Análise dos mecanismos protetores desencadeados pela oxigenação hiperbárica na malária cerebral / Effects of hiperbaric oxigenation in Plasmodium spp experimental infection

Blanco, Yara Carollo, 1980-

28 March 2007

Orientador: Fabio Trindade Maranhão Costa / Tese (doutorado) - Universidade Estadual de Campinas, Instituto de Biologia / Made available in DSpace on 2018-08-20T23:13:46Z (GMT). No. of bitstreams: 1 Blanco_YaraCarollo_D.pdf: 7163711 bytes, checksum: 880b23b56e210670cf37c82408110b1b (MD5) Previous issue date: 2012 / Resumo: A Malária é a principal doença parasitária do mundo, infectando 300-500 milhões de pessoas e levando ao óbito cerca de 1 milhão de indivíduos anualmente. As infecções maláricas geralmente não apresentam complicações, no entanto, infecções por Plasmodium falciparum podem se desenvolver em formas graves da doença, como a malaria cerebral. A malaria cerebral e considerada uma síndrome multifatorial, envolvendo a citoadesão de eritrócitos infectados por P. falciparum (EIPf) através de diferentes receptores como CD36, ICAM-1, VCAM, P-selectina e E-selectina, sendo o ICAM-1 apontado como o principal receptor. Varias evidências sugerem ainda que o desbalanço da resposta imune do hospedeiro, a ativação endotelial e alterações na cascata de coagulação desempenham papel importante na patogênese da MC. Além disso, outros fatores como a presença de heme livre e NOS também tem sido apontados como essenciais para o desenvolvimento da MC... Observação: O resumo, na íntegra, poderá ser visualizado no texto completo da tese digital / Abstract: Malaria still is a major parasitic disease in the world, infecting 300-500 million people and leading to death about 1 million people annually. Usually malaria infections do not lead to complications, however some infections, mainly, by Plasmodium falciparum can evolve into severe forms of disease such as cerebral malaria (CM). CM is considered a multifactorial syndrome involving cytoadhesion of P. falciparum-infected erythrocytes (PfEI) to different host receptors such as CD36, VCAM, P-selectin and E-selectin and ICAM-1 , which is considered the main receptor involved in MC. A large body of evidences suggests that the imbalance of the host immune response, endothelial activation and changes in the coagulation cascade play an important role in the pathogenesis of CM. Moreover, of free heme, and NOS has also been identified as essential for the development of CM...Note: The complete abstract is available with the full electronic document / Doutorado / Parasitologia / Doutor em Parasitologia

Oxigenação hiperbárica

Malaria cerebral

Plasmodium

Neuroproteção

Hyperbaric oxigenation

Cerebral malaria

Plasmodium

Neuroprotection

Paludisme A Plasmodium Falciparum pendant la grossesse et l'enfance : caractérisation moléculaire et immunologique / Plasmodium falciparum malaria in pregnancy and childhood : molecular and immunological caracterization

Moussiliou, Azizath

15 December 2015

Ce travail avait pour objectif, de caractériser le poids des infections au cours de la grossesse et d’étudier la construction de l’immunité anti-PfEMP1 chez le jeune enfant. La première partie, aborde la conséquence des infections et l’efficacité des traitements chez la mère. Cette étude réalisée sur la cohorte de femmes d’une étude prospective au Bénin, a démontré l’impact des infections à bas bruit sur le taux d’hémoglobine maternel et le faible poids de l’enfant. Le TPI-SP, a montré les limites quant à sa capacité à débarrasser les femmes enceintes infectées au moment du traitement de leur parasite. Nos résultats soutiennent davantage la nécessité de trouver des moyens alternatifs de prévention qui offrent une meilleure couverture de la grossesse. La deuxième partie aborde la construction de l’immunité anti-PfEMP1 dans la première année de vie chez l’enfant. Un résultat majeur de cette étude est la démonstration que l’acquisition des anticorps contre les PfEMP1 associés aux complications du paludisme est dépendante des infections patentes de l’enfant. La troisième partie aborde les phénotypes des parasites responsables de diverses formes cliniques du paludisme chez l’enfant Africain âgé de 0 à 5 ans. Cette étude a permis de mettre en évidence un marqueur de mauvais pronostic du paludisme cérébral. Sur un deuxième volet, nous avions montré que les isolats adhérant faiblement à ICAM-1, transcrivent fortement les gènes codant pour les PfEMP1 contenant des motifs DC8. Ces résultats soulèvent la question du rôle de EPCR dans la physiopathologie du neuropaludisme. Le travail développé dans cette thèse a permis de décrire pour la première fois la construction de l’immunité anti-PfEMP1 dans la première année de vie, de mettre à jour les connaissances sur la physiopathologie du paludisme cérébral chez le jeune enfant et de dégager des pistes à explorer prioritairement dans la perspective du développement d'un vaccin contre les formes graves du paludisme. / This work aimed to characterize the burden of P. falciparum infections during pregnancy and to study the construction of the anti-PfEMP1 immunity in the early life. The first part discusses the consequence of infection and the effectiveness of treatments in the mother. This study on the cohort of women from a prospective study in Benin, demonstrated the impact of infections with low parasitemia on the maternal hemoglobin and low weight of the child. IPT-SP, has shown the limits of its ability to rid infected pregnant women in the processing of their parasite. Our results further support the need to find alternative means of prevention that provide better coverage of pregnancy. The second part treated the construction of the anti-PfEMP1 immunity in the first year of life in children. A major finding of this study is the demonstration that the acquisition of antibodies against the PfEMP1 associated with complications of malaria depends on patentes infections in children. The third part studies parasites phenotypes responsible of various clinical forms of malaria in African children aged 0-5 years. This study allowed finding a marker of poor prognosis of cerebral malaria. On a second component, we showed that isolates bind to ICAM-1, highly transcribe the genes encoding PfEMP1 containing DC8. These results raise the question of the role of EPCR in the pathophysiology of cerebral malaria. The work developed in this thesis has allowed describing for the first time the construction of the anti-PfEMP1 immunity in the first year of life, to update knowledge on the pathophysiology of cerebral malaria in young children and identify Options to be primarily from the perspective of developing a vaccine against severe forms of malaria.

