Prevalence Of Igg Antibodies To Encephalitozoon Cuniculi, Toxoplasma Gondii, And Sarcocystis Neurona In Domestic Cats

Hsu, Hsing-Ho Vasha

30 August 2010

Encephalitozoon cuniculi, Toxoplasma gondii and Sarcocystis neurona are intracellular parasites that infect a wide range of mammalian host species including domestic cats. The prevalence of antibodies to these parasites in cats was examined using an indirect immunofluorescence antibody assay. E. cuniculi targets the kidneys of rabbits but the prevalence of disease in cats is unknown. Chronic kidney disease (CKD) is a common cause of illness in cats. T. gondii is a widespread parasite of cats; however, it is not considered a major causative agent of CKD. The first hypothesis was that E. cuniculi and T. gondii are unrecognized causes of chronic kidney disease in domestic cats. Serum and plasma samples were examined for protozoal antibodies from 232 feline patients at the VMRCVM Teaching Hospital. Thirty-six of the 232 samples met the IRIS criteria for CKD. Antibodies to E. cuniculi were found in 15 samples, 4 of which came from cats with CKD. Antibodies to T. gondii were found in 63 samples; 10 cats of the 63 had CKD. These were not significantly different from cats with no CKD and the null hypothesis was rejected. Domestic cats, armadillos, raccoons and skunks are intermediate hosts (IH) for S. neurona while opossums are the definitive host (DH). The seroprevalence of S. neurona was examined in domestic cats from Virginia and Pennsylvania. The second hypothesis was that domestic cats are important IH for S. neurona transmission. A low seroprevalence was found in 32 of the 441 cats and the null hypothesis was rejected. / Master of Science in Life Sciences

cat

chronic kidney disease

Toxoplasma gondii

Sarcocystis neurona

Encephalitozoon cuniculi

Characterizing Cystoisospora canis as a Model of Apicomplexan Tissue Cyst Formation and Reactivation

Houk-Miles, Alice Elizabeth

01 July 2015

Cystoisospora canis is an Apicomplexan parasite of the small intestine of dogs. C. canis produces monozoic tissue cysts (MZT) that are similar to the polyzoic tissue cysts (PZT) of Toxoplasma gondii, a parasite of medical and veterinary importance, which can reactivate and cause toxoplasmic encephalitis. We hypothesized that C. canis is similar biologically and genetically enough to T. gondii to be a novel model for studying tissue cyst biology. We examined the pathogenesis of C. canis in beagles and quantified the oocysts shed. We found this isolate had similar infection patterns to other C. canis isolates studied. We were able to superinfect beagles that came with natural infections of Cystoisospora ohioensis-like oocysts indicating that little protection against C. canis infection occurred in these beagles. The C. canis oocysts collected were purified and used for future studies. We demonstrated in vitro that C. canis could infect 8 mammalian cell lines and produce MZT. The MZT were able to persist in cell culture for at least 60 days. We were able to induce reactivation of MZT treated with bile-trypsin solution. In molecular studies, we characterized C. canis genetically using ITS1 and CO1 to build phylogenetic trees and found C. canis was most similar to C. ohioensis-like with ITS1 and more similar to T. gondii than any other coccidia using ITS1 and CO1. We identified genes and proteins involved with virulence, cyst wall structure, and immune evasion of T. gondii and examined the DNA of C. canis for orthologs. C. canis had orthologs with 8 of 20 T. gondii genes examined. Monoclonal and polyclonal antibody and lectin studies demonstrated similar tissue cyst wall proteins on C. canis MZT and T. gondii PZT. Our findings in vitro and using genetic characterization of C. canis indicated the presence of similar genes and proteins, and its close phylogenetic location with T. gondii demonstrate that C. canis may serve as a model to examine tissue cyst biology. The system we described provides a simple model to produce tissue cysts and to study host factors that cause reactivation of tissue cysts. / Ph. D.

Cystoisospora canis

Toxoplasma gondii

characterization

tissue cyst reactivation

model

Interactions protozoaires – moule zébrée (Dreissena polymorpha) : implication en biosurveillance sanitaire et environnementale / Interaction protozoa - zebra mussel (Dreissena polymorpha) : interest for sanitary and environmental biomonitoring

