Dinâmica da infecção toxoplásmica em felinos infectados pelo Vírus da Imunodeficiência Felina / Dynamics of toxoplasmic infection in cats infected by Feline Immunodeficiency Virus

Zanutto, Marcelo de Souza

18 April 2005

Para avaliar se a dinâmica da infecção toxoplásmica em gatos infectados pelo VIF é diferente daquela que ocorre em gatos não infectados por esse retrovírus, gatos adultos infectados pelo Vírus da Imunodeficiência Felina (VIF) clade B assintomáticos (n=7) (Grupo I: VIF+TOXO+), e gatos sem a infecção viral (n=7) (Grupo III: VIF-TOXO+) foram inoculados pela via oral com cistos de Toxoplasma gondii cepa P. Os animais foram avaliados por meio do exame clínico, mensuração de anticorpos IgM e IgG anti-T. gondii pela Reação de Imunofluorescência Indireta, eliminação e quantificação de oocistos pela técnica de flutuação em solução de sacarose, leucograma, e as subpopulações de linfócitos T CD4+ e CD8+ foram mensuradas por meio da citometria de fluxo. Outros dois grupos de gatos, um apenas infectado com o VIF (n=7) (Grupo II: VIF+TOXO-) e outro não infectado com nenhum dos agentes (n=3) (Grupo IV: VIF-TOXO-), constituíram os grupos controle. O período de eliminação de oocistos e a quantidade de oocistos eliminados foram semelhantes entre os Grupos I e III, respectivamente p=1,00 e p=0,201. O período de soroconversão e a duração dos títulos de IgM e IgG também foram semelhantes, respectivamente p=0,535; p=0,789 e p=0,674; p=0,123. No entanto, os episódios febris e de apatia foram mais freqüentes entre os gatos co-infectados (Grupo I) do que entre os animais do grupo não infectado com o vírus (Grupo III), embora estes últimos tenham apresentado diarréia mais freqüente e intensa do que os primeiros. Apenas no grupo co-infectado (Grupo I) um animal desenvolveu uveíte anterior unilateral autolimitante. Exclusivamente no grupo de gatos co-infectados (Grupo I), durante todo o período experimental foi observado aumento do número de leucócitos (p=0,047), linfócitos (p=0,029) e linfócitos T CD8+ (p=0,047) em relação aos gatos do grupo infectado apenas com o T. gondii (Grupo III). O grupo de gatos infectados somente com o VIF (Grupo II) apresentou diminuição quantitativa de linfócitos T CD4+ (p=0,031) em comparação ao grupo controle não infectado com nenhum dos agentes (Grupo IV), evidenciando a ação do vírus em destruir progressivamente essa subpopulação de linfócitos. A relação de linfócitos CD4/CD8 entre os Grupos I e II, infectados pelo VIF, e os Grupos III e IV, não infectados pelo vírus, foi alterada (p<0,001 e p=0,002 respectivamente), observando-se que a infecção toxoplásmica não teve influência sobre esse parâmetro. O aumento dos linfócitos T CD8+ nos gatos co-infectados e a diminuição de linfócitos T CD4+ causada pela infecção pelo VIF podem contribuir para o desenvolvimento de manifestações clínicas mais graves nos gatos infectados por ambos os agentes infecciosos. / Asymptomatic adult cats (n=7) infected with Feline Immunodeficiency Virus (FIV) clade B (Group I: FIV+TOXO+) and normal non-infected cats (n=7) (Group III: FIV-TOXO+) were inoculated, orally with cysts of Toxoplasma gondii strain P, in order to evaluate if there is a difference in dynamics of toxoplasmic infection between cats infected with FIV and naive-FIV cats. The animals were assessed by means of physical exam, T. gondii IgM and IgG antibodies by indirect immunofluorescent reaction, shedding and quantification of oocysts using sugar centrifugation, leucogram and CD4+ and CD8+ T-lymphocytes subsets using cytometry. Others two groups of cats, one of them only infected with FIV (n=7) (Group II: FIV+TOXO-) and other non-infected (n=3) (Group IV: FIV-TOXO-) composed the control groups. The shedding and quantification of oocysts were not different between the Groups I and III, respectively p=1,00 and p=0,201. The serum convertion and the period that during of values of IgM and IgG antibodies were not different, respectively p=0,535; p=0,789 and p=0,674; p=0,123. However, fever and letargy were more frequent between cats co-infected (Group I) than the group not infected with FIV (Group III), although the latter one had presented more frequently intense diarrhea than formers. Just one cat dually infected (Group I) presented autolimitant unilateral anterior uveitis. Only cats co-infected (Group I), during all period of the experiment, presented increase in number of leukocytes (p=0,047), lymphocytes (p=0,029) and CD8+ T lymphocytes subset (p=0,047) comparing to the cats only infected with T. gondii (Group III). Only in the group FIV-infected (Group II) was observed decrease in numbers of CD4+ T lymphocytes subset (p=0,031) compared to the not infected any microrganism (Group IV), showing the virus action to destroy this lymphocyte subset slowly. The CD4/CD8 lymphocyte ratio was different between the Groups I and II, FIV-infected, from Groups III and IV, FIV-naive cats, (p<0,001 e p=0,002 respectively) showing that toxoplasmic infection did not alter this parameter. The increase number of CD8+ T lymphocyte, in dually infected cats, associated with loss of CD4+ T lymphocyte caused by FIV, can contribute for the development of more severe clinical signs in cats dually infected.