Cytoadhérence

PfEMP1

Immunité

Neuropaludisme

RT-QPCR

Tpi

Malaria

PfEMP1

Cerebral malaria

616.93

How Plasmodium falciparum malaria parasites bind to human brain endothelial cells

Claessens, Antoine

January 2011

Cerebral malaria is characterised by an accumulation of infected erythrocytes in the microvasculature of the brain. Plasmodium falciparum infected erythrocytes have been shown to bind to a Human Brain Endothelial Cell line (HBEC-5i) in vitro. This provides a model for the investigation of interactions between P. falcuparum and human brain endothelium. Currently neither the parasite adhesion ligands on infected erythrocytes, nor the host endothelial cell receptors necessary for this interaction have been identified. In this work, the identity of the host receptor on brain endothelial cells was addressed by binding assays of selected and unselected parasites on a wide range of malaria-associated host molecules. The identity of the parasite ligand was investigated by microarray analysis of parasites after selection for cytoadherence to HBEC-5i. The hypothesis being tested was that the gene encoding the parasite cytoadherence ligand would show significant upregulation in selected compared to unselected paarasites. The P. falciparum laboratory strains 3D7, HB3 and IT/FCR3 were selected for binding to HBEC-5i using a panning assay. Compared to unselected parasites, HBEC-5i selected parasites showed a distinct phenotype with reduced platelet-mediated clumping. There was no significant increase in binding of parasites to any of the known endothelial cytoadherence receptors for P. falciparum after selection on HBEC-5i. Binding inhibition assays with various antibodies and soluble receptors did not greatly block the adhesion of parasites to HBEC-5i except for heparin. Altogether, the receptor(s) mediating the interation with HBEC-5i remains unknown. In order to carry out transcriptional analysis of selected and unselected paarasites form all three parasite strains, it was necessary to update the existing microarray chip which is based on the 3D7 genome. This is because each parasite train has a unique repertoire of variant surface antigens (VSAs) including var, rif and stevor genes. Therefore, to fully analysis HB3 and IT genomes. Unique oligonnucleotide probes were then designed for each new sequence and the 3D7-based microarray chip was updated. Transcriptional analysis was then carried out on selected and unselected parasites of all strains. Microarray data clearly indicated that the most highly upregulated genes after selection were group A or group A-like var genes (HB3var3, 3D7_PFDOO2Oc, ITvar7 and ITvar19), showing 11 to over 100 fold upregulation in selected parasites. The rif gene adjacent to the upregulated var gene was also highly expressed. To a lesser extent some exported proteins like RESA-1, PfEMP3 or PHIST family members also showed increased transcription in HBEC-selected parasites (2-3 fold upregulation). Reverse transcriptase-PCR confirmed the upregulation of group A var genes in selected parasites, suggessted that the group A PfEMP1 variants are major candidate ligands for parasite binding to HBEC-5i. These findings are consistent with previous work showing an association between Group A var genes and cerebral malaria.

616.9883

Genetic analysis of murine malaria

Campino, Susana

January 2003

Malaria, an infectious disease caused by Plasmodium parasites, is one of the major world-scale health problems. Despite the efforts aimed at finding an effective way to control the disease, the success has been thwarted by the emergence of parasite drug resistance and mosquito resistance to insecticides. This thesis focuses on the genetic analysis of resistance to murine malaria induced by the lethal Plasmodium berghei ANKA using a wild-derived-inbred strain (WDIS). The aim of this thesis was to exploit the genetic diversity represented among WDIS for identifying loci contributing to resistance/susceptibility to murine malaria. The work included a genome-wide polymorphism survey using microsatellite markers performed on 10 WDIS. Comparisons of these strains to laboratory inbred strains confirmed a higher rate of polymorphism among the WDIS. We conclude that these WDIS represent repositories of unique naturally occurring genetic variability that may prove to be invaluable for the study of complex phenotypes. Next, we used the WDIS to search for novel phenotypes related to malaria pathogenesis. Whereas most laboratory strains were susceptible to experimental cerebral malaria (ECM) after infection with P. berghei ANKA, several WDIS were found to be resistant. To study the genetic inheritance of resistant/susceptibility to P. berghei ANKA infection we analysed backcross and F2 cohorts derived from crossing the WLA wild-derived strain with a laboratory mouse strain (C57BL/6). A novel phenotype represented by the cure of infection, clearance of parasitaemia and establishment of immunological memory was observed in the F2 progeny. The backcross progeny was used to genetically map one locus on chromosome 1 (Berr1) and one locus on chromosome 11 (Berr2) that mediate control of resistance to ECM induced by P. berghei ANKA. Genetic mapping using the F2 progeny showed that a locus on chromosome 1 (Berr1) and a locus on chromosome 9 (Berr3) were contributing to control survival time after infection with lethal Plasmodium. Finally, we identified, a locus on chromosome 4 (Berr4) that appears to control time of death due to hyperparasitaemia. This thesis underlines the value of using WDIS to reveal genetic factors involved in the aetiology of disease phenotypes. The characterisation of the genetic factors represented by the malaria resistance loci identified here are expected to provide a better understanding of the malaria pathology.