Palos Ladeiro, Mélissa

10 October 2014

L'évaluation de la contamination des cours d'eau par les agents parasites protozoaires est fondamentale puisqu'on estime qu'une personne sur deux dans le monde est ou a été infectée par une zoonose d'origine parasitaire. Les trois principaux parasites responsables d'épidémies hydriques sont Cryptosporidium parvum, Giardia duodenalis et Toxoplasma gondii. Actuellement, seule la matrice eau est utilisée pour analyser la présence de ces parasites dans l'environnement aquatique. Peu reproductible et chronophage, cette méthode ne permet pas de mettre en place une surveillance de routine. Le projet de thèse propose l'utilisation de la moule zébrée, Dreissena polymorpha, comme un nouvel outil complémentaire pour évaluer la qualité biologique des milieux d'eau douce. Au travers d'expérimentations combinant différentes approches in vivo, ex vivo et in situ, le potentiel de la dreissène à accumuler les parasites protozoaires ainsi que leurs cinétiques d'accumulation dans les tissus ont été déterminés. Utilisée comme espèce sentinelle des contaminations chimiques, l'effet d'un stress biologique dû aux protozoaires a été évalué au laboratoire sur les cellules clefs de l'immunité des bivalves, les hémocytes. Ainsi, le projet permet de placer l'organisme Dreissena polymorpha dans une double stratégie de biosurveillance : une biosurveillance sanitaire liée à l'utilisation de la dreissène en tant que vecteur de parasites considérés comme enjeux de santé publique et une biosurveillance environnementale liée à la compréhension des facteurs de confusion avec les réponses biologiques utilisées comme biomarqueurs. / Assessment of the water biological contamination by protozoa is crucial since one in two person of the world population is or has been infected by a parasitic zoonosis. The main protozoa responsible of waterborne outbreaks are Cryptosporidium parvum, Giardia duodenalis and Toxoplasma gondii. Currently, protozoa detection is only based on water analysis. Irrelevant and time consuming, water analysis do not permit accurate biomonitoring. These project aims to use the freshwater mussel, Dreissena polymorpha, as a new complementary tool for biological quality analysis of freshwater. Through in vivo, ex vivo and in situ experiments, we determine the utility of zebra mussel for protozoa accumulation and their accumulation pattern within mussel tissues. Already use as a sentinel specie for chemical contamination, biological stress caused by protozoa has been determined in laboratory experiments on key cells of bivalve immunity, the hemocytes. Hence, Dreissena polymorpha could be involved in a twofold biomonitoring tactics: sanitary biomonitoring related to the use of zebra mussel as vector to protozoa with public health issue and environmental biomonitoring on understanding of the confounding factors in biological responses used as biomarkers.

Toxoplasma gondii

Cryptosporidium parvum

Giardia duodenalis

Dreissena polymorpha

Interactions

Biosurveillance

Toxoplasma gondii

Cryptosporidium parvum

Giardia duodenalis

Dreissena polymorpha

Interactions

Biomonitoring

Identification d'une protéine parasitaire interagissant avec le facteur de transcription UHRF1 dans les cellules infectées par Toxoplasma gondii / Toxoplasma gondii ROP16 kinase silences the cyclin B1 gene promoter by hijacking host cell UHRF1-dependent epigenetic pathways

Sabou, Alina Marcela

18 September 2018

La toxoplasmose, déterminée par le parasite Toxoplasma gondii, est l'une des infections les plus répandues au monde, en raison de la persistance à vie sous forme latente de ce parasite au sein de ces hôtes. Ce parasite fait partie des Apicomplexa et détourne les voies de signalisation de l'hôte par des mécanismes épigénétiques qui convergent vers des protéines nucléaires clés. Nous rapportons ici une nouvelle stratégie de persistance parasitaire impliquant la protéine de rhoptries ROP16 de T. gondii, sécrétée précocement lors de l'invasion, qui cible le facteur de transcription UHRF1 (Ubiquitin-like containing PHD and RING fingers domain 1) et induit un arrêt du cycle de la cellule-hôte. Ceci est induit par l'activité de la DNMT et le remodelage de la chromatine au niveau du promoteur du gène de la cycline B1 par le recrutement d’UHRF1 phosphorylé associé à un complexe protéique multienzymatique répressif. Cela conduit à la désacétylation et à la méthylation de l'histone H3 entourant le promoteur de la cycline B1 pour réduire de manière épigénétique son activité transcriptionnelle. De plus, l'infection par T. gondii provoque une hyper-méthylation de l'ADN dans la cellule hôte par la régulation positive des DNMTs. ROP16 est déjà connue pour activer et phosphoryler des facteurs de transcription de l'immunité protectrice tels que STAT 3/6/5 et le suppresseur tumoral p53 impliqué dans la progression du cycle cellulaire. De plus, ROP16 module ces voies de signalisation de l'hôte de manière souche-dépendante. Comme dans le cas de STAT3, les effets de ROP16 sur UHRF1 dépendent du polymorphisme d'un seul acide aminé du domaine kinase de ROP16. Ce travail montre que Toxoplasma module un nouvel initiateur épigénétique, UHRF1, via un événement précoce initié par la kinase parasitaire ROP16. / Toxoplasmosis, caused by the apicomplexan parasite Toxoplasma gondii, is one of the most common infections in the world due to the lifelong persistence of this parasite in a latent stage in its hosts. T. gondii hijacks host signaling pathways through epigenetic mechanisms which converge on key nuclear proteins. Here we report a new parasite persistence strategy involving Toxoplasma rhoptry protein ROP16 secreted early during invasion, which targets the transcription factor UHRF1 (Ubiquitin-like containing PHD and RING fingers domain 1), and leads to host cell cycle arrest. This is mediated by DNMT activity and chromatin remodeling at the cyclin B1 gene promoter through recruitment of phosphorylated UHRF1 associated with a repressive multienzymatic protein complex. This leads to deacetylation and methylation of histone H3 surrounding the cyclin B1 gene promoter to epigenetically silence its transcriptional activity. Moreover, T. gondii infection causes DNA hypermethylation in its host cell, by upregulation of DNMTs. ROP16 is already known to activate and phosphorylate protective immunity transcription factors such as STAT 3/6/5 and the tumor suppressor p53 involved in cell cycle progression. Moreover, ROP16 modulates host signaling pathways in a strain-dependent manner. Like in the case of STAT3, the strain-dependent effects of ROP16 on UHRF1 can be attributed to a single amino-acid polymorphism in ROP16. This study demonstrates that Toxoplasma hijacks a new epigenetic initiator, UHRF1, through an early event initiated by the ROP16 parasite kinase.