Toxoplasma gondii

Toxoplasma gondii

Cats

Co-infecção

Co-infection

Feline

Feline Immunodeficiency Virus

Felinos

Gatos

Vírus da Imunodeficiência Felina

Conséquences des invasions de rongeurs liées aux activités humaines sur l’épidémiologie et la structure des populations de Toxoplasma gondii : l'exemple du Sénégal / Consequences of human-mediated rodent invasions on the epidemiology and population structure of Toxoplasma gondii : the example of Senegal

Galal, Lokman

12 October 2018

Toxoplasma gondii est un protozoaire zoonotique ubiquiste capable d’infecter tous les homéothermes dont l’homme. Un contraste géographique marqué a été relevé à l’échelle globale concernant la diversité génétique et la pathogénicité chez l’homme des souches de ce parasite. Un nombre croissant d’études montre l’importance de considérer l’influence du facteur souche parasitaire dans l’étude de l’épidémiologie de la toxoplasmose humaine. Cependant, les données de diversité génétique demeurent très limitées pour de larges régions du monde dont l’Asie et l’Afrique. Egalement, les déterminants de la structure spatiale des populations de T. gondii dans le monde demeurent mal compris. Au cours de ce travail, nous nous sommes intéressés à l’influence des échanges humains sur l’évolution des populations du parasite en Afrique, et plus particulièrement au Sénégal. Nos résultats soutiennent un rôle important des rongeurs invasifs qui accompagnent les échanges humains dans l’introduction de souches au niveau des zones portuaires du pays par voie maritime.Nos résultats suggèrent également un rôle de la souris invasive Mus musculus domesticus dans la contre-sélection de la lignée clonale Africa 1, la lignée prédominante de T. gondii en Afrique de l’Ouest. Ces nouveaux éléments éclairent sur une partie des mécanismes qui régissent le fonctionnement des populations de T. gondii. D’autres études réalisées dans différents contextes épidémiologiques, alliées à des études expérimentales, seront nécessaires pour donner une juste mesure de l’influence de ces interactions hôtes-parasites sur l’épidémiologie de la toxoplasmose. / Toxoplasma gondii is a ubiquitous zoonotic protozoan capable of infecting all homeotherms including humans. A marked geographical contrast has been noted at the global scale concerning the genetic diversity and pathogenicity in humans of strains of this parasite. A growing number of studies show the importance of considering the influence of strain factor in the study of the epidemiology of human toxoplasmosis. However, genetic diversity data remain very limited for large regions of the world including Asia and Africa. Also, the determinants of the spatial structure of T. gondii populations worldwide remain poorly understood. During this work, we were interested in the influence of human exchanges on the evolution of parasite populations in Africa, and more particularly in Senegal. Our results support an important role of invasive rodents that accompany human exchanges in the introduction of strains at the port areas of the country through maritime trade. Our results also suggest a role of the invasive mouse Mus musculus domesticus in the counterselection of the clonal lineage Africa 1, the predominant lineage of T. gondii in West Africa. These new elements shed light on some of the mechanisms that shape T. gondii populations. Further studies in different epidemiological situations, combined with experimental studies, will be needed to accurately measure the influence of these host parasite interactions on the epidemiology of toxoplasmosis.

Toxoplasma gondii

Rongeurs

Petits mammifères

Génétique des populations

Épidémiologie

Toxoplasma gondii

Rodents

Small mammals

Population genetics

Epidemiology

616.96

614.4

Inhibition of the Toxoplasma gondii replication by inhibition of the mitochondrial respiratory chain / Inhibierung der Toxoplasma-gondii-Replikation durch Hemmung der mitochondrialen Atmungskette

Naujoks, Britta

12 December 2008

No description available.

610 Medizin, Gesundheit

Medicine

HDQ

Toxoplasma gondii

Atmungskette

Angriffspunkte

HDQ

Toxoplasma gondii

respiratory chain

drug target

Medizin

Medizin

Toxoplasma gondii : étude du réseau de nanotubes membranaires de la vacuole parasitophore et des protéines GRA associées / Toxoplasma gondii,parasitophorous vacuole,dense granules,PI(4,5) P2,membranous tubules , amphipathic alpha helices