Genetics

Malaria

genetic analysis

Plasmodium

wild derived inbred strains

loci

cerebral malaria

hyperparasitaemia.

Genetik

Clinical genetics

Klinisk genetik

Indução de imunidade com extrato proteico de Plasmodium berghei NK65 contra o desenvolvimento de malária cerebral por Plasmodium berghei ANKA em modelo murino

Carpinter, Bárbara Albuquerque

28 February 2018

Submitted by Renata Lopes (renatasil82@gmail.com) on 2018-09-20T13:42:20Z No. of bitstreams: 0 / Approved for entry into archive by Adriana Oliveira (adriana.oliveira@ufjf.edu.br) on 2018-10-16T11:34:15Z (GMT) No. of bitstreams: 0 / Made available in DSpace on 2018-10-16T11:34:15Z (GMT). No. of bitstreams: 0 Previous issue date: 2018-02-28 / Devido à ampla distribuição da malária entre os continentes e ao elevado número de casos clínicos e óbitos registrados anualmente, o desenvolvimento de uma vacina antimalárica segura e eficaz contra a doença ainda é de extrema importância. Dentre os vários modelos propostos até o momento, aquelas compostas por parasitos vivos ou por extrato proteico têm sido as mais promissoras no desenvolvimento de imunidade antimalárica. Entretanto, ainda não claro se imunizações com cepas com baixo potencial de virulência seriam capazes de prevenir ou amenizar os sintomas associados à malária grave. Assim, o presente estudo teve como objetivo investigar se camundongos imunizados com extrato proteico de Plasmodium berghei NK65, cepa de baixa virulência e não indutora de malária cerebral nesse modelo, são protegidos contra o desenvolvimento de malária cerebral induzida pela cepa ANKA de Plasmodium berghei (PbA). Para isto, foram realizados dois ciclos de imunização utilizando extrato proteico de Plasmodium berghei associado ao adjuvante CPG-ODN, com intervalo de 21 dias, em camundongos fêmeas C57BL/6, com idade entre 6 e 8 semanas. Após 30 dias da última imunização foi realizado o desafio experimental utilizando a cepa ANKA de P. berghei e iniciado o acompanhamento diário dos animais para avaliação do seu quadro clínico e da carga parasitária. Diante da presença de sinais neurológicos (escore clínico < 5), os animais foram pesados e eutanasiados para realização da coleta de sangue, baço e cérebro, enquanto animais sem esses sinais continuaram por ser acompanhados diariamente e, então, sacrificados a partir do 13º dia. A partir das amostras coletadas, foram determinados os níveis de anticorpos sorológicos, a frequência da população celular esplênica (células T CD4+ e CD8+, e linfócitos B), níveis de citocinas teciduais e análise histopatológica do tecido nervoso. Observouse que 46% dos animais imunizados com extrato de PbN e 69% dos animais imunizados com extrato de PbA foram protegidos do desenvolvimento de malária cerebral e tiveram sua taxa de sobrevivência prolongada, entretanto, estes animais desenvolveram hiperparasitemia sanguínea, com níveis de até 38% de parasitos circulantes. Estes animais não apresentaram sinais clínicos neurológicos, o que foi confirmado macroscopicamente pela ausência de hemorragia e reduzida inflamação no cérebro em relação aos animais que evoluíram para malária cerebral. Histopatologicamente, os animais com hiperparasitemia apresentaram poucos leucócitos aderidos ao endotélio vascular e ausência de vasos obstruídos. Em relação aos níveis de citocinas (IL-10, TNF-α, IFN-) e número de linfócitos esplênicos (T CD4+ e CD8+, e linfócitos B), estes estiveram significativamente reduzidos nos animais que desenvolveram hiperparasitemia em relação aos que desenvolveram malária cerebral. Interessantemente, os animais imunizados foram capazes de reconhecer tanto antígenos homólogos quanto heterólogos ao utilizado durante o processo de imunização, porém, esses anticorpos pareceram não influenciar o padrão clínico apresentado pelos animais. Portanto, nosso estudo demonstra que imunizações com parasitos de baixa virulência podem induzir imunidade capaz de proteger contra cepas altamente virulentas, mas os fatores que medeiam essa proteção ainda precisam ser melhor investigados. / The broad distribution of malaria around of the globe and the large number of clinical cases/deaths attributed to this disease turns the discovery of a safe and effective malaria vaccine an essential tool to halt the spread of the disease. Vaccines focused on the use of live parasites and crude parasites antigens have shown good results on the induction of antimalarial immunity, although it is still not clear if immunizations with low virulent strains are capable to prevent the development of symptoms of cerebral malaria. This research aim to investigate if immunizations with crude antigen of Plasmodium berghei NK65 (PbN), a low virulence strain noninductive of cerebral malaria in C57BL/6 mice, are able to protect the animals against the development of cerebral malaria after challenge with Plasmodium berghei ANKA (PbA). Mice were immunized twice with crude antigen associated to CPG-ODN adjuvant. Thirty days after the second immunization animals were challenged with 105 red blood cells infected with P. berghei ANKA. Animals were daily monitored to evaluate the clinical score and parasitaemia levels. If the presence of neurological signs (score < 5) were detected, animals were euthanized and blood samples, spleen and brain were collected; animals without neurological commitment were followed daily until the 14 day post-infection. Antibodies and cytokines levels, splenic cellular population (T CD4+, T CD8+ and B lymphocytes) and histopathological analysis were performed. The results showed that 46% of the animals immunized with crude antigen of PbN and 69% of the animals immunized with crude antigen of PbA were protected from the development of cerebral malaria and had their survival rate prolonged, however, these animals developed hyperparasitaemia, with levels up to 38% of circulating parasites. These animals did not present neurological signs which were confirmed macroscopically by the absence of hemorrhage and reduce brain inflammation in relation to the animals that evolved to cerebral malaria. Histopathologically, the animals with hyperparasitaemia presented few adhered leukocytes in the vascular endothelium and absence of obstructed vessels. In relation to cytokine levels and number of splenic lymphocytes, these were significantly reduced in animals that developed hyperparasitism in comparison with those who developed cerebral malaria. Interestingly, the immunized animals were able to recognize both homologous and heterologous antigens used during the immunization process, however, these antibodies did not appear to influence at the clinical condition presented by the animals. Therefore, our study demonstrates that immunizations with low virulence parasites may induce immunity capable of protecting against highly virulent strains, but the factors that mediate this protection still need to be better investigated.