Toxoplasma gondii

UHFR1

Cycline B1

DNMT

Régulation épigenetique

ROP16

Toxoplasma gondii

UHFR1

ROP16

Cyclin B1

DNMT

Epigenetic regulation

572.6

572.8

Mecanismo de reconhecimento e processamento imune de antígenos aprimorados por radiação gama na toxoplasmose / Mechanism of recognition and immune processing of antigens enhanced by radiation gamma in toxoplasmosis

Costa, Andréa da

26 April 2019

A toxoplasmose, causadas por protozoário Apicomplexa, Toxoplasma gondii, é amplamente disseminada e pouco sintomática. A infecção crônica mantém cistos residuais por toda a vida, mas protege da reinfecção. Neste cenário complexo, vacinas com cistos residuais não são factíveis e vacinas de subcomponentes resultam em baixa proteção. A radiação ionizante foi usada para aprimoramento de imunógenos tanto vivos ou de subcomponentes. O uso da radiação gama em extratos solúveis de taquizoítos de T. gondii foi eficiente na proteção de camundongos contra a infecção utilizando diferentes cepas, sem adjuvantes e de fácil conservação. O antígeno irradiado passa por alterações físicas sem adição de novas moléculas, com agregação de proteínas, quebras de cadeias e reações oxidativas, que podem melhorar seu direcionamento a receptores celulares em células apresentadoras de antígeno (APC). Os extratos irradiados apresentaram alterações estruturais mínimas afetando 60% das proteínas, mas com manutenção das características antigênicas e imunogênicas. O extrato irradiado a 1500Gy (STag 1500Gy) induziu maior proteção e maior resposta humoral que o extrato nativo (p<0.05), mais evidente na dose de 10?g/animal, com altos índices de anticorpos IgG específicos e maior maturação da afinidade de IgG específica, com eficiência similar ou inferior em doses maiores. Animais imunizados com STag 1500Gy apresentaram maiores proporções de linfócitos B e T CD4+ de memória, enquanto que a imunização com taquizoítos íntegros irradiados mostrou aumento de linfócitos T CD8+, ambas muito maiores que a induzida por STag nativo. Construímos STag marcados por via biossintética ou por acoplamento a diferentes marcadores não-oxidativos. STag3H 1500Gy apresentou captação maior e mais duradoura por macrófagos, sem degradação como STag3H nativo. O uso de STags fluorescentes, mostrou que a maior ligação do STag 1500Gy não é relacionada a susceptibilidade a proteases, dada a mesma sensibilidade dos extratos para as peptidases testadas, além de permanecer na célula por muito mais tempo. Na presença de bloqueadores de receptores Scavengers Dextran sulfato (SRA) e Probucol (CD36), a ligação e captação por macrófagos do STag 1500Gy foi mais afetada por inibidores de radicais oxidados (CD36) do que por inibidores de radicais negativos (SRA). Em macrófagos peritoneais de camundongos deficientes do receptor Scavenger CD36 (KOCD36-/-), observamos uma cinética inversa a que foi obtida em macrófagos normais, com menor incorporação do STag 1500Gy, fato comprovado tanto por ensaios quantitativos como por ensaios em células individuais por citometria de fluxo. Os animais KOCD36-/- não mostram produção significativa de IgG específica em todos os imunógenos usados, e foram altamente suscetíveis ao desafio com cepas viáveis de T. gondii agressivas ou cistogênicas. O transplante de macrófagos peritoneais normais \"primados\" com STag 1500Gy em animais KOCD36-/- mostrou aumento de IgG específica em soro de animais recipientes. A melhor imunogenicidade dos antígenos irradiados deve ser relacionada a captação de proteínas oxidadas via CD36, que dirige estes antígenos para via intracelular favorável à sua apresentação para resposta imune adaptativa. Nossos resultados mostram que a radiação ionizante foi capaz de modificar proteínas dos STag tornando seu processamento por células imunes mais eficiente, sem a adição de adjuvantes ao processo. / Toxoplasmosis, caused by the protozoan Apicomplexa, Toxoplasma gondii, is widely disseminated and little symptomatic. Chronic infection maintains residual cysts throughout life, but protects from reinfection. In this complex scenario, vaccines with residual cysts are not feasible and vaccines of subcomponents result in low protection. Ionizing radiation was used for enhancement of either live or subcomponent immunogens. The use of gamma radiation in soluble extracts of T. gondii tachyzoites was efficient in protecting mice against infection using different strains, without adjuvants and easy management. The irradiated antigen undergoes physical changes without addition of new molecules, with protein aggregation, chain breaks and oxidative reactions, which can improve its targeting to cellular receptors in antigen-presenting cells (APCs). The irradiated extracts showed minimal structural alterations affecting 60% of the proteins, but with maintenance of the antigenic and immunogenic characteristics. The extracts irradiated at 1500Gy (STag 1500Gy) induced greater protection and higher humoral response than the native extract (p <0.05), more evident at a dose of 10?g/animal, with high specific IgG antibody levels and increased maturation of specific IgG affinity, with similar or lower efficiency at higher doses. Animals immunized with STag 1500Gy presented higher proportions of memory lymphocytes B and CD4+ while immunization with irradiated intact tachyzoites showed an increase in CD8+ lymphocytes, both much larger than that induced by native STag. We construct STag labeled by biosynthetic pathway or by coupling to different non-oxidative markers. STag3H 1500Gy showed greater and longer uptake by macrophages, with no degradation as STag3H native. The use of fluorescent STags showed that the greater binding of the STag 1500Gy is not related to the loss of protease susceptibility, given the same sensitivity of the extracts for peptidases, besides remaining in the cell for much longer time by fluorescence. In the presence of Scavengers receptor blockers Dextran sulfate (SRA) and Probucol (CD36), binding and uptake of STag 1500Gy in macrophages was more affected by oxidized radical (CD36) inhibitors than by negative radical inhibitors (SRA). In peritoneal macrophages of Scavenger receptor CD36 deficient mice (KOCD36-/-), we observed an inverse kinetics, with less incorporation of STag 1500Gy, as evidenced by both quantitative assays and individual cells by cytometry flow, compared to wild type macrophages. KOCD36-/- animals did not show significant production of specific IgG in all immunogens used, and were highly susceptible to challenge with viable strains of aggressive or cistogenic T. gondii strains. Transplantation of normal peritoneal macrophages \"primed\" with STag 1500Gy induced increase of specific IgG in sera from CD36-/-recipient animals. The best immunogenicity of the irradiated antigens should be related to the uptake of oxidized proteins via CD36 in APCs, which directs these antigens to the intracellular route favorable to their presentation for adaptive immune response. Our results show that ionizing radiation was able to modify STag proteins, making its processing by immune cells more efficient without the addition of adjuvants to the process.