Bittame, Amina

14 January 2011

Dans la cellule hôte, Toxoplasma gondii se développe dans une vacuole parasitophore (VP) caractérisée par un réseau de nanotubes membranaires (RNM) dont la composition, le mécanisme de formation et la fonction sont obscures. Quelques protéines GRA, dont GRA2 et GRA6, sont sécrétées dans la VP à partir des granules denses puis ciblées au RNM. Cette localisation s'accorde avec l'hélice alpha-hydrophobe de GRA6 et les hélices alpha-amphipathiques de GRA2. Avant et après sécrétion dans la VP, les protéines GRA sont partiellement solubles. Le phénotype de parasites délétés de leur(s) gène(s) GRA2 et/ou GRA6 révèle que ces 2 protéines sont indispensables à la formation du RNM. J'ai montré 1) qu'avant leur insertion dans les membranes de la VP, la solubilité des protéines GRA est préservée grâce à des interactions hydrophobes avec peut être, des micelles de l'espace vacuolaire ; 2) que GRA12, une nouvelle protéine du RNM, n'interagit pas avec GRA2 dans ces membranes. 3) que l'adressage spécifique de GRA6 au RNM est déterminé par son domaine N-terminal hydrophile. 4) J'ai montré que GRA2 recombinante a une affinité pour le phosphatidyl inositol (4, 5) diphosphate avec lequel elle interagit via ses hélices alpha-amphipathiques. GRA2 déforme des liposomes de courbure membranaire importante pour générer de courts tubules membranaires. La tubulation est accentuée par GRA6 qui s'associe aux liposomes, quelque soit leur diamètre. Ces résultats valident le rôle direct de GRA2 et GRA6 dans la formation du RNM et laissent envisager un modèle de sa formation, dans lequel GRA6 favoriserait l'assemblage de vésicules lipidiques que GRA2 fusionnerait en tubules membranaires. / Within the host cell, Toxoplasma gondii multiplies in a parasitophorous vacuole (PV) characterized by a membranous nanotubular network (MNN). Its components, the mechanism of its formation and its function remain unknown. A few GRA proteins, including GRA2 and GRA6, are secreted from the dense granules into the PV and are targeted to the MNN. This location is in agreement with the hydrophobic alpha-helix predicted in GRA6 and with the GRA2 amphipatic alpha-helices. However, before and after their secretion in the PV, the GRA proteins are partially soluble. The phenotypic analysis of parasites deleted from their GRA2 and/or GRA6 gene(s) had shown that both these proteins are indispensable for MNN formation. During my thesis, I showed that before their insertion into the PV membranes, the GRA proteins solubility is preserved by establishing hydrophobic interactions, likely with micelles in the PV space. I also showed that GRA12, a novel MNN-associated protein, does not interact with GRA2 within these membranes. Using GRA6 as a model of study, I contributed to demonstrate that the GRA6 specific targeting to the MNN relies on its N-terminal hydrophilic domain. I demonstrated that recombinant GRA2 recognizes inositol (4, 5) biphosphate with which it interacts via its amphipatic alpha-helices. GRA2 deforms liposomes of steep membrane curvature into short membranous tubules. The tubulation is increased by GRA6 which associates with liposomes independently of their diameter. These results validate the direct role of both GRA2 and GRA6 in MNN formation and led us to propose a model in which GRA6 would tether vesicles, the fusion of which would be induced by GRA2.

Toxoplasma gondii

Vacuole parastitophore

Granules denses

Hélices alpha-amphipathiques

Toxoplasma gondii

Parasitophorous vacuole

Dense granules

Membranous tubules

540

Caractérisation fonctionnelle et implication du facteur de transcription TgAP2X-5 dans la régulation des gènes de virulence chez Toxoplasma gondii / Functional characterization and implication of the TgAP2X-5 transcription factor in the regulation of Toxoplasma gondii virulence gene