CNPQ::CIENCIAS BIOLOGICAS

Malária cerebral

Hiperparasitemia

Imunização

Extrato proteico

Plasmodium berghei

Cerebral malaria

Hyperparasitaemia

Immunizations

Crude antigen

Plasmodium berghei

Biochemical determinants of nitric oxide synthesis in severe malaria

Alkaitis, Matthew S.

January 2014

Inhibition of nitric oxide (NO) signalling may contribute to the pathogenesis of severe malaria. This thesis examines the impact of Plasmodium infection on three key determinants of nitric oxide synthase (NOS) biochemistry: substrate availability, substrate/inhibitor homeostasis and cofactor availability. Arginine, the NOS substrate, is depleted in human patients with severe Plasmodium falciparum malaria and mice infected with P. berghei ANKA. Using heavy isotope tracer infusions to quantify arginine metabolism in infected mice, we found no evidence of increased catabolism by the enzyme arginase, widely assumed to be responsible for arginine depletion. Genetic knock-out of parasite arginase had no effect on arginine depletion in mice. Instead, our findings link arginine depletion to decreased rates of arginine and citrulline appearance in the plasma of infected mice. Asymmetric dimethylarginine (ADMA) competes with arginine for binding to the NOS catalytic site. We observed elevation of the ADMA/arginine ratio in Gambian children with severe malaria, favouring NOS inhibition. In mice infected with P. berghei ANKA, we found evidence of degradation of dimethylarginine dimethylaminohydrolase 1 (DDAH1), the enzyme primarily responsible for ADMA metabolism. We also observed reduced DDAH activity and accumulation of intracellular ADMA in hepatic tissue of infected mice, suggesting that DDAH dysfunction could contribute to disruption of ADMA/arginine homeostasis. Tetrahydrobiopterin (BH4) is an essential NOS cofactor. In P. berghei ANKA-infected mice, BH4 concentrations were decreased in plasma, erythrocytes and brain tissue, which could inhibit NO synthesis and promote NOS-dependent superoxide production. To reverse deficiencies of NOS substrate and cofactor availability, we infused P. berghei ANKA-infected mice with citrulline, an arginine precursor, and sepiapterin, a BH4 precursor. Restoration of systemic arginine and BH4 availability in infected mice improved whole blood nitrite concentrations, a biomarker of NO synthesis, but did not prevent onset of disease symptoms. These studies have identified biochemical disturbances that may contribute to severe malaria pathogenesis by inhibiting NO synthesis.

