The effects of parasite diversity on eco-evolutionary dynamics

Betts, Alexander

January 2017

Virtually all interacting species (such as hosts and parasites) are embedded within diverse communities. However, evolutionary interactions are typically considered in a pairwise species framework. Although coevolutionary theory suggests that multiple species interactions may provide greater opportunities for diversification, the impacts of community diversity on coevolution have not been directly tested. In this thesis I synthesize the findings from recent experimental work to assess the effects of increased species diversity on the patterns and processes of host and parasite evolution. I then investigate the effects of parasite diversity on host-parasite population dynamics and evolution using the pathogen Pseudomonas aeruginosa and five lytic bacteriophage parasites in a brief evolution experiment. Parasite diversity was manipulated by assembling phage communities with different number of species. Phage communities suppressed host populations more rapidly but also showed reduced phage density, likely due to inter-phage competition. The evolution of resistance allowed rapid bacterial recovery that was greater in magnitude with increases in phage diversity. These results were then followed up via longer term experimental coevolution of the same host and parasite communities. Here the data showed that greater parasite diversity accelerates coevolutionary arms races and drives more diversification among lineages. Coevolution between hosts and parasite communities drove more successive increases in host resistance coupled with increasingly frequent selective sweeps at the genomic level. Consistent with this, the most rapidly evolving host genes under coevolution with parasite communities were those involved in various host resistance strategies. These results demonstrate, at phenotypic and genomic levels, how areas of high community diversity may be hotspots for rapid evolution in interacting, antagonistic species. Finally, In the face of escalating antibiotic resistance, there is now an urgent need to develop alternative antimicrobials, these results may be relevant to the application of phages as therapeutics and they are discussed in that context.

Isolamento e caraterização de Lactobacillus spp. da cavidade bucal e sua ação probiótica sob Candida albicans : formação de biofilme, infecção em modelos de invertebrados e expressão dos genes EFG1, HWP1 e ALS1 /

Rossoni, Rodnei Dennis.

January 2017

Orientador: Juliana Campos Junqueira / Banca: Antonio Olavo Cardoso Jorge / Banca: Silvana Soléo Ferreira dos Santos / Banca: Renata de Oliveira Mattos Graner / Banca: Maria José Soares Mendes Gianinni / Resumo: O estudo da atividade inibitória de Lactobacillus pode contribuir na descoberta de novas estratégias terapêuticas nas infecções por Candida. Nesse contexto, o objetivo desse estudo foi isolar e identificar Lactobacillus da cavidade bucal de indivíduos livres de cárie e avaliar seu potencial de inibição de C. albicans por meio de estudos in vitro e in vivo. Primeiramente, foram avaliados os efeitos de 30 isolados clínicos de Lactobacillus sobre o número de células viáveis (UFC) em biofilme de C. albicans e sobre a formação de hifas. Os isolados que obtiveram os maiores efeitos inibitórios sobre C. albicans foram selecionados para os testes de determinação da biomassa total dos biofilmes pela absorbância do cristal violeta, análise da arquitetura dos biofilmes por microscopia eletrônica de varredura (MEV) e quantificação da expressão de genes de C. albicans (ALS3, HWP1, EFG1 e CPH1) por qPCR. Esses isolados também foram submetidos a estudos in vivo usando os modelos de Galleria mellonella e Caenorhabditis elegans. Para o estudo em G. mellonella, a infecção experimental foi avaliada pela curva de sobrevivência, quantificação da carga fúngica na hemolinfa, densidade hemocitária, quantificação da expressão gênica de peptídeos antifúngicos (Gallerymicina e Galiomicina) e monitoramento da infecção de C. albicans por análise de bioluminescência. No modelo de C. elegans, a infecção foi avaliada por meio dos ensaios de curva de sobrevivência e estudo da filamentação de C. albicans. Os ... (Resumo completo, clicar acesso eletrônico abaixo) / Abstract: The study of the antifungal activity of Lactobacillus may contribute to the discovery of new therapeutic strategies for Candida infections. In this context, the objective of this study was to isolate and identify Lactobacillus from the oral cavity of caries-free subjects and to evaluate its effects through in vitro and in vivo studies. First, the effects of 30 clinical isolates of Lactobacillus on the number of viable cells (CFU) in biofilms of C. albicans and on hyphae formation were evaluated. The isolates that obtained the highest inhibitory effects on C. albicans were selected for biofilm biomass determination by violet crystal absorbance, analysis of biofilm architecture by scanning electron microscopy (SEM) and quantification of the expression of C. albicans (ALS3, HWP1, EFG1 and CPH1) by real time PCR. These isolates were also submitted to in vivo studies using the Galleria mellonella and Caenorhabditis elegans models. For the study in the model of Galleria mellonella, the experimental infection was evaluated by the survival curve, quantification of the fungal load in the hemolymph, hemocitary density, the gene expression of antifungal peptides (Gallerymicin and Galiomicin) and monitoring of C. albicans infection by bioluminescence analysis. In the Caenorhabditis elegans model, the infection was evaluated by the survival curve assays and the study of C. albicans filamentation. The results of in vitro tests demonstrated that L. paracasei 28.4, L. rhamnosus 5.2 and L. fe... (Complete abstract click electronic access below) / Doutor