Lesage, Kevin

20 December 2017

Toxoplasma gondii est un eucaryote unicellulaire appartenant au phylum des Apicomplexes. Ce parasite intracellulaire obligatoire est la cause d’une pathologie sévère pour les fœtus des femmes enceintes primo-infectées ainsi que pour les personnes immunodéprimées. Son cycle de vie est complexe et comporte plusieurs étapes de prolifération et différenciation. Le stade tachyzoïte est responsable de la phase aigüe de la maladie chez les humains. Le tachyzoïte exprime des facteurs d'invasion et de virulence cruciaux pour sa survie et le détournement de la cellule hôte. L'expression de ces facteurs de virulence est hautement régulée pour permettre leur adressage correct dans des organites spécifiques appelés rhoptries et micronèmes. Cependant, peu d'informations sont connues sur les acteurs contrôlant l'expression de ces gènes de virulence. Les ApiAP2 appartiennent à une famille conservée de facteur de transcription (FT) et jouent un rôle important dans la régulation de la transcription des gènes chez les parasites apicomplexes. Des études menées au laboratoire ont révélés la capacité du FT TgAP2XI-5 à se fixer sur des promoteurs de gènes transcriptionnellement actifs durant les phases S/M du cycle cellulaire. Ce moment correspond au pic d’expression les gènes de rhoptrie et de micronème. Cependant, l'expression de TgAP2XI-5 est constitutive durant le cycle cellulaire chez le tachyzoïte. Dans le but de comprendre comment sa fonction dépendante du cycle cellulaire est régulée, nous avons identifié des potentiels partenaires d'interactions dont TgAP2X-5, un autre FT ApiAP2 dont l’expression est régulée durant les phases S/M du cycle. L'utilisation d'un système d'expression inductible ainsi que des expériences de séquençage des ARN nous ont permis de démontrer que la perte d'expression de TgAP2X-5 induit une diminution du nombre de transcrits codant pour les protéines de rhoptrie et de micronème. Alors que la perte d'expression de TgAP2X-5 n'influence pas de manière significative l'invasion et la croissance du parasite, nous observons une perte totale de virulence de la souche parasitaire in vivo. Pour mieux comprendre les mécanismes moléculaires mis en jeu, nous nous sommes demandés si la fixation de TgAP2XI-5 sur ces promoteurs cible est conservée en absence de TgAP2X-5. Par des expériences de ChIP-chip, nous avons montrés que l'absence de TgAP2X-5 conduit à une incapacité de fixation de TgAP2XI-5 sur des promoteurs de gènes de rhoptrie. L'ajout d'une copie du gène TgAP2X-5 sous son propre promoteur dans la souche mutante est capable de restaurer l'expression des protéines de rhoptrie préalablement affectée. Toutes ces expériences montrent pour la première fois une coopération des FT APiAP2 dans la régulation des gènes chez les Apicomplexes. / Toxoplasma gondii is a unicellular eukaryote belonging to the Apicomplexa phylum. It is an obligate intracellular parasite of critical importance to primarily infected pregnant women and immunosuppressed patient. Its life cycle is complex, with multiple proliferation and differentiation steps, of which tachyzoite proliferation is the most relevant to pathogenesis in humans. Tachyzoites express invasion and virulence factors that are crucial for their survival and the manipulation of host cell functions. Expression of these virulence factors is tightly regulated permitting their correct targeting in specific organelles named rhoptry and microneme. However, little is known about the factors controlling the expression of genes encoding the virulence factors. ApiAP2 are a family of conserved transcription factors (TF) that play an important role in regulating gene expression in apicomplexan parasites. Previous studies had revealed the ability of one of these TFs, TgAP2XI-5, to bind to transcriptionally active promoters of genes expressed during the S/M phase such as rhoptry and micronemes genes. However, expression of TgAP2XI-5 is constitutive during the tachyzoite cell cycle. To better understand how its function is regulated, we identified proteins interacting with TgAP2XI-5 including a cell cycle regulated ApiAP2 TF, TgAP2X-5. Using an inducible knock-down strategy and RNA-Seq, we demonstrate that the level of expression of number of rhoptry and microneme transcripts is affected by the disruption of TgAP2X-5 expression. While TgAP2X-5 disruption has mild effect on parasite growth and invasion, it leads to the strain avirulence in mice. To better understand the molecular mechanisms at stake, we investigated the binding of TgAP2XI-5 at promoters in the TgAP2X-5 mutant in a genome-wide assay. We show that disruption of TgAP2X-5 expression leads to defects in TgAP2XI-5 binding to multiple rhoptry gene promoters. Complementation of the TgAP2X-5 mutant restores the expression of rhoptry proteins previously affected. This is the first evidence of a cooperative action of ApiAP2 TF in Apicomplexa.

Toxoplasma gondii

Virulence

Facteur de transcription

ApiAP2

Régulation

Apetela

Apetala

Toxoplasma gondii

Virulence

ApiAp2

DNA binding

Transcription factor

Apicomplexa

Conception, synthese et évaluation de nouvelles imidazoazines anti-apicomplexes à visée thérapeutique / Design, synthesis and evaluation of new anti-apicomplexa imidazoazines for therapeutic uses

Moine, Esperance

09 October 2015

Les parasites apicomplexes sont ubiquitaires et ont une forte incidence en médecine humaine et vétérinaire. Certains de ces parasites, comme Plasmodium falciparum, l’agent du paludisme, ou Toxoplasma gondii, l’agent de la toxoplasmose, posent des problèmes de santé publique. Les thérapies existantes montrent parfois une efficacité limitée, une forte toxicité et entraînent des résistances, d’où la nécessité de nouvelles approches plus spécifiques. Dans ce contexte, nous avons développé deux approches d’inhibition des apicomplexes : -la synthèse de biphénylimidazoazines à large spectre efficaces au micromolaire sur cinq parasites apicomplexes différents in vitro. -la synthèse d’imidazo[1,2-b]pyridazines ciblant spécifiquement une protéine kinase (CDPK1) de T. gondii et efficaces au submicromolaire sur le parasite in vitro. Une diminution de plus de 90 % de la charge parasitaire chez la souris et une innocuité à court terme font de ces imidazo[1,2-b]pyridazines de bons candidats thérapeutiques. / Apicomplexan parasites are ubiquitous and have a strong incidence in veterinary and human medicine. Some of them, like Plasmodium falciparum, causing malaria, or Toxoplasma gondii, causing toxoplasmosis, are matter of public health concern. The existing therapies may have limited efficiency, high toxicity, and may lead to resistance, highlighting the necessity of new more specific approaches. In this context, we have developed two approaches to inhibit Apicomplexa: -the synthesis of biphenylimidazoazines with broad-spectrum and efficient at the micromolar range on five different apicomplexan parasites in vitro. -the synthesis of imidazo[1,2-b]pyridazines specifically targeting a kinase protein (CDPK1) of T. gondii and efficient at the submicromolar range on the parasite in vitro. More than 90% diminution of parasite burden in mice and short term safety make these imidazo[1,2-b]pyridazines good therapeutic candidates.