616.9

Parasite genetic factors implicated in cerebral malaria / Facteurs génétiques parasitaires impliqués dans le neuropaludisme

Almelli, Talleh

27 May 2014

Le paludisme à P. falciparum est l’une des causes majeures de mortalité et de morbidité dans le monde. Ce parasite est responsable de plusieurs manifestations cliniques allant du portage asymptomatique et infections non compliquées aigüe au paludisme grave et compliqué, tel que le neuropaludisme. Nous avons émis l’hypothèse que l’expression différentielle des gènes contribue à la variation phénotypique de parasites, entraînant des interactions spécifiques avec l’hôte, qui à son tour déterminent le type de manifestations cliniques du paludisme. L’objectif principal de cette étude était d’identifier les facteurs génétiques de P. falciparum impliqués dans la pathogenèse du neuropaludisme. Ceci a été réalisé par l’analyse complète du transcriptome d’isolats provenant d’enfants camerounais porteurs asymptomatiques (PA) ou atteints d’accès simple (AS) ou de neuropaludisme (NP). Le transcriptome du clone non sélectionnée (3D7) et la lignée sélectionnée (3D7-Lib) a été également analysé. Les résultats ont montré la surexpression de plusieurs gènes chez des isolats provenant d’enfants atteints de neuropaludisme et chez la lignée 3D7-Lib, par rapport à ceux provenant d’enfants asymptomatiques et 3D7, respectivement. L’analyse de l’ontologie de gène indique que les gènes potentiellement impliqués dans la pathogenèse, la cytoadhérence et l’agrégation des érythrocytes sont surreprésentés parmi les gènes surexprimés chez les isolats de CM et 3D7-Lib. Les résultats les plus marquants étaient la surexpression des gènes var (groups A et B) portant les domaines cassettes DC4, DC5, DC8 et DC13 et les gènes avoisinants rif chez les isolats de NP et la lignée 3D7-Lib, par rapport aux isolats de PA et au clone non sélectionné 3D7, respectivement. Le rôle joué par ces gènes dans la virulence parasitaire est lié à la cytoadhérence, c’est-à-dire la capacité de leurs protéines exprimées à interagir entre les érythrocytes parasités et les récepteurs endothéliaux post capillaires. Parmi ces récepteurs, le CD36 et inter cellular adhesion molecule 1 (ICAM-1) ont été les plus couramment utilisés par les isolats. L’étude sur l’implication de ces deux récepteurs, ainsi que celle des ligands PfEMP-1, dans la pathogenèse du neuropaludisme devrait être approfondie poursuivie. Nous avons analysé le phénotype de cytoadhérence et les profils de transcription des variantes de Pfemp-1 des isolats frais provenant des enfants béninois atteints de NP ou AS à l’aide du test d’adhérence statique aux récepteurs CD36, ICAM-1 et CSPG et au moyen de RT-PCR quantitative pour les groupes A, B, var2, var3, DC8 et DC13. Nos résultats montrent que le niveau de cytoadhérence des parasites associés au neuropaludisme au CD36 est significativement plus important que celui des parasites associés à l’accès simple. En outre, nous n’avons pas trouvé de différence significative entre la cytoadhérence des isolats de deux groupes cliniques à ICAM-1 et au CSPG. En outre, les niveaux d’expression des groupes var A, B, var2, var3 et du DC8 et DC13 sont plus élevés chez les isolats associés au neuropaludisme que chez les isolats associés à l’accès simple. Nos résultats montrent également que, chez les parasites provenant de NP le haut niveau de cytoadhérence des parasites au CD36 est corrélé au niveau de l’expression de groupe B de gènes var. En revanche, les profils d’expression des groupes spécifiques du gène var et le phénotype de cytoadhérence aux récepteurs ICAM-1 et CSPG n’étaient pas corrélés. Nos résultats suggèrent un rôle important du récepteur CD36 et des protéines codées par les variantes de PfEMP-1 codées par le groupe B dans la pathogenèse du neuropaludisme. / Plasmodium falciparum infection is a major cause of mortality and morbidity worldwide. This parasite is involved in several clinical manifestations, ranging from asymptomatic carriage and acute uncomplicated to severe and complicated malaria, including cerebral malaria. We hypothesized that differential gene expression contributes to phenotypic variation of parasites leading to specific interaction with the host which induces several clinical categories of malaria. The principal aim of this study was to identify parasite genetic factors implicated in the pathogenesis of cerebral malaria. We investigated the whole transcriptome of parasites isolated from Cameroonian children with asymptomatic (AM), uncomplicated (UM) and cerebral malaria (CM). We also investigated the transcriptome of 3D7 clone and the selected 3D7-Lib line. Our results revealed the up-regulation of several genes in CM isolates and 3D7-Lib line compared to AM isolates and 3D7 clone respectively. Gene ontology analysis indicates an over-representation of genes implicated in pathogenesis, cytoadherence, and erythrocyte aggregation among up-regulated genes in CM and 3D7-Lib. The most remarkable outcomes were the up-regulation of UPS A and B var genes containing architectural Domains Cassettes DC4, DC5, DC8, and DC13 and their neighboring rif genes in isolates from CM and 3D7-Lib line, compared with isolates from AM and the unselected 3D7 line, respectively. The involvement of these genes in parasite virulence rises from the ability of their encoded proteins to mediate cytoadherence of infected erythrocytes to post-capillary endothelial receptors. Of these receptors, CD36 and Inter Cellular Adhesion Molecule-1 (ICAM-1) were found as the most commonly used by the isolates. The implication of these two receptors, as well as that of PfEMP-1 ligands in the pathogenesis of CM needs to be more elucidated. We examined the adhesive phenotype and the transcription patterns of Pfemp-1 variants of fresh isolates from Beninese children with CM or UM malaria by static binding assay to CD36, ICAM-1 and CSPG and RT-qPCR for groups A, B, var2, var3, DC8, and DC13. Our findings showed that isolates from CM patients bind more to CD36 than those from UM cases. No differences were observed in binding levels to ICAM-1 or CSPG between these two groups. Furthermore, CM isolates transcribed groups A, B, var2, var3, DC8 and DC13 of var genes at higher levels than UM isolates. Interestingly, the high transcription levels of group B in CM parasites correlated with their higher level of binding to CD36. In contrary, the expression profiles of a specific var group and the binding phenotype of isolates to ICAM-1 and to CSPG were not correlated. Our findings support the implication of CD36 along with PfEMP-1 variants encoded by group B in cerebral malaria pathogenesis.