Antígenos

Antigens

Antigens receptors

Ionizant radiation

Proteínas

Proteins

Radiação ionizante

Receptores de antígenos

Toxoplasma gondii

Toxoplasma gondii

Vaccines

Vacinas

Efeito da infecção pelo Toxoplasma gondii na expressão de genes associados à resposta imune em tecidos de suínos / Effect of Toxoplasma gondii infection on immune related tissue gene expression in pigs

Nishi, Sandra Mayumi

30 November 2004

A toxoplasmose é uma zoonose de ampla distribuição mundial afetando homens e diversas espécies animais. Levantamentos sorológicos indicam elevados índices de infecção, porém relatos de doença severa é rara. A infecção pelo T. gondii induz uma intensa resposta imune mediada pelo interferon-&#947; (IFN-&#947;) que rapidamente controla a multiplicação parasitária. Com o objetivo de explorar a resistência da espécie suína à toxoplasmose como modelo de estudo para a compreensão dos mecanismos de defesa a infecção, foram realizadas infecções orais com 4,5 x 105; oocistos (cepa VEG) e colheitas de amostras de linfonodo hepato-esplênico (LN HS), mesentérico (LN M) e íleo-cólico (LN IC), fígado, sangue, íleo, jejuno, baço e timo aos 2, 4, 7 e 14 dias pós-infecção (DPI). Analisou-se a expressão de 69 genes ligados a resposta de defesa às infecções pela Real-Time RT-PCR*. LN M, LN HS e fígado foram as amostras que apresentaram a maior quantidade de genes e maior intensidade de ativação enquanto que células mononucleares de sangue periférico (CMSP) e timo apresentaram reduzida resposta à infecção. A expressão e a produção de IFNG foram mais altas nas amostras de LN M e LN HS comparadas às amostras de LN traqueo-bronquial e CMSP, indicando diferentes níveis de resposta local. Intensa indução de resposta inata e inflamatória foi observada em vários tecidos, envolvendo os genes IL1B, IL6, IFNA1, TNF, ORM1, MYD88, TLR2, TLR4; estimulação de resposta Th1, mediada por IFNG incluiu os genes IRF1, IL23A, IL18, STAT1, SOCS1, SOCS3, ICSBP1, TBX21; balanceada pela expressão de citocinas regulatórias IL10, TGFB1 e TGFB3. Uma proeminente indução de ARG1, INDO and SLC11A1 indica ativação de mecanismos de proteção do hospedeiro envolvendo metabolismo de aminoácidos (arginina, triptofano) e ferro. A presença de parasitas foi detectada no LN M aos 2DPI pela Real-Time PCR e pela imunohistoquímica. Aumento do número de parasitas no 4DPI foi seguida de intensa resposta inflamatória, edema e necrose tecidual no 7DPI principalmente no fígado e no LN M. Elevados níveis de AST sérico no 7DPI confirmam a lesão de hepatócitos. A diminuição da inflamação e da quantidade de parasitas no 14DPI sugerem controle da proliferação parasitária. Elevados níveis de haptoglobina e óxido nítrico séricos detectados aos 4DPI (&#945;=0,05) indicam respectivamente a ativação de proteínas de fase aguda e de macrófagos. A análise de citometria de fluxo mostra elevação da porcentagem de células CD2/CD16 DP sugerindo envolvimento de células NK e não foram observadas alterações na porcentagem de células CD4+/CD8+, CD3+/CD25+. A estimulação na expressão gênica, a produção de IFN-&#947;, as determinações séricas e lesões histológicas apresentam padrão similar, com início de resposta no 2DPI, elevação no 4DPI e 7DPI e diminuição no 14DPI. A análise da expressão de mRNA nos tecidos revelou alguns dos mecanismos de defesa do hospedeiro ativados durante a infecção pelo T. gondii. Observou-se uma equilibrada ativação de