Apicomplexes

Toxoplasma gondii

Imidazoazines

Inhibiteurs

Calcium-dependent protein kinase

Apicomplexa

Toxoplasma gondii

Imidazoazines

Inhibitors

Calcium-dependent protein kinase

Análise da participação das proteínas Bax e Bcl-2 em células endoteliais humanas durante a evolução da infecção por taquizoítos de Toxoplasma gondii. / Analysis of the involvement of the proteins bax and BCl-2 in human endothelialcells during the curse of infectionof Toxoplasma godii

Mariana de Freitas Oliveira

20 July 2010

Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / A toxoplasmose é uma zoonose amplamente distribuída que afeta mais de um terço da população mundial e de grande importância na saúde pública. A maioria das infecções em humanos por Toxoplasma gondii é assintomática. Entretanto, nos últimos anos, a toxoplasmose tem sido amplamente investigada uma vez que se apresenta como uma das doenças oportunistas que acometem pacientes portadores da Síndrome da Imunodeficiência Adquirida (AIDS) e indivíduos transplantados. A toxoplasmose congênita pode provocar aborto ou até sérios danos ao feto provocando retardo mental e cegueira em crianças, reduzindo significativamente a qualidade de vida dos sobreviventes. Assim, a transmissão congênita pode ser muito mais importante do que se pensava. Estudos sobre a evolução da infecção por Toxoplasma gondii em diferentes tipos de células hospedeiras se fazem necessários para uma abordagem terapêutica adequada. Nesse estudo utilizamos as técnicas de imunofluorescência e imunocitoquímica ultraestrutural com o objetivo de investigar a participação de Bax e Bcl-2, proteínas da família Bcl-2 que regulam a apoptose e a dinâmica mitocondrial durante a evolução da infecção das células endoteliais de veia umbilical humana (HUVEC) por taquizoítos de T. gondii. A microscopia confocal revelou uma rede mitocondrial filamentosa marcada pelo Mito Tracker Red no citoplasma de HUVEC e após 2h de infecção essa rede se mostrou desorganizada, provavelmente por conseqüência da invasão da HUVEC pelo T. gondii. Porém, em 6h de infecção, observamos a reestruturação da rede mitocondrial no citoplasma de HUVEC que se manteve no tempo de 20h de infecção. Ainda por microscopia confocal observamos que a proteína pró-apoptótica Bax se localiza principalmente no citoplasma, na mitocôndria, e pela primeira vez foi detectada no núcleo de HUVEC. No tempo de 2h de infecção, observamos a expressão de Bax principalmente na mitocôndria. Entretanto, após 6h e 20h de infecção, essa expressão diminuiu tanto na mitocôndria quanto no citoplasma de HUVEC. A expressão de Bcl-2 não foi observada em HUVEC não infectada e infectada por 2h, 6h e 20h. Taquizoítos de T. gondii apresentaram marcação positiva para Bax e Bcl-2 ao longo de todos os tempos de infecção. A análise ultraestrutural confirmou a dinâmica mitocondrial observada por microscopia confocal durante toda a interação. Os resultados de imunocitoquímica confirmaram a expressão de Bax no núcleo de HUVEC e a expressão de Bax e Bcl-2 em taquizoítos de T. gondii isolados. Portanto, nossos resultados sugerem que o T. gondii modula a morfologia da mitocôndria e a expressão de Bax em HUVEC, interferindo possivelmente nos mecanismos de defesa das células hospedeiras, entre eles a progressão da apoptose. / Toxoplasmosis is a zoonosis widely distributed that affects over a third of world population and is of great importance on public health. Most Toxoplasma gondii infection in humans is asymptomatic. However, on recent years toxoplasmosis has been investigated since it comes as some opportunistic diseases in patients with the acquired immunodeficiency syndrome (AIDS) and transplant patients. Congenital toxoplasmosis can cause miscarriage or serious damage to the fetus leading to mental retardation and blindness in children, significantly reducing the quality of life of survivors. Thus, congenital transmission can be much more important than previously thought. Studies on the development of Toxoplasma gondii in different host cells are necessary for an appropriate therapy. At this study we employed the immunofluorescence and ultrastructural immunocytochemical assay with the aim to investigate the involvement of Bax and Bcl-2, members of Bcl-2 family which regulate apoptosis and the mitochondrial dynamic during the infection progress of human umbilical vein endothelial cells (HUVEC) by tachyzoites of T. gondii. Confocal microscopy revealed a mitochondrial filamentous network stained by Mito Tracker Red within cytoplasm of HUVEC and after 2h of infection this network became desorganized, probably as a consequence of T. gondii invasion. However, at 6h of infection, we observed the restructuring of the mitochondrial network in the cytoplasm of HUVEC, which remained at the time of 20h of infection. Even by confocal microscopy we observed Bax pro-apoptotic protein located mainly in the cytoplasm, in the mitochondria, and for the first time it was detected in the nucleus of HUVEC. At the time of 2h of infection, we observed the expression of Bax mainly in mitochondria. However, after 6h and 20h of infection, this expression decreased such in mitochondria as in HUVEC cytoplasm. The Bcl-2 expression was not observed in uninfected and HUVEC infected for 2h, 6h and 20h. Tachyzoites of T. gondii presented positive labeling for Bax and Bcl-2 over all time of infection. The ultrastructural analysis confirmed the mitochondrial dynamics observed by confocal microscopy throughout the interaction. The results of immunocytochemistry confirmed Bax expression in the nucleus of HUVEC and the expression of Bax and Bcl-2 in isolated tachyzoites of T. gondii. Therefore, our results suggest that T. gondii modulates the mitochondria morphology and Bax expression in HUVEC, probably interfering on the host cells defense mechanisms, including the progression of apoptosis.