Transcriptome

RT-qPCR

Cytoadhérence

PfEMP-1

CD36

ICAM-1

Gènes var

Neuropaludisme

Transcriptome

Cerebral malaria

RT-qPCR

Cytoadherence

Var genes

PfEMP-1

CD36

ICAM-1

616.936 2

Efeito do tratamento da malaria cerebral com celulas da medula ossea em camundongos infectados pelo Plasmodium berghei ANKA / Effect of tratment of cerebral with bone marrow cells in mice infected by Plasmodium berghei ANKA

Pinto, Helen Cupertino Silva

14 August 2018

Orientador: Ana Maria Aparecida Guaraldo / Dissertação (mestrado) - Universidade Estadual de Campinas, Instituto de Biologia / Made available in DSpace on 2018-08-14T15:15:00Z (GMT). No. of bitstreams: 1 Pinto_HelenCupertinoSilva_M.pdf: 1411655 bytes, checksum: 74209c9aaeedc867a4d0f783be898b27 (MD5) Previous issue date: 2009 / Resumo: A malária cerebral humana é a manifestação mais grave do Plasmodium falciparum que ocorre em 1% das infecções, sendo responsável por mais de dois milhões de mortes anuais entre crianças abaixo de cinco anos. O modelo experimental mais aceito da malária cerebral é o camundongo C57BL/6 infectado pelo Plasmodium berghei ANKA (PbA). A administração da fração mononuclear da medula óssea, contendo principalmente células tronco mesenquimais e hematopoiéticas, constitui uma estratégia promissora no tratamento de danos neurais causados por acidente vascular cerebral. Neste estudo, foi avaliado o efeito de células da medula óssea de camundongos transgênicos C57BL/6 GFP HET transplantadas em C57BL/6JUnib infectados com 106 hemácias parasitadas pelo PbA. Resumidamente, células perfundidas da medula do fêmur e tíbia de C57BL/6 GFP HET foram purificadas por gradiente de Ficoll (Histopaque) a 1000 x g por 15 minutos. Após duas lavagens em meio RPMI, as células foram ressuspensas em NaCl 0,15 M. No segundo dia após a infecção (dai) pelo PbA, foram injetadas 3,0 x 106 a 4,6 x 107 células de medula óssea (CMO) no plexo oftálmico dos camundongos devidamente anestesiados com ketamina/xylasina (protocolo 1078-1 CEEA/Unicamp). Alguns camundongos receberam apenas a injeção de células totais da medula óssea (CTMO), sem a purificação pelo gradiente de Ficoll. Foi avaliada a integridade da barreira hemato-encefálica, mediante a injeção de azul de Evans 1% no plexo oftálmico em camundongos transplantados e não transplantados com células mononucleares da medula óssea (CMoMO) no 2º dai. Após 3 e 4 dias do transplante, não houve proteção da barreira hemato-encefálica. Para constatação da presença das células de medula óssea no cérebro, outro grupo de camundongos infectados pelo PbA recebeu no 2º dai, 4,6 x 107 CMoMO provenientes de camundongos GFP. Após a manifestação de sinais clínicos da MC os camundongos foram sacrificados para remoção do cérebro e preparo de cortes em criostato. Foi possível observar, sob microscópio de fluorescência, a presença de células da medula no bulbo olfatório de camundongos com MC+. Também foram avaliadas a sobrevivência, a parasitemia e a ação coadjuvante do tratamento com cloroquina (0,8 mg/dia/animal). Todos os 38 animais do grupo controle morreram até o 7º dia de infecção pelo PbA (13,16% no 5º dia, 68,42% no 6º dia e 18,42 % no 7º dai). A injeção de células da medula óssea não interferiu na parasitemia dos animais. Apesar dos animais que superaram a fase aguda da malária cerebral morrerem em decorrência de hiperparasitismo e anemia, o tratamento com células da medula óssea (fração mononuclear ou células totais) mostrou-se capaz de ampliar a sobrevivência em 10 a 21 dias, resultados considerados promissores. As células da medula óssea promoveram a melhora clínica do quadro neurológico da malária cerebral. / Abstract: The cerebral malaria (CM) is the most serious complication of Plasmodium falciparum occurring in 1% of infections, and is responsible for more than two million of annual deaths among children under five years old. The experimental model for brain malaria currently used is the C57BL/6 mice infected by Plasmodium berghei ANKA (PbA). Administration of mononuclear population from bone marrow containing mainly mesenchymal stem cells and haematopoietic stem cells, is a promising strategy to treat neural damages caused by stroke. In this study was evaluated the effect of bone marrow mononuclear cells of transgenic mice C57BL/6 GFP HET transplanted into C57BL/6JUnib, infected by 106 parasitized erythrocyte PbA. Briefly, bone marrow mononuclear cells flushed from femur and tibia of C57BL/6 GFP HET were purified through Ficoll (Histopaque) gradient at 1000xg during 15 minutes. After two washes with RPMI medium, the cells were resuspended in NaCl 0,15M. On the second day after infection (DAI) by PbA, were injected into mice orbital plexus 3x10 6 to 4.6x107 cells of after anaesthesia with Ketamine/Xylazine (protocol nº 1078-1 CEEA/UNICAMP). Some mice received only injection of total bone marrow cells without purification on Ficoll gradient. The injection of bone marrow mononuclear cells on the second day of infection by PbA was unable in recovering the brain blood barrier after three or four days. In order to confirm the presence of bone marrow cells in the brain, another group of infected C57BL/6JUnib received on the second day after infection 4.6 x 107 bone marrow mononuclear cells from GFP mice. They were sacrificed between 6th and 8th day after onset of clinical signs of the CM. After removal and preparation of the brain for criostate cuts, was possible to observe, under fluorescence microscope, the presence of GFP bone marrow cells in the olfactory bulb on CM+ mice. It was evaluated survival, parasitemia and action of the adjuvant treatment of chloroquine (0.8 mg/day/animal) as well. All the 38 animals from control group died until 7th DAI. (13.16% at 5th DAI,68.42% at 6th DAI and 18.42% at 7th DAI). The transplantation of bone marrow cells did not affect the parasitemia. The bone marrow cells therapy infected mice by PbA was able to revert the clinical signs of cerebral malaria, increasing the survival up to 21 days. / Mestrado / Parasitologia / Mestre em Parasitologia

