Gradual Decline in Malaria-Specific Memory T Cell Responses Leads to Failure to Maintain Long-Term Protective Immunity to Plasmodium chabaudi AS Despite Persistence of B Cell Memory and Circulating Antibody

The mechanisms responsible for the generation and maintenance of immunological memory to Plasmodium are poorly understood and the reasons why protective immunity in humans is so difficult to achieve and rapidly lost remain a matter for debate. A possible explanation for the difficulty in building up an efficient immune response against this parasite is the massive T cell apoptosis resulting from exposure to high-dose parasite Ag. To determine the immunological mechanisms required for long-term protection against P. chabaudi malaria and the consequences of high and low acute phase parasite loads for acquisition of protective immunity, we performed a detailed analysis of T and B cell compartments over a period of 200 days following untreated and drug-treated infections in female C57BL/6 mice. By comparing several immunological parameters with the capacity to control a secondary parasite challenge, we concluded that loss of full protective immunity is not determined by acute phase parasite load nor by serum levels of specific IgG2a and IgG1. Abs, but appears to be a consequence of the progressive decline in memory T cell response to parasites, which occurs similarly in untreated and drug-treated mice with time after infection. Furthermore, by analyzing adoptive transfer experiments, we confirmed the major role of CD4(+) T cells for guaranteeing long-term full protection against P. chabaudi malaria. The Journal of Immunology, 2008, 181: 8344-8355.

Population dynamics of genetically diverse Plasmodium falciparum lineages: community-based prospective study in rural Amazonia

Temporal changes in the prevalence of antigenic variants in Plasmodium falciparum populations have been interpreted as evidence of immune-mediated frequency-dependent selection, but evolutively neutral processes may generate similar patterns of serotype replacement. Over 4 years, we investigated the population dynamics of P. falciparum polymorphisms the community level by using 11 putatively neutral microsatellite markers. Plasmodium falciparum Populations were less diverse than sympatric P. vivax isolates, with less multiple-clone infections, lower number of alleles per locus and lower Virtual heterozygosity, but both species showed significant multilocus linkage disequilibrium. Evolutively neutral P. falciparum polymorphisms showed a high turnover rate, with few lineages persisting for several months in the population. Similar results had previously been obtained, in the same community, for sympatric P. vivax isolates. In contrast, the prevalence of the 2 dimorphic types of a major antigen, MSP-2, remained remarkably stable throughout the Study period. We Suggest that the relatively fast turnover of parasite lineages represents the typical population dynamics of neutral polymorphisms in small populations, with clear implications for the detection of frequency-dependent selection of polymorphisms.

Melatonin triggers PKA activation in the rodent malaria parasite Plasmodium chabaudi

Calcium (Ca2+) is a critical regulator of many aspects of the Plasmodium reproductive cycle. In particular, intra-erythrocyte Plasmodium parasites respond to circulating levels of the melatonin in a process mediated partly by intracellular Ca2+. Melatonin promotes the development and synchronicity of parasites, thereby enhancing their spread and worsening the clinical implications. The signalling mechanisms underlying the effects of melatonin are not fully established, although both Ca2+ and cyclic AMP (cAMP) have been implicated. Furthermore, it is not clear whether different strains of Plasmodium use the same, or divergent, signals to control their development. The aim of this study was to explore the signalling mechanisms engaged by melatonin in P. chabaudi, a virulent rodent parasite. Using parasites at the throphozoite stage acutely isolated from mice erythrocytes, we demonstrate that melatonin triggers cAMP production and protein kinase A (PKA) activation. Interestingly, the stimulation of cAMP/PKA signalling by melatonin was dependent on elevation of Ca2+ within the parasite, because buffering Ca2+ changes using the chelator BAPTA prevented cAMP production in response to melatonin. Incubation with melatonin evoked robust Ca2+ signals within the parasite, as did the application of a membrane-permeant analogue of cAMP. Our data suggest that P. chabaudi engages both Ca2+ and cAMP signalling systems when stimulated by melatonin. Furthermore, there is positive feedback between these messengers, because Ca2+ evokes cAMP elevation and vice versa. Melatonin more than doubled the observed extent of parasitemia, and the increase in cAMP concentration and PKA activation was essential for this effect. These data support the possibility to use melatonin antagonists or derivates in therapeutic approach.