HUVEC

T. gondii

Família Bcl-2

Mitocôndria

Apoptose

HUVEC

T. gondii

Bcl-2 family

Mitochondria

Apoptosis

MORFOLOGIA

Estudo do metabolismo mitocondrial e da resposta anti-apoptótica de células endoteliais humanas durante a evolução da infecção por taquizoítos de Toxoplasma gondii / Study of mitochondrial metabolism and antiapoptotic response of human endothelial cells during Toxoplasma gondii tachyzoites infections

Camila Luna da Silva

07 August 2013

Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / A toxoplasmose é uma zoonose amplamente distribuída que afeta mais de um terço da população mundial e de grande importância na saúde pública. A maioria das infecções em humanos por Toxoplasma gondii é assintomática. A toxoplasmose é amplamente investigada visto que se apresenta como uma doença grave em pessoas imunodeprimidas (portadores da síndrome da imunodeficiência adquirida (SIDA), não tratados, indivíduos transplantados, paciente em tratamento quimioterápico ou em uso de drogas supressoras e gestantes). A toxoplasmose congênita frequentemente pode levar ao aborto espontâneo ou até mesmo resultar na formação de crianças com algum grau de atraso no desenvolvimento mental e/ou físicos, deste modo, a transmissão congênita pode ser muito mais importante do que se pensava, pois os parasitos encontrados na circulação sanguinea são capazes de infectar as células endoteliais dos vasos e os tecidos circunjacentes, podendo resultar no encistamento do T. gondii. Atualmente a toxoplasmose vem sendo investigada devido a sua associação a inúmeras outras doenças, assim, estudos sobre a evolução da infecção por T. gondii em diferentes tipos de células hospedeiras se fazem necessários para uma abordagem terapêutica adequada. Ao invadir a célula hospedeira o parasito possui a capacidade de recrutar as mitocôndrias promovendo mudanças na organização mitocondrial ao longo da progressão da infecção, garantindo um ambiente favorável a sua multiplicação. Diante disso, investigamos se o parasito possui a capacidade de interferir no metabolismo mitocondrial e na resposta apoptótica da célula endotelial. O presente trabalho teve como objetivo analisar o metabolismo mitocondrial através da respirometria de alta-resolução e da resposta apoptótica através do western blotting das células endoteliais da veia umbilical humana (HUVEC) infectadas por 2, 6 e 20 horas por taquizoítos de T. gondii. A respirometria de alta-resolução revelou que o parasito interfere no metabolismo energético da célula hospedeira. A análise do conteúdo de proteínas da família Bcl-2 por western blotting revelou maior estímulo apoptótico no tempo inicial de infecção, quando comparado aos demais tempos. Os resultados dos conteúdos de caspase 3, proteína efetora da apoptose, não demonstrou diferença nos tempos iniciais de infecção Entretanto, em tempos mais tardios, o conteúdo de caspase 3 mostrou-se significativamente aumentado quando comparado às HUVEC não infectadas. A dinâmica de replicação do parasito foi observada através do monitoramento pelo sistema Time-Lapse Nikon BioStation IMQ em tempo real das células infectadas por T.gondii. Portanto, nossos resultados sugerem que o protozoário ao recrutar as mitocôndrias da célula hospedeira interfere no metabolismo mitocondrial e na modulação da apoptose para garantir um ambiente favorável a sua multiplicação. / Toxoplasmosis is a widespread zoonosis that affects more than a third of the world population and of great public health importance. Most human infections with Toxoplasma gondii are asymptomatic. Toxoplasmosis is widely investigated since it presents itself as a serious disease in immunocompromised persons (holders of acquired immunodeficiency syndrome (AIDS), untreated, transplant recipients, patients undergoing chemotherapy or suppressing drugs and pregnant). Congenital toxoplasmosis can often lead to miscarriage or even result in the formation of children with some degree of developmental delay mental and / or physical, thus congenital transmission may be much more important than previously thought, because the parasites found In the bloodstream are able to infect endothelial cells of blood vessels and surrounding tissues, which may result in encystment T. gondii. Currently toxoplasmosis has been investigated because of their association with other diseases, so, studies of the evolution of T.gondii infection in different types of host cells are necessary for an adequate therapeutic approach. To invade the host cell, the parasite has the ability to recruit mitochondria promoting changes in mitochondrial organization along the progression of infection, ensuring a favorable environment for their multiplication. Therefore, we investigated whether the parasite has the ability to interfere with mitochondrial metabolism and apoptotic response of endothelial cells. This study aimed to analyze the mitochondrial metabolism by high-resolution respirometry and apoptotic response by western blotting of endothelial cells of human umbilical vein (HUVEC) infected for 2, 6 and 20 hours per tachyzoites of T. gondii. The high-resolution respirometry revealed that the parasite interferes with the energy metabolism of the host cell. The analysis of the family protein content of Bcl-2 by western blotting revealed higher apoptotic stimulus at the initial time of infection, as compared to other times. The results of the contents of caspase 3 protein effector of apoptosis, showed no difference in the initial days of infection However, in more recent times, the content of caspase 3 was significantly increased when compared to non-infected HUVEC. The dynamics of parasite replication was observed by monitoring the system Time-Lapse Nikon BioStation IMQ in real time from infected cells by T. gondii. Therefore, our findings suggest that mitochondria in recruiting protozoan host cell interfere with mitochondrial metabolism and in the modulation of apoptosis to ensure a favorable environment for multiplication.