Malaria cerebral

Células da medula óssea

Plasmodium berghei

Camundongo

Proteínas de fluorescência verde

Cerebral malaria

Bone marrow cells

Plasmodium berghei

Mice

Green fluorescent proteins

Etude d'un modèle de neuropaludisme chez le rat et évaluation des effets pharmacologiques d'un candidat-médicament / Study of a cerebral malaria model in rats and pharmacological effects assessment of a drug-candidate

Keita Alassane, Ndeye Sokhna

30 November 2016

Le neuropaludisme (NP) est la forme la plus mortelle du paludisme. C'est une complication neurologique observée uniquement dans les cas d'infection par Plasmodium falciparum, principalement chez les enfants de moins de 5 ans vivant en Afrique Sub-saharienne, et les adultes non-immuns, notamment les femmes enceintes et les touristes visitant les zones d'endémie. Les signes cliniques sont à présent bien décrits (prostration, convulsions répétées, difficultés respiratoires, coma,...), mais les mécanismes physiopathologiques conduisant au NP sont encore mal définis. Leur élucidation est rendue difficile par la localisation cérébrale de la pathologie du vivant des patients et la faible disponibilité des données nécropsiques. Bien que l'accès aux tissus humains soit limité en nombre, les résultats d'autopsie ont permis d'établir que le NP résulte d'une séquestration des globules parasités au niveau de l'endothélium intra-vasculaire, associée à une forte réaction immunitaire. La stratégie de prise en charge du NP combine un traitement étiologique à base de dérivés d'artémisinine, ou de quinine et un traitement adjuvant symptomatique destiné à pallier à la défaillance multiorganique qui est à l'origine de l'issue fatale souvent observée. Le modèle de NP expérimental actuellement le plus utilisé est le modèle souris infecté par P. berghei ANKA. La pertinence de ce modèle est toutefois remise en cause en raison notamment des différences histo-pathologiques observées par rapport à la forme humaine. En effet, les souris manifestant les symptômes du NP ne présentent que très rarement le phénomène de séquestration, caractéristique majeure du NP chez l'Homme. Par ailleurs, comparativement à la réponse immunitaire de la souris, le modèle rat s'est également révélé plus proche de la réaction de l'Homme, dans le cas d'une autre parasitose, la schistosomose. L'objectif de la première partie du projet thèse a donc été la mise en place et l'évaluation d'un modèle alternatif de NP chez le rat. Ainsi un modèle de NP chez le rat Sprague Dawley infecté par la souche murine P. berghei K173 a été caractérisé sur les plans clinique, biologique (paramètres hématologiques et biochimiques),histopathologique et du profil cytokinique (cytokines cérébrales et sériques). La forte similarité des symptômes et des lésions associées au NP du rat Sprague Dawley infecté par P. berghei K173 par rapport au NP humain permet de valider la pertinence de ce modèle pour l'étude de la physiopathologie du NP. L'objectif de la deuxième partie de mon projet de thèse a été d'évaluer les effets pharmacologiques d'un candidat-médicament, l'isoflurane, pour le traitement adjuvant du NP. Ce composé présente l'avantage d'être déjà utilisé chez l'Homme à d'autres fins thérapeutiques et dispose donc d'une autorisation de mise sur le marché. Les résultats obtenus montrent une efficacité nette de l'isoflurane avec une rémission totale des signes de paralysie pour 47.8% des rats traités ainsi qu'un gain de survie des rats NP traités de 2 à 10 jours par rapport aux rats NP non traités. Ce gain de survie des animaux traités pourrait permettre un allongement de la fenêtre du temps de traitement étiologique, améliorant ainsi sensiblement le pronostic du NP. L'isoflurane, dont le mécanisme d'action semble être la réversion de la séquestration des globules parasités, limite les complications neurologiques souvent responsables de séquelles liées au NP. Des études ultérieures permettront d'optimiser ce nouveau protocole de traitement adjuvant du NP. / Cerebral malaria (CM) is the most deadly form of malaria. It is a neurological complication observed only in cases of infection with Plasmodium falciparum that affects mainly children under five years living in Sub-Saharan Africa and non-immune adults including pregnant women and tourists visiting endemic areas. Although clinical signs are well described (prostration, respiratory distress convulsions, coma), the pathophysiological mechanisms leading to CM are still unclear. Their elucidation in vivo is made difficult by the cerebral location and the low availability of autopsy data. Instead of limited access to human tissues, autopsy results have shown that CM results from a strong immune response linked to sequestration of infected red blood cells in the intravascular