Atividade antimalárica de plantas medicinais da biorregião do Araripe-CE em modelo murino - Plasmodium berghei

Malaria, also popularly known as maleita , intermittent fever, paludism, impaludism, third fever or fourth fever, is an acute infectious febrile disease, which, in human beings, is caused by four species: Plasmodium falciparum, P. vivax, P. malariae and P. ovale. Malaria, one of the main infectious diseases in the world, is the most important parasitoses, with 250 million annual cases and more than 1 million deaths per year, mainly in children younger than live years of age. The prophylactic and therapeutic arsenal against malaria is quite restricted, since all the antimalarials currently in use have some limitation. Many plant species belonging to several families have been tested in vivo, using the murine experimental model Plasmodium berghei or in vitro against P. falciparum, and this search has been directed toward plants with antithermal, antimalarial or antiinflammatory properties used in popular Brazilian bolk medicine. Studies assessing the biological activity of medicinal plant essential oils have revealed activities of interest, such as insecticidal, spasmolytic and antiplasmodic action. It has also been scientifically established that around 60% of essential oils have antifungal properties and that 35% exhibit antibacterial properties. In our investigation, essential oils were obtained from the species Vanillosmopsis arborea, Lippia sidoides and Croton zethneri which are found in the bioregion of Araripe-Ceará. The chemical composition of these essential oils was partially characterized and the presence of monoterpenes and sesquiterpenes. The acute toxicity of these oils was assessed in healthy mice at different doses applied on a single day and on four consecutive days, and in vitro cytotoxicity in HeLa and Raw cell lines was determined at different concentrations. The in vivo tests obtained lethal dose values of 7,1 mg/Kg (doses administered on a single day) and 1,8 mg/Kg (doses administered over four days) for 50% of the animals. In the in vitro tests, the inhibitory concentration for 50% of cell growth in Hela cell lines was 588 μg/mL (essential oil from C. zethneri after 48 h), from 340-555 μg/mL (essential oil from L. sidoides, after 24 and 48 h). The essential oil from V. arborea showed no cytotoxicity and none of the essential oils were cytotoxic in Raw cell lines. These data suggest a moderate toxicity in the essential XVIII oils under study, a finding that does not impede their testing in in vivo antimalarial assays. Was shown the antimalarial activity of the essential oils in mice infected with P. berghei was assessed. The three species showed antimalarial activity from 36%-57% for the essential oil from the stem of V. arborea; from 32%-82% for the essential oil from the leaves of L. sidoides and from 40%-70% of reduction for the essential oil from the leaves of C. zethneri. This is the first study showing evidence of antimalarial activity with these species from northeast Brazil. Further studies to isolate the active ingredients of these oils are needed to determine if a single active ingredient accounts for the antimalarial activity or if a complex integration of all the compounds present occurs, a situation reflected in their biological activity

Origins of sequence diversity in the malaria vaccine candidate merozoite surface protein-2 (MSP-2) in Amazonian isolates of Plasmodium falciparum

The recent evolution of Plasmodium falciparum is at odds with the extensive polymorphism found in most genes coding for antigens. Here, we examined the patterns and putative mechanisms of sequence diversification in the merozoite surface protein-2 (MSP-2), a major malarial repetitive surface antigen. We compared the msp-2 gene sequences from closely related clones derived from sympatric parasite isolates from Brazilian Amazonia and used microsatellite typing to examine, in these same clones, the haplotype background of chromosome 2, where msp-2 is located. We found examples of msp-2 sequence rearrangements putatively created by nonreciprocal recombinational events, such as replication slippage and gene conversion, while maintaining the chromosome haplotype. We conclude that these nonreciprocal recombination events may represent a major source of antigenic diversity in MSP-2 in P falciparum populations with low rates of classical meiotic recombination. (c) 2006 Elsevier B.V. All rights reserved.

Magneto Immunoassays for Plasmodium falciparum Histidine-Rich Protein 2 Related to Malaria based on Magnetic Nanoparticles

Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq)

Análise da atividade enzimática de quitotriosidase como um marcador para a malária vivax: abordagens bioquímicas e moleculares