citocinas pró- e anti-inflamatórias envolvendo uma intrincada rede de mecanismos co-estimulatórios e regulatórios coordenando a resposta do tipo Th1. *Siglas dos genes segundo o Human Gene Nomenclature Committee (HGNC) / Toxoplasmosis is a widespread zoonosis affecting humans and large range of animal species worldwide. Serological surveillance indicates high infection rates, but rarely is associated to severe disease. T. gondii (Tg) infection induces a strong IFN-&#947; dominated immune response that rapidly controls parasite replication. Pig resistance to toxoplasmosis was explored as an experimental model to evaluate host defense mechanisms. Pigs were fed 4.5 x 105 oocysts (VEG strain) and hepato-splenic (HS LN), mesenteric (MLN) and ileal lymph nodes (I LN), liver, blood, ileum, jejunum, spleen and thymus samples were collected at 2, 4, 7 and 14 days after infection (DAI). Gene expression analysis for a panel of 69 immune related genes were performed by Real-Time RT-PCR*. Most intense response were detected in MLN, HS LN and liver samples, whereas low changes were observed in periferic blood monocytes (PBMC) and thymus. IFNG mRNA expression and protein production were higher in MLN and HSLN cells than in tracheo-bronchial LN and PBMC, suggesting different levels of local response. Intense innate and inflammatory induction were observed in most of the tissues involving IL1B, IL6, IFNA1, TNF, ORM1, MYD88, TLR2, TLR4; stimulation of IFNG dominated Th1 response included IRF1, IL23A, IL18, STAT1, SOCS1, SOCS3, ICSBP1, TBX21; balanced by expression of regulatory cytokines IL10, TGFB1 and TGFB3. Prominent ARG1, INDO and SLC11A1 upregulation indicate activation of host amino acid (arginine and tryptophan) and iron protective mechanisms. Tg parasites were detected by Real-Time PCR and immunohistochemistry in MLN as early as 2DAI. Increase of parasite burden at 4DPI was followed by an intense inflammatory response, edema and tissue necrosis in liver and LNM at 7DPI. Increased serum AST levels at 7DPI confirmed liver damage. Reduced parasite numbers and inflammatory response suggest control of parasite replication at 14 DPI. High serum haptoglobin and nitric oxide at 4DAI (&#945;=0.05) indicate acute phase protein and macrophage activation, respectively. Flow citometry analysis showed increased percentage of CD2/CD16 DP suggesting involvement of NK cells, whereas no changes were observed at CD4+/CD8+, CD3+/CD25+ cells. Gene expression stimulation, IFN-&#947; production, serum determinations and histological lesions showed similar pattern, of induction at 2DPI, increasing at 4DPI and 7DPI and decreasing at 14DPI. Tissue mRNA expression analysis revealed some of the host defense mechanisms activated during T. gondii infection. A balance of pro- and anti-inflammatory cytokine activation, involving an intricated co-stimulatory and regulatory mechanisms that coordinates Th1 response was observed.*Gene names according to Human Gene Nomenclature Committee (HGNC)

Expressão gênica

Gene expression

Immunology

Imunologia

Pig

Real-Time RT-PCR

Real-Time RT-PCR

Suínos

Toxoplasma gondii

Toxoplasma gondii

Avaliação da imunidade e proteção induzida em modelos experimentais por extrato solúvel de taquizoítos de Toxoplasma gondii irradiado por 60CO. / Evalution of immunity and protection induced in experimental models by soluble extract of Toxoplasma gondii tachyzoites irradiated by 60Co.

