Moreover, 292 ESTs were annotated and a GO terminology was assigned to 164 of them. Conclusion These are the first ESTs reported for P. vivax and, as such, they represent a valuable resource to assist in the annotation of the P. vivax genome currently being sequenced. Moreover, since the GC-content of the P. vivax genome is strikingly different from that of P. falciparum, these ESTs will help in the validation of gene predictions for P. vivax and to create a gene index of this malaria parasite.

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Cryptosporidium parvum ist ein intrazellulärer protozoischer Darmparasit (Apikomplexa), der weltweit zu den bedeutendsten Erregern von Diarrhöen beim Menschen und einer Reihe von Nutztieren zählt. Vor allem immunkompromittierte Personen wie zum Beispiel AIDS-Patienten erleiden schwere, chronische bis lebensbedrohende Erkrankungen. Da nach wie vor keine effektive Therapie gegen eine Kryptosporidiose in Form eines spezifisch wirkenden Chemotherapeutikums oder einer Vakzine existiert, ist es notwendig, die Immunantwort des Wirtes gegen den Parasiten und dessen Bindung, Invasion und die intrazelluläre Entwicklung in den Epithelzellen eingehend zu studieren, um neue Ansatzpunkte zu entwickeln. Wohingegen Menschen zeitlebens suszeptibel für eine Infektion mit C. parvum sind, entwickeln Mäuse eine natürliche Resistenz und können als adulte Tiere nicht mehr infiziert werden. Daher sind Mausmodelle der Kryptosporidiose auf neonatale oder immunsupprimierte und immundefiziente adulte Mäuse beschränkt. Bei der Überwindung einer C. parvum-Infektion sind Effektoren der natürlichen und adaptiven Immunität beteiligt. Die zentrale Rolle spielen CD4+-T-Zellen, sowie Interferon-gamma und Interleukin-12. Im Rahmen dieser Arbeit wurden Infektionen in IFN-gamma (GKO)- und IL-12 p40 (IL12KO)-Knockout-Mäusen (C57BL/6) etabliert, für die bereits gezeigt wurde, dass sie eine Suszeptibilität gegenüber einer Erstinfektion besitzen. Erstmals wurden die beiden Infektionsmodelle parallel unter denselben Bedingungen analysiert, um Rückschlüsse auf die Funktion und die Bedeutung der beiden Th1-Zytokine IFN-gamma und IL-12 bei der Auseinandersetzung mit dem Parasiten und der Überwindung einer Infektion ziehen zu können. Es wurden deutliche Unterschiede im Infektionsverlauf, bei der Höhe und Dauer der Parasitenausscheidung und der induzierten systemischen und mukosalen Antikörperantwort beobachtet. Zum ersten Mal konnte gezeigt werden, dass neben IL12KO auch GKO in der Lage sind, eine erste Infektion zu überwinden und eine Resistenz gegenüber einer erneuten Konfrontation mit dem Parasiten zu entwickeln. Alle Ergebnisse deuten darauf hin, dass die Etablierung einer protektiven Immunität gegen eine Kryptosporidiose generell unabhängig von der Anwesenheit der Zytokine IFN-gamma und IL-12 ist, der Verlust von IFN-gamma jedoch schwerer wiegt. Bei GKO-Mäusen persistierte der Parasit in Form einer niedriggradigen chronischen Infektion. Die beiden Infektionsmodelle stellten sich als ideales System für die Etablierung einer effektiven Immunisierungsstrategie heraus. Intranasale Immunisierungen, welche neben einer systemischen auch eine mukosale Immunantwort induzieren können, schienen einen richtigen Ansatz darzustellen. Intraperitoneale und subkutane Immunisierungen führten zwar zur Ausbildung einer starken spezifischen IgG-Antwort im Serum, diese war jedoch nicht in der Lage, einen Schutz vor einer Infektion zu vermitteln. Neben den in vivo Untersuchungen wurde des Weiteren auch die intrazelluläre Entwicklung von C. parvum in einem in vitro Kultursystem verfolgt. Zum ersten Mal wurde die Genexpression von vier Oberflächenproteinen der invasiven Zoitenstadien und eines Oozystenwandproteins parallel durch RT-PCR analysiert. Es konnte gezeigt werden, dass alle untersuchten Gene während der intrazellulären Entwicklung differentiell exprimiert werden, was eine unterschiedliche Funktion der Proteine während des Entwicklungszyklus nahe legt. Das Expressionsmuster der verschiedenen Gene charakterisiert bestimmte Abschnitte innerhalb des Entwicklungszyklus. Dabei wurden Marker für die Invasion (CP17) sowie für die asexuelle (GP900) und sexuelle Replikation (COWP) identifiziert.