A quitotriosidase foi a primeira quitinase humana descrita e sua função fisiológica ainda não está totalmente esclarecida. Entretanto, diversos estudos têm demonstrado sua participação como componente na resposta imune humana. Uma duplicação de 24pb no éxon 10 do gene chit1 promove uma mudança na matriz de leitura do RNAm com deleção de 87 nucleotídeos. Esta alteração produzirá uma proteína sem atividade catalítica. Esta condição é chamada de deficiência de quitotriosidase e apresenta uma frequência aproximada de 6% de homozigose para a duplicação em diferentes grupos étnicos. A malária é uma parasitose endêmica da região amazônica causada por protozoários do gênero Plasmodium cujos sintomas incluem febre, dor de cabeça e vômitos, o que induz a uma resposta imunológica característica com o objetivo de combater essa patologia. Os objetivos deste trabalho foram avaliar o comportamento da enzima quitotriosidase em pacientes acometidos por malária no estado do Pará e determinar a frequência da duplicação de 24pb no gene da quitotriosidase em uma amostra representativa. Foi realizada dosagem de quitotriosidase em 100 indivíduos sadios e 47 pacientes com malária para a análise. A análise molecular da duplicação de 24 pb foi realizada em 100 voluntários através de protocolo que incluiu as técnicas de extração de DNA, PCR e depois visualização em gel de agarose 2,5% para verificação dos fragmentos normais (homozigoto normal: 195pb) e com a duplicação de 24pb (homozigoto mutante: 219pb; heterozigoto: 219pb e 195pb). Este trabalho descreveu pela primeira vez na literatura científica a elevação dos níveis plasmáticos de quitotriosidase em pacientes acometidos por malária vivax em comparação com um grupo de indivíduos sadios. Não houve associação entre a parasitemia e os níveis plasmáticos de quitotriosidase nos pacientes com Malária. A análise molecular apresentou uma frequência de 72% de indivíduos homozigotos normais, 24% de indivíduos heterozigotos e 4% de homozigotos mutantes para duplicação de 24 pb. As frequências alélicas ficaram em torno de 84% para o alelo selvagem e 16% para o alelo mutante. Não foi encontrada correlação entre o genótipo e o fenótipo bioquímico (representado pelos níveis de quitotriosidase) no grupo controle.

Avaliação dos níveis séricos de cortisol e de hidroepiandrosterona em pacientes com malária por Plasmodium falciparum não-complicada

O objetivo desta pesquisa foi avaliar o comportamento dos níveis séricos de cortisol e dehidroepiandrosterona (DHEA) em pacientes com malária por Plasmodium falciparum. Como o cortisol apresenta um efeito imunossupressor e o DHEA um efeito imunoestimulador, estudou- se a correlação entre os níveis destes esteróides e a condição clínica do paciente de malária. A amostra constou de 24 pacientes com malária por P. falciparum não-complicada, sendo 18 do sexo masculino e 6 do sexo feminino, com idade variando de 15 a 47 anos, 12 primoinfectados e 12 multi-infectados, provenientes de área endêmica de malária da Amazônia. Coletaram-se amostras diárias de sangue de 20 em 20 minutos no pré-tratamento (D0), 24 horas após o início da medicação (D1) e no 8º dia de acompanhamento (D7), quando o paciente já se encontrava assintomático. Todos os pacientes apresentavam parasitemia negativa em D7. Dosaram-se: os níveis séricos de cortisol em D0, D1 e D7; DHEA em D0 e D7; os níveis de anticorpos totais IgG anti-P. falciparum, anti-P. vivax, e anticorpos IgM anti-P. falciparum em D0. Comparam-se os níveis séricos de cortisol dos três dias, concluindo-se que os níveis de cortisol eram significativamente mais elevados em D0 do que nos outros dias. Foram correlacionados os níveis de cortisol com a parasitemia, obtendo-se como significativas as correlações entre cortisol D0 e parasitemia D1, assim como cortisol D1 com parasitemia D1, levando-se a deduzir que o cortisol pode interferir na resposta inicial à terapêutica de pacientes com malária por P. falciparum. O cortisol foi correlacionado com a temperatura, tempo de evolução da doença, níveis de anticorpos IgG anti-P. falciparum, não se obtendo resultados estatisticamente significativos, levando a inferir que a temperatura não interfere nos níveis de cortisol e o mesmo não interfere nos níveis de anticorpos, e não apresenta variações importantes com o tempo de evolução da doença. Os níveis de DHEA em D0, foram significativamente mais elevados do que em D7, apesar dos pacientes estarem sintomáticos há mais de um dia, já que um estímulo mantido do eixo hipotálamo-hipófise-adrenal (HPA) leva a uma diminuição deste esteróide. O DHEA foi correlacionado com a parasitemia obtendo-se um resultado significativo na correlação DHEA D0 com parasitemia D1. A correlação entre cortisol e DHEA em D0 não foi significativa (p = 0,057), porém este resultado leva a crer que o DHEA acompanha o aumento dos níveis de cortisol. Obteve-se uma correlação negativa entre DHEA e tempo de evolução de doença, apesar destes níveis estarem aumentados no pré-tratamento. Calculou-se a correlação parcial entre cortisol, DHEA e temperatura, concluindo-se que a temperatura interfere positivamente na correlação cortisol e DHEA. Uma vez que a febre reflete o momento em que ocorre a lise das hemácias secundária a esquizogonia, provavelmente esta lise com conseqüente liberação de citocinas serve como um fator agudizador da estimulação do eixo HPA, sugerindo que a liberação dos dois hormônios apresenta mecanismo comum. A correlação entre DHEA e anticorpos não foi significativa, portanto o DHEA não deve interferir na produção de anticorpos de pacientes com malária por P. falciparum.