Costa, Andréa da

03 February 2014

A toxoplasmose afeta 1/3 da população humana e só existe uma vacina para uso veterinária. A radiação gama altera as proteínas tornando-as mais imunogênicas, por oxidação e melhor apresentação de antígenos na ausência de adjuvantes. Irradiamos extrato solúvel de taquizoítos da cepa RH de T. gondii (AgTg), e avaliamos seu uso como vacina em camundongos BALB/c. Doses abaixo de 500Gy não afetavam e doses acima de 2000Gy destruíam o extrato, sendo que animais imunizados com extrato irradiado a 1000, 1500 e 2000Gy tinham mais IgG especifica de maior avidez, comparado ao AgTg nativo (p<0.05). Animais imunizados pelo AgTg 1500Gy tiveram aumento da proliferação de esplenócitos, fenotipados como CD3+CD4+, CD3+CD8+ e de linfócitos B, comparados com animais imunizados pelo AgTg nativo. Animais imunizados pelo AgTg 1500Gy após desafio com cepa ME-49 cistogênica apresentaram menor numero de cistos cerebrais e maior sobrevida pós-desafio com cepa virulenta RH. A radiação ionizante em extratos de T.gondii aumenta a resposta imune e a memória imunológica na ausência de adjuvantes. / Toxoplasmosis affects 1/3 of the human population and only a vaccine for veterinary use. Gamma radiation alters the proteins making them more immunogenic by oxidation and better antigen presentation in the absence of adjuvants. Radiate soluble extract of RH strain tachyzoites of T. gondii (AgTg ) , and evaluate its use as a vaccine in BALB/c . Doses below 500Gy not affected and destroyed 2000Gy doses above extract, whereas animals immunized with irradiated extract at 1000, 1500 and 2000Gy had more of specific IgG avidity, compared to native AgTg (p < 0, 05). AgTg 1500GY the immunized animals had increased proliferation of splenocytes, phenotyped as CD3+CD4+,CD3+CD8+ and B-lymphocytes immunized animals compared to the native AgTg . Animals immunized by AgTg 1500GY after challenge with strain ME- 49 cystogenic showed lower number of brain cysts and greater survival after challenge with virulent RH. Ionizing radiation in extracts of T. gondii increases the immune response and immune memory in the absence of adjuvants.

Toxoplasma gondii

Toxoplasma gondii

Antibodies

Anticorpos

Células de memória

Immune response

Ionizing radiation

Memory cells

Proteção

Protection

Radiação ionizante

Resposta imune

Efeito da infecção crônica por Toxoplasma gondii durante a sepse polimicrobiana experimental / Effect of chronic infection by Toxoplasma gondii during experimental polymicrobial sepsis.

Souza, Maria do Carmo

15 April 2013

A maioria dos estudos da interação parasito-hospedeiro tem focado na interação de um único patógeno. Porém, o hospedeiro em um ambiente natural é comumente exposto a múltiplos patógenos sequencialmente ou mesmo simultaneamente. Diversos estudos têm utilizado o modelo de Ligadura e perfuração do Ceco (CLP) para estudar a sepse, mas nenhum deles apresentou modelo de coinfecção ou estudo avaliando o papel de infecções prévias no desfecho da sepse polimicrobiana experimental. Neste contexto, nossa hipótese é de que a infecção crônica por parasitos poderia alterar o curso da resposta durante a sepse polimicrobiana. Para testar essa hipótese, animais C57BL/6 ou BALB/c foram infectados com 5 ou 20 cistos da cepa ME 49 de Toxoplasma gondii e 40 dias após a infecção os animais foram induzidos à sepse polimicrobiana. Em nosso estudo, 100% dos animais cronicamente infectados por T. gondii morreram num período de 24 horas após CLP. O mesmo não foi observado quando animais foram infectados cronicamente com os parasitos Leishmania major e Trypanosoma cruzi ou com o fungo Paracoccidioides brasiliensis. Um dado interessante em nosso estudo foi que, nos animais previamente infectados com T. gondii, constatamos melhora na eliminação de bactérias liberadas pela CLP e aumento do recrutamento celular para o sítio da infecção. Apesar de esses animais apresentarem melhora na resposta contra as bactérias, verificamos a presença de lesão intestinal e maior infiltrado inflamatório neste órgão, associado a um aumento da produção de citocinas pró-inflamatórias (IFN-, TNF-, IL-6 e IL-1) e consequente aumento de óxido nítrico (NO), num período de 24 horas depois da CLP. Verificamos que as células TCD4+ e TCD8+ são responsáveis pela produção de IFN- e TNF- nesse modelo de coinfecção, e em modelo in vitro, que macrófagos podem ser responsáveis pela produção de IL-1 dependente de ativação do inflamassoma NLRP3/ASC/Caspase 1. Neste estudo, observamos que a rápida resposta contra a CLP acontece em função da presença de células de memória de padrão Th1, induzidas na infecção por T. gondii. Dessa forma, esse trabalho mostra que a infecção crônica por T. gondii agrava a sepse polimicrobiana subletal, por aumentar a produção de citocinas pró-inflamatórias IL-6, TNF- e IL-1, com a indução de hipotensão, predispondo ao choque séptico. / Most studies of parasite-host interaction have focused on the interaction of a single pathogen with cells or organism of the host. However, in a natural enviroment, the host is commonly exposed to multiple pathogens sequentially or even simultaneously. Several studies have used the model of cecal ligation and puncture (CLP) to study sepsis, but none of them evaluated the effect of the presence of previous infections to the outcome of polymicrobial sepsis. In this context, we hypothesized that chronic infection with Toxoplasma gondii could alter the course of host response against polymicrobial sepsis. To test this hypothesis, C57BL/6 or BALB/c mice were orally infected with 5 or 20 cysts of ME-49 strain of T. gondii and 40 days post infection, they were subjected to CLP. When mice were chronically infected with T. gondii, 100% of the animals died within 24 hours after CLP. The same phenomenons were not observed in animals previously infected with other parasites, such as Leishmania major and Trypanosoma cruzi or the fungus Paracoccidioides brasiliensis. Interestingly, when we evaluated the response against the CLP in animals that were infected with T. gondii, we found an improvement in the killing of bacteria released by CLP and an increase in recruitment of inflammatory cells to the site of infection. However, despite the fact that these animals have improved response against the bacterial infection, they presented intestinal damage and increased inflammatory infiltrate in this organ. The animals also had increased pro-inflammatory cytokines (IFN-, TNF-, IL-6 and IL-1), and nitric oxide (NO) detected within 24 hours after CLP. We also found that the TCD4+ and TCD8+ cells were responsible to produce IFN- and TNF-, and, using an in vitro model, we verified that macrophages are primarily responsible for the production of IL-1 in a pathway dependent on the activation of NLRP3/ASC/Caspase 1 inflamassoma. In this study, we found that early response against CLP happens due to the presence of mainly Th1 memory cells, induced by T. gondii infection. Finally, we found that chronic infection with T. gondii aggravates sublethal polymicrobial sepsis by increasing the cytokines IL-6, TNF- and IL-1, with induction of hypotension that predispose to septic shock.