HUVEC

T. gondii

Família Bcl-2

Metabolismo Mitocondrial

Apoptose

HUVEC

T. gondii

Bcl-2 family

Mitochondrial Metabolism

CITOLOGIA E BIOLOGIA CELULAR

Prevalência e fatores de risco para toxoplasma gondii em ovinos no município de Lages, Santa Catarina, Brasil / Prevalence and risk factors for Toxoplasma gondii in sheeps in municipality of Lages, Santa Catarina, Brazil

Sakata, Francine Bragagnolo Liz Stefen

09 August 2010

Made available in DSpace on 2016-12-08T16:24:11Z (GMT). No. of bitstreams: 1 PGCA10MA077.pdf: 251261 bytes, checksum: 659afb14e9609405d069749d1029eb68 (MD5) Previous issue date: 2010-08-09 / This study evaluated the prevalence of antibodies against Toxoplasma gondii in sheeps in the municipality of Lages, in the state of Santa Catarina, Brazil, and identified possible risk factors for infection. Blood samples of 360 animals from 13 properties were collected by puncturing of the jugular vein, stored in sterile tubes and carried to the Laboratory of Parasitology and Parasitic Diseases CAV / UDESC, for later processing. Each creator answered a questionnaire with data of the propertie and each individual animal for identification of risk factors for infection. Indirect Immunofluorescence Assay (IFA) where serum samples were considered positive at dilutions &#8805;1:64 and Enzyme Linked Immunosorbent Assay (ELISA) were used to detect IgG anti Toxoplasma gondii antibodies. 100% of properties were found positive animals. By IFA, 205 (56.94%) sheeps had antibodies against Toxoplasma gondii and by ELISA, 153 (42.50%) sheeps were positive. Considering the serological techniques and statistical analysis, were risk factors by ELISA: the age, the water source and the animal category; and by IFA, the racial type. It has been found sensitivity of 61%, specificity of 82% and Kappa of 0.7 between the ELISA and the IFA (1:64), considered good, allowing to indicate the ELISA as technique adjusted for the diagnosis of Toxoplasma gondii in the ovina species / Com os objetivos de estimar a prevalência de ovinos portadores de Toxoplasma gondii no município de Lages, Santa Catarina, Brasil, e de identificar possíveis fatores de risco para a infecção, foi coletado sangue por punção da veia jugular externa de 360 animais, de 13 propriedades, armazenado em tubos estéreis e transportado ao Laboratório de Parasitologia e Doenças Parasitárias CAV/UDESC, para posterior processamento. Cada criador respondeu a um questionário com dados da propriedade e individuais de cada animal para permitir a identificação dos fatores de risco da infecção. A pesquisa de anticorpos foi realizada por meio da Reação de Imunofluorescência Indireta (RIFI) utilizando como ponto de corte a titulação 1:64 e do Ensaio Imunoenzimático Indireto (ELISA). Em 100% das propriedades foram encontrados animais positivos. Pela RIFI, 205 (56,94%) ovinos apresentaram anticorpos contra Toxoplasma gondii e pelo ELISA, 153 (42,50%). Considerando-se as técnicas sorológicas e a análise estatística, foram fatores de risco pelo ELISA: a idade, a fonte de água e a categoria animal; e pela RIFI, o tipo racial. Foi constatada sensibilidade de 61%, especificidade de 82% e concordância Kappa de 0,7 entre o ELISA e a RIFI (1:64), considerada boa, permitindo indicar o ELISA como técnica adequada para o diagnóstico de Toxoplasma gondii na espécie ovina

Toxoplasma gondii

ovinos

RIFI

ELISA

fatores de risco

Toxoplasma gondii

sheeps

IFA

ELISA

risk factors

Genotipagem de isolados de Toxoplasma gondii obtidos de Gallus gallus naturalmente infectados no estado de Santa Catarina / Genotyping of Toxoplasma gondii isolates from Gallus gallus naturally infected in the state of Santa Catarina