Lactobacillus.

Candida albicans.

Boca.

Relação hospedeiro-parasito.

Biofilmes.

Mouth

Host-parasite relationships

Biofilmes.

The role of parasites in the invasion ecology of Harmonia axyridis

Berry, Katharine M.

January 2017

The success of an invasive alien species is often attributed to the ecological advantage gained from natural enemy release. Numerous factors have been suggested as contributing to the success of Harmonia axyridis as an invasive alien species, including enemy release. This thesis studied the interactions of several parasites with H. axyridis, investigating parasite transmission, growth and virulence as well as host immune responses, thereby shedding light on the potential role of enemy release in the invasion biology of this ladybird. Benefits gained by invasive alien species from enemy release diminish if parasites of native species shift hosts to exploit the novel invader. The fungal ectoparasite Hesperomyces virescens began infecting H. axyridis shortly after it invaded the UK, probably as a result of a host shift from Adalia bipunctata. This study found a rapid increase in H. virescens prevalence over three years in London H. axyridis populations. Laboratory study showed H. virescens transmission and growth to be more efficient on A. bipunctata than the novel host. In addition, reciprocal interspecific transfers of H. virescens strains isolated from A. bipunctata and H. axyridis revealed that the infection characteristics of the fungi from these two hosts differed, suggesting strains may have diverged after the initial shift from A. bipunctata to better exploit the host from which they were derived. Laboulbenialian fungi were previously thought to have negligible impacts on host fitness. A detailed examination of H. virescens infecting H. axyridis found distinct virulence, with infections resulting in a 50% reduction in host lifespan. In addition, chronic H. virescens infection in males caused acceleration in the age-associated decline in body condition while for females, infection triggered fecundity senescence and a faster age-related decline in fertility. While their role in accelerating ageing is debated, the results presented here provide evidence that infectious diseases can drive the ageing process in this insect species. In nature, multiple parasites affecting a single host are common. The effect of co-infection on the virulence caused by two fungal infections was characterised using H. axyridis and A. bipunctata hosts. The ability of two ladybird species to defend against an acute fungal parasite, while infected with the relatively avirulent H. virescens was found to be sex-specific. While for females, the presence of co-infection did not alter the virulence seen in singly infected females, a higher mortality rate existed for co-infected males compared with those infected singly. Previously, H. virescens has been considered to be avirulent, however, this study provides evidence that this chronic fungal parasite may be important when considering the mortality associated with co-infections in the field. The invasive success of H. axyridis has, in part, been attributed to a more vigorous immune ability compared with other competitor species. Previously, field studies have shown that the prevalence of the parasitoid wasp Dinocampus coccinellae in H. axyridis is considerably lower than in the UK primary host of this wasp, Coccinella septempunctata. The extent to which the prevalence asymmetry in the field is driven by differences in host encapsulation response was tested by first comparing the encapsulation ability of C. septempunctata and H. axyridis directed against an artificial implant. Following this, the encapsulation response of D. coccinellae parasitized individuals was assessed and compared between the two host species. While encapsulation ability did not differ between the host species, and D. coccinellae did not affect the immune response of H. axyridis, wasp parasitism did alter the encapsulation ability of C. septempunctata, although it was inconsistent across sexes and populations. Overall, this thesis furthers our understanding of the fungal parasite H. virescens and its association with the notorious invader H. axyridis. The research presented here also demonstrates the use of H. axyridis as a model system in areas other than invasion ecology and furthermore, contributes to understanding the role of infectious disease in the rate of ageing. Finally, sex-specific effects were found across the chapters of this thesis, demonstrating the use of H. axyridis in the study of sex-specific effects of infections.