Choque séptico

CLP

CLP

Gut Inflammation

Imunidade da mucosa

Inflamação intestinal

Mucosal Immunity

Sepse

Sepsis

Septic shock.

Toxoplasma gondii

Toxoplasma gondii

Multiple routes of phosphatidylethanolamine biogenesis ensure membrane integrity of Toxoplasma gondii

Hartmann, Anne Kathrin

20 April 2016

Toxoplasma gondii ist ein weit verbreiteter, obligat-intrazellulärer, einzelliger Parasit, der die lebensbedrohliche Krankheit Toxoplasmose in Menschen und Tieren hervorrufen kann. Der schnell replizierende Parasit benötigt erhebliche Mengen an Phospholipiden zur Biogenese intra- und extrazellulärer Membranen. Phosphatidylethanolamin (PtdEtn) ist ein wichtiges und ubiquitäres Phospholipid in Pro- und Eukaryoten und das zweithäufigste Lipid in T. gondii. Dieses kann de novo über den CDP-Ethanolamin Stoffwechselweg oder durch Decarboxylierung von Phosphatidylserin synthetisiert werden. Im Rahmen dieser Arbeit konnte die Expression von zwei distinkten Phosphatidylserin Decarboxylasen (PSDs) in T. gondii nachgewiesen werden: TgPSD1pv ist partiell löslich und wird über Dichte Granula in die Parasitophore Vakuole sekretiert, während sich TgPSD1mt im Mitochondrium von Tachyzoiten befindet. TgPSD1mt ist in der Lage einen Ethanolamin-auxotrophen S. cerevisiae Stamm zu komplementieren. Ein Knock-down von TgPSD1mt in T. gondii verursacht eine verlangsamte Parasitenreplikation, welche zu einem verminderten in vitro Wachstum führt. Der PtdEtn-Gehalt in der Mutante bleibt unverändert, was auf eine stringente Homöostase des zellulären PtdEtn Reservoirs durch alternative Lipidbiogenesewege hindeutet. Tatsächlich verfügt T. gondii zusätzlich über einen aktiven CDP-Ethanolamin Stoffwechselweg im Endoplasmatischen Retikulum, welcher den Verlust von TgPSD1mt partiell kompensieren kann. Das zweite, sekretierte TgPSD1pv-Enzym hingegen scheint für das Parasitenwachstum in vitro entbehrlich zu sein. Infektionsversuche mit radioaktiv markierten Wirtszellen zeigten zudem eine Aufnahme von PtdEtn oder PtdEtn-Derivaten in intrazellulär replizierenden Tachyzoiten. Diese Ergebnisse demonstrieren eine außergewöhnliche Kompartmentalisierung und Plastizität der PtdEtn-Synthese in T. gondii. / Toxoplasma gondii is a remarkably successful and widespread obligate intracellular protozoan parasite, which can cause the potentially life threatening disease Toxoplasmosis in humans and animals. The fast proliferating parasite requires a significant amount of phospholipids for biogenesis of organelles and enclosing vacuolar membranes. Phosphatidylethanolamine (PtdEtn) is one of the most ubiquitous phospholipids and the second most abundant lipid in T. gondii. It can be produced de novo by the CDP-ethanolamine pathway or by decarboxylation of phosphatidylserine. This work revealed the expression of two distinct PtdSer decarboxylase (PSD) enzymes in T. gondii: One of which is Coccidia-specific and partially soluble and secreted into the parasitophorous vacuole via dense granules (TgPSD1pv), and a second enzyme that localizes in the mitochondrion (TgPSD1mt) of tachyzoites. The mitochondrial PSD can complement a S. cerevisiae mutant auxotrophic for ethanolamine. A conditional knockdown of the TgPSD1mt gene impairs the parasite growth in vitro. Surprisingly, the mutant displayed an unaltered total PtdEtn content, which suggests a stringent homeostasis of the cellular PtdEtn pool by alternative routes of lipid biogenesis. Consistently, the parasite encodes an active CDP-ethanolamine pathway in the endoplasmic reticulum. Metabolic labeling of the TgPSD1mt mutant displayed an increased utilization of ethanolamine into PtdEtn, indicating an upregulation of the de novo CDP-ethanolamine pathway. Likewise, exogenous ethanolamine partially restored the growth phenotype of the mutant. In contrast, the TgPSD1pv enzyme is dispensable for the parasite growth. Host cell pre-labeling with radioactive ethanolamine indicated a potential uptake of host-derived PtdEtn or PtdEtn-derivates by intracellular parasites. Taken together, these results demonstrate an exceptional compartmentalization and plasticity of the PtdEtn synthesis in T. gondii.