Trevisani, Natascha

21 February 2013

Made available in DSpace on 2016-12-08T16:24:13Z (GMT). No. of bitstreams: 1 PGCA13MA101.pdf: 699148 bytes, checksum: 49c5f8f78753d18ac0c7b049d5052f86 (MD5) Previous issue date: 2013-02-21 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / Toxoplasmosis is a widely-distributed zoonosis that can infect warm-blooded animals, including birds and humans. Chickens, as well as other birds, can be considered indicators of environmental contamination. Toxoplasma gondii has a distinct clonal populational structure of three lineages (I, II and III) with high recombination, resulting in wide genotypic diversity in Brazil. Recent studies have demonstrated the importance of T. gondii genotyping regard the relationship between genotypes and distinct clinical signs in hosts. This study aimed to isolate and characterize T. gondii isolates from chickens (Gallus gallus) naturally infected in the state of Santa Catarina. Serum samples from 133 fowls raised in free-range conditions were analyzed by Immunofluorescence Assay (IFA &#8805; 1:16) to detect IgG antibodies to T. gondii. Brain and heart tissues from 30 seropositives (IFA) chickens were used to isolate the parasite (bioassay in mice). The isolates were subjected to genotypic characterization by PCR-RFLP using 12 genetic markers (SAG1, 5 -3 SAG2, alt.SAG2, SAG3, BTUB, GRA6, c22-8, c29-2, L358, PK1, Apico and CS3). The results were classified according to the genotypes present in ToxoDB (http://toxodb.org/toxo/). Among 133 chicken serum samples analyzed, 84 (63.16%) were positive, with antibody titers ranging from 1:16 to 1:1024. Eleven isolates were obtained in the assay (Ck 3, Ck 32, Ck 35, Ck 56, Ck 63, Ck 89, Ck 102, Ck 103, Ck 125, Ck 127 and Ck 128). Genotyping revealed six genotypes, three of them were classified as #26, #53 and #120 and three were not previously described, denominated NEO 1, NEO 2 e NEO 3. In two isolates it was not possible to amplify all markers, but the 18S rRNA PCR-RFLP was performed for differentiation of other apicomplexans (Neospora spp. and Sarcocystis spp.) and it was confirmed as T. gondii. The present study confirms the high genetic diversity of the parasite observed in Brazil and this is the first mapping of genotypes obtained from naturally infected chickens in the state of Santa Catarina / A toxoplasmose é uma zoonose de ampla distribuição geográfica, que acomete animais homeotérmicos, incluindo as aves e o ser humano. Galinhas, assim como outras aves, são consideradas indicadoras de contaminação ambiental. Toxoplasma gondii possui uma estrutura populacional altamente clonal, constituída por três linhagens, designadas I, II e III com alta frequência de recombinação, o que resulta na grande diversidade genotípica observada no Brasil. Estudos recentes têm demonstrado a importância da genotipagem dos isolados de T. gondii considerando a relação de diferentes genótipos com as distintas patologias observadas nos hospedeiros. A realização do presente trabalho teve como objetivo isolar e caracterizar genotipicamente T. gondii de galinhas (Gallus gallus) naturalmente infectadas do estado de Santa Catarina. Soros de 133 aves criadas extensivamente foram analisados pela Reação de Imunofluorescência Indireta (RIFI &#8805;1:16) para detecção de anticorpos IgG contra T. gondii. Para o isolamento do parasito (bioensaio em camundongos) foram utilizados coração e cérebro de 30 aves soropositivas na RIFI. Os isolados obtidos foram submetidos à caracterização genotípica por meio da PCR-RFLP utilizando 12 marcadores genéticos (SAG1, 5 -3 SAG2, alt.SAG2, SAG3, BTUB, GRA6, c22-8, c29-2, L358, PK1, Apico e CS3). Os resultados obtidos foram classificados de acordo com os genótipos presentes no ToxoDB (http://toxodb.org/toxo/). Das 133 amostras de soros de galinhas analisadas, 84 (63,16%) foram positivas, com títulos de anticorpos variando de 1:16 a 1:1024. No bioensaio foram obtidos 11 isolados (Ck 3, Ck 32, Ck 35, Ck 56, Ck 63, Ck 89, Ck 102, Ck 103, Ck 125, Ck 127 e Ck 128). Pela análise genotípica revelou-se a presença de seis genótipos, três dos quais classificados como #26, #53 e #120 e três não descritos anteriormente, denominados NEO 1, NEO 2 e NEO 3. Em dois isolados não foi possível amplificar todos os marcadores, entretanto foi realizada a 18S rDNA PCR-RFLP, para diferenciar de outros apicomplexas (Neospora spp. e Sarcocystis spp.), e que confirmou estes como T. gondii. O presente trabalho ratifica a ampla diversidade genética do parasito verificada no Brasil sendo este o primeiro mapeamento dos genótipos do protozoário, a partir de galinhas naturalmente infectadas, que ocorrem no estado de Santa Catarina

Toxoplasma gondii

Gallus gallus

genotipagem

PCR-RFLP

Toxoplasma gondii

Gallus gallus

genotyping

PCR-RFLP