endothelium. Cerebral malaria management combines an etiological treatment with artemisinin derivatives or quinine and adjunct treatment of the multi-visceral failures, responsible of fatal outcome. P. berghei ANKA-infected mouse is widely used as experimental murine model of CM. However the relevance of this model is still questioned because of the histopathologic differences from the human form. Indeed, CM mice rarely exhibit the red blood cell sequestration that is a major feature of human CM. Furthermore, compared to mouse, the rat displays a closer immune response to human in Schistosoma infection. This PhD research project first aimed to implement and assess an alternative rat model of CM. The clinical, biological, histo-pathological features as well as the cytokine profiling of an experimental model of CM were characterized in Sprague Dawley rats infected with P. berghei strain K173. The strong similarity of the symptoms and lesions observed in this model with those reported in human CM confirms its high relevance. The second objective of this thesis project was to assess the pharmacological effects of a drug-candidate in adjunct treatment of CM. Results demonstrated a strong efficacy of the molecule tested with 47.8% of the treated CM rats showing total remission. Moreover we observed a 2- to 10-day survival gain in the treated CM rats group compared to the non-treated CM rat group. Preliminary data suggest that this drug-candidate may reverse the endothelial sequestration of parasitized red blood cells and so limit the neurological sequels related to CM. It is anticipated that the gain in survival associated with this drug-candidate use will extend the window of the etiological treatment time, thus significantly improving the global prognosis of CM. Further studies are needed to optimize this adjunct CM treatment protocol.

Neuropaludisme

Modèle animal

Rat Sprague Dawley

P. berghei K173

Traitement adjuvant

Isoflurane

Cerebral malaria

Animal model

Rat Sprague Dawley

P. berghei K173

Malaria adjunct treatement

Isoflurane

Genome mapping of malaria resistance genes : the host ligands of PfEMP1

Fry, Andrew E.

January 2009

Erythrocytes infected by mature forms of the Plasmodium falciparum parasite adhere to other components of the vascular space, a behavior considered critical to the pathogenesis of severe malaria. Adhesion is mediated by the P. falciparum erythrocyte membrane protein 1 (PfEMP1), a highly variant antigen expressed by the parasite and subject to switching during the course of an infection. The host ligands of PfEMP1 include CD36, ICAM-1 and the ABO antigens. By employing a series of population- and family-based association studies from multiple African populations, we examined whether variation in the genes underlying these molecules affects susceptibility to severe malaria. Our results suggest that a common frameshift mutation in the ABO glycosyltransferase, responsible for blood group O, is associated with protection from severe malarial phenotypes (P=2x10⁻⁷), particularly severe malarial anaemia. However, we found no significant disease associations with variation in either the ICAM1 or CD36 genes. We focused on two particular functional polymorphisms, the missense ICAM-1Kilifi and the CD36 nonsense mutation T1264G. We genotyped both markers in around 10,000 individuals, but neither demonstrated an association with severe malarial phenotypes. Malaria has been a profound selection pressure shaping human genetic diversity. The last decade has seen the development of several haplotype-based methods to detect signatures of recent positive evolutionary selection. These techniques are potentially invaluable tools in our hunt for genetic variants that protect from life threatening malaria. We used simulations and empirical data from the International HapMap Project to demonstrate the validity of searching for long regions of haplotype homozygosity, as an approach to finding alleles undergoing selective sweeps. We analysed genetic data from a range of populations, particularly those utilized by HapMap, to investigate whether our candidate genes were associated with signals of recent positive selection. We characterized the distribution of a selection event associated with the CD36 1264G allele, focused in Central-West Africa, and demonstrated a novel signal of low population differentiation at the ABO gene, suggestive of longstanding balancing selection. Our work confirms that variation in the host ligands of PfEMP1 modulates severe malaria susceptibility, and highlights the value of using signals of selection, along with functional experiments and genetic association studies, to dissect the biology of severe malaria.

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