Toxoplasma gondii

Lipidbiosynthese

Phosphatidylethanolamin

Phosphatidylserin Decarboxylase

Toxoplasma gondii

lipidbiosynthesis

phosphatidylethanolamine

phosphatidylserine decarboxylase

570 Biowissenschaften, Biologie

32 Biologie

ddc:570

Biogenesis and functions of phosphatidylserine and phosphatidylthreonine in Toxoplasma gondii

Arroyo-Olarte, Ruben Dario

13 November 2014

Toxoplasma gondii ist wohl der am besten an den Menschen und Tieren angepasste Parasit der Welt und eine der Hauptursachen für Abtreibungen und opportunistsiche Infektionen. Das Verständnis der Stoffwechselflexibilität dieses Parasiten ist essentiel um seine Anpassungsfähigkeit nachzuvollziehen. Lipide sind Grundbestandteile der biologischen Membranen. Doch in den letzten Jahrzehnten sind neben der Biogenese der Membranen noch weitere Funktionen entdeckt worden. Hier berichten wir zum ersten Mal über Phosphatidylthreonin (PtdThr) als Hauptphospholipid von T. gondii und zeigen seine Beziehung mit seinem archetypischen Analogon, Phosphatidylserin (PtdSer). Wir identifizieren auch ein neues Parasitenenzym (TgPTS), welches von der regulären PtdSer-Synthase-Familie abgewichen ist und dieses sonst selten vorkommende Lipid synthetisiert. Die Gendeletion von TgPTS stoppte nicht nur die Synthese von PtdThr, sondern auch stark beeinträchtigt den lytischen Zyklus von T. gondii, insbesondere beim Aus- und Eintritt in die Wirtszellen, ohne dabei die Replikation des Parasiten zu verhindern. Unsere Arbeit zeigt, dass entweder ein niedriger Ca2+-Pool oder eine verminderte Ca2+-Mobilisierung aus dem endoplasmatischen Retikulum des Parasiten eine reduzierte Motilität verursachen, welche den beobachteten Phänotypen zugrunde liegt. Darüber hinaus fehlt es den mutierten Parasiten an PtdThr (Δtgpts), sie sind avirulent und üben vollständigen Schutz gegen akute und chronische Toxoplasmose in einem Mausmodell aus. Diese Ergebnisse verdeutlichen die Bedeutung der Parasitenlipide als therapeutisches Ziel und von genetisch abgeschwächten Stämmen für die Entwicklung von wirksamen Impfstoffen gegen Kokzidien. / Toxoplasma gondii is arguably the most succesful parasite in Earth and a major cause of abortion and opportunistic infections in humans and livestock. Understanding the metabolic flexibility of this parasite is essential to comprehend its adaptability. Lipids are basic components of biological membranes. However, in the last decades non-customary roles for lipids beyond membrane biogenesis have been recognized. Here we report for the first time phosphatidylthreonine (PtdThr) as a major phospholipid in T. gondii and show its relationship with its archetypical analog, phosphatidylserine (PtdSer). We also identify a novel parasite enzyme (TgPTS), which diverged from the mainstream PtdSer-synthase family to produce this otherwise rare lipid. Genetic ablation of TgPTS not only abolished PtdThr synthesis, but also impaired severely the lytic cycle of T. gondii, particularly the egress but also the invasion into host cells without affecting the parasite replication. Our work indicates that, either a lower Ca2+ pool and/or a diminished Ca2+ mobilization from the parasite endoplasmic reticulum cause a reduced gliding motility, which underlies the observed phenotypes. Moreover, the mutant parasites lacking PtdThr (Δtgpts) are avirulent and exert full protection against both, acute and chronic toxoplasmosis in a murine model. These results highlight the importance of parasite lipids as therapeutic targets and of genetically-attenuated strains in the development of effective vaccines against coccidian parasites.

Virulenz

Toxoplasma gondii

Phosphatidylserin

Phosphatidylthreonin

Virulence

Toxoplasma gondii

Phosphatidylthreonine

Phosphatidylserine

570 Biowissenschaften, Biologie

32 Biologie

XD 9391

ddc:570