Vitamin B6-Dependent Enzymes in the Human Malaria Parasite Plasmodium falciparum: A Druggable Target?

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

Identificação de Plasmodium spp. em primatas neotropicais e em anofelinos em municípios da região de São Luís, estado do Maranhão, Brasil

Pós-graduação em Medicina Veterinária - FCAV

Cytometric quantification of singlet oxygen in the human malaria parasite Plasmodium falciparum

The malaria parasite Plasmodium falciparum proliferates within human erythrocytes and is thereby exposed to a variety of reactive oxygen species (ROS) such as hydrogen peroxide, hydroxyl radical, superoxide anion, and highly reactive singlet oxygen (1O2). While most ROS are already well studied in the malaria parasite, singlet oxygen has been neglected to date. In this study we visualized the generation of 1O2 by live cell fluorescence microscopy using 3-(p-aminophenyl) fluorescein as an indicator dye. While 1O2 is found restrictively in the parasite, its amount varies during erythrocytic schizogony. Since the photosensitizer cercosporin generates defined amounts of 1O2 we have established a new cytometric method that allows the stage specific quantification of 1O2. Therefore, the parasites were first classified into three main stages according to their respective pixel-area of 200600 pixels for rings, 7001,200 pixels for trophozoites and 1,4002,500 pixels for schizonts. Interestingly the highest mean concentration of endogenous 1O2 of 0.34 nM is found in the trophozoites stage, followed by 0.20 nM (ring stage) and 0.10 nM (schizont stage) suggesting that 1O2 derives predominantly from the digestion of hemoglobin. (c) 2012 International Society for Advancement of Cytometry

Systematic Analysis of FKBP Inducible Degradation Domain Tagging Strategies for the Human Malaria Parasite Plasmodium falciparum

Targeted regulation of protein levels is an important tool to gain insights into the role of proteins essential to cell function and development. In recent years, a method based on mutated forms of the human FKBP12 has been established and used to great effect in various cell types to explore protein function. The mutated FKBP protein, referred to as destabilization domain (DD) tag when fused with a native protein at the N- or C-terminus targets the protein for proteosomal degradation. Regulated expression is achieved via addition of a compound, Shld-1, that stabilizes the protein and prevents degradation. A limited number of studies have used this system to provide powerful insight into protein function in the human malaria parasite Plasmodium falciparum. In order to better understand the DD inducible system in P. falciparum, we studied the effect of Shld-1 on parasite growth, demonstrating that although development is not impaired, it is delayed, requiring the appropriate controls for phenotype interpretation. We explored the quantified regulation of reporter Green Fluorescent Protein (GFP) and luciferase constructs fused to three DD variants in parasite cells either via transient or stable transfection. The regulation obtained with the original FKBP derived DD domain was compared to two triple mutants DD24 and DD29, which had been described to provide better regulation for C-terminal tagging in other cell types. When cloned to the C-terminal of reporter proteins, DD24 provided the strongest regulation allowing reporter activity to be reduced to lower levels than DD and to restore the activity of stabilised proteins to higher levels than DD29. Importantly, DD24 has not previously been applied to regulate proteins in P. falciparum. The possibility of regulating an exported protein was addressed by targeting the Ring-Infected Erythrocyte Surface Antigen (RESA) at its C-terminus. The tagged protein demonstrated an important modulation of its expression.

Distinct placental malaria pathology caused by different Plasmodium berghei lines that fail to induce cerebral malaria in the C57BL/6 mouse

Background: Placental malaria (PM) is one major feature of malaria during pregnancy. A murine model of experimental PM using BALB/c mice infected with Plasmodium berghei ANKA was recently established, but there is need for additional PM models with different parasite/host combinations that allow to interrogate the involvement of specific host genetic factors in the placental inflammatory response to Plasmodium infection. Methods: A mid-term infection protocol was used to test PM induction by three P. berghei parasite lines, derived from the K173, NK65 and ANKA strains of P. berghei that fail to induce experimental cerebral malaria (ECM) in the susceptible C57BL/6 mice. Parasitaemia course, pregnancy outcome and placenta pathology induced by the three parasite lines were compared. Results: The three P. berghei lines were able to evoke severe PM pathology and poor pregnancy outcome features. The results indicate that parasite components required to induce PM are distinct from ECM. Nevertheless, infection with parasites of the ANKA Delta pm4 line, which lack expression of plasmepsin 4, displayed milder disease phenotypes associated with a strong innate immune response as compared to infections with NK65 and K173 parasites. Conclusions: Infection of pregnant C57BL/6 females with K173, NK65 and ANKA Delta pm4 P. berghei parasites provide experimental systems to identify host molecular components involved in PM pathogenesis mechanisms.