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Parasiten der Apicomplexa umfassen sowohl humanpathogene, als auch tierpathogene Protozoen. Beispiele für wichtige Vertreter human- und tierpathogener Parasiten sind Plasmodium falciparum und Eimeria tenella. E. tenella verursacht die Kokzidiose des Hühnchens, eine Darmerkrankung die weltweit für Verluste in einer geschätzten Höhe von bis zu 3 Milliarden US$ verantwortlich zeichnet. Eine prophylaktische Vakzinierung gegen diese Krankheit ist ökonomisch meist ineffizient, und eine Behandlung mit Kokzidiostatika wird durch häufige Resistenzbildung gegen bekannte Wirkstoffe erschwert. Diese Situation erfordert die Entwicklung neuer kostengünstiger Alternativen. Geeignete Zielproteine für die Entwicklung neuartiger Arzneistoffe zur Behandlung der Kokzidiose sind die Zyklin-abhängigen Kinasen (CDKs), zu denen auch die CDK-related Kinase 2 (EtCRK2) aus E. tenella gehört. Diese Proteine sind maßgeblich an der Regulation des Zellzyklus beteiligt. Durch chemische Validierung mit dem CDK Inhibitor Flavopiridol konnte nachgewiesen werden, dass ein Funktionsverlust von CDKs in E. tenella die Vermehrung des Parasiten in Zellkultur inhibiert. E. tenella CDKs sind daher als Zielproteine für die Entwicklung einer Chemotherapie der Kokzidiose geeignet. Mittels bioinformatischer Tiefenanalysen sollten CDK Proteine im Parasiten E. tenella identifiziert werden. Das Genom von E. tenella liegt in Rohfassung vor [ftp://ftp.sanger.ac.uk]. Jedoch waren zum Zeitpunkt dieser Arbeiten viele Sequenzen des Genoms noch nicht annotiert. Homologe CDK Proteine von E. tenella konnten durch den Vergleich von Sequenzinformationen mit anderen Organismen der Apicomplexa identifiziert und analysiert werden. Durch diese Analysen konnten neben der bereits bekannten EtCRK2, drei weitere, bislang nicht annotierte CDKs in E. tenella identifiziert werden (EtCRK1, EtCRK3 sowie EtMRK). Darüber hinaus wurde eine Analyse der entsprechenden Zykline – der Aktivatoren der CDKs – bezüglich Funktion und Struktur, sowie eine Datenbanksuche nach bisher nicht beschriebenen Zyklinen in E. tenella durchgeführt. Diese Suchen ergaben vier neue potentielle Zykline für E. tenella, wovon EtCYC3a als Aktivator der EtCRK2 von María L. Suárez Fernández (Intervet Innovation GmbH, Schwabenheim) bestätigt werden konnte. Sequenzvergleiche lassen vermuten, dass auch EtCYC1 und EtCYC3b in der Lage sind, EtCRK2 zu aktivieren. Außerdem ist anzunehmen, dass EtCYC4 als Aktivator der EtCRK1 fungiert. Ein weiterer Schwerpunkt der vorliegenden Arbeit war die Suche und Optimierung nach neuen Inhibitoren von CDKs aus E. tenella. In vorangegangenen Arbeiten konnten bereits Inhibitoren der EtCRK2 gefunden werden [BEYER, 2007]. Mittels Substruktur- und Ähnlichkeitssuchen konnten im Rahmen dieser Arbeit weitere Inhibitoren der EtCRK2 identifiziert werden. Vier dieser Strukturklassen erfüllen die Kriterien einer Leitstruktur. Eine dieser Leitstrukturen gehört zur Strukturklasse der Benzimidazol-Carbonitrile und ist bislang nicht als Inhibitor anderer Kinasen beschrieben. Diese neu identifizierte Leitstruktur konnte in silico weiter optimiert werden. Im Rahmen dieser Arbeit wurden Bindungsenergien von Vertretern dieser Strukturklasse berechnet, um einen wahrscheinlichen Bindemodus vorherzusagen. Für die weiterführende in silico Optimierung wurde eine virtuelle kombinatorische Substanzbibliothek dieser Klasse erstellt. Die Auswahl geeigneter Verbindungen für eine chemische Synthese erfolgte durch molekulares Docking unter Nutzung von Homologiemodellen der EtCRK2. Darüber hinaus wurde ein in silico Screening nach potentiellen Inhibitoren der PfMRK und EtMRK durchgeführt. Dabei konnten weitere interessante virtuelle Hit-Strukturen aus einer Substanzdatenbank kommerziell erhältlicher Verbindungen gefunden werden. Durch dieses virtuelle Screening konnten jeweils sieben Verbindungen als virtuelle Hits der PfMRK sowie der EtMRK identifiziert werden. Die Häufung von Strukturklassen mit bekannter CDK Aktivität deutet darauf hin, dass während des virtuellen Screenings eine Anreicherung von CDK Inhibitoren stattgefunden hat. Diese Ergebnisse lassen auf eine Weiterentwicklung neuer Wirkstoffe gegen Kokzidiose und Malaria hoffen.