Caractérisation d'un effecteur chez Toxoplasma gondii : découverte d'une voie alternative d'inflammation régulée par β-caténine / Parasite and host-cell interactions : Characterization of new effector proteins used by Toxoplasma gondii to interfere with host signaling pathways

He, Huan

27 September 2017

Toxoplasma gondii est un parasite intracellulaire et obligatoire. Ce protozoa est un des parasites les plus successifs qui infectent tous les animaux à sang chaud, y compris l’humain. Ce succès est probablement à cause de la sécrétion d’une des séries de protéines effectrices, qui sont impliquées dans la modulation des voies de signalisation de la cellule hôte. Cette modulation permet aux parasites d’établir une infection chronique qui dure un long terme, et qui favorise leur transmission à un nouvel hôte. Dans cette étude, nous avons identifié un nouvel effecteur dérivé par la granule dense, appelé GRA18, qui est sécrété dans le cytoplasme de cellule hôte par les tachyzoites intracellulaires. La mutation de gra18 résulte une diminution de virulence chez les parasites de type II, qui suggère l’importance de GRA18 dans la pathogénicité de ce parasite. Afin d’étudier le mécanisme d’action de GRA18, nous avons effectué un criblage à haut-débit d’une librairie humaine chez la levure. Ce criblage nous permet d’identifier β-catenin, GSK3α/β, and PP2A-B56, ce qui sont tous les régulateurs bien connus dans la voie de signalisation canonicale de Wnt. Nous avons confirmé l’intéractome de GRA18 par l’approche biochimique. La surexpression de GRA18 induit l’accumulation de β-catenin dans le noyau de la cellule hôte, aussi que l’induition de gènes régulés par la signalisation de Wnt. Ces effets indiquent GRA18 joue un rôle de régulateur positif de β-catenin. A part de son rôle dans la prolifération, polarisation et la différentiation de cellule, β-catenin est également un facteur de transcription connu pour contrôler la réponse immunitaire et l’inflammation. L’analyse transcriptomique en comparant les macrophages dérivés par la moelle osseuse (BMDM) infectés par le sauvage (WT) et le gra18 mutant parasites confirme un rôle possible de GRA18, la modulation d’expression génique de cellule hôte, surtout ceux qui codent pour les chemokines. Cette régulation est ensuite confirmée par l’ELISA. L’hypothèse possible est que Toxoplasma sécrète GRA18 dans la cellule hôte afin de réguler positivement la production de chemokine reliée à la réponse de Th2, qui par contre atténue la réponse inflammatoire de l’hôte. Cette modulation augmente la chance de dissémination et la persistance de ce parasite par la formation de kyste. / Toxoplasma gondii, the obligate intracellular protozoan parasite, is one of the most successful pathogen that infects virtually all warm-blooded animals including humans. This success of the infection is likely due to its perfect ability to modulate numbers of host signaling pathways through the effector proteins, including those involved in immune responses. This modulation allows the parasite to establish a long-term chronic infection without causing severe symptom in the hosts, which facilitates its transmission to the new hosts. In this study, we identified GRA18, as a novel dense granule derived effector protein that is secreted into the cytoplasm of the host cell by the intracellular tachyzoite. GRA18 deficiency in type II strains attenuated the parasite virulence in mice model, suggesting the importance of GRA18 in the parasite pathogenesis. In order to investigate the mechanism of action of GRA18, we first performed a high-throughput two-hybrid screen of a human library in yeast that led to the identification of β-catenin, GSK3α/β, and PP2A-B56, all which are well known regulators of the canonical Wnt signaling pathway. We then validate the GRA18 interactome by biochemistry approach. The overexpression of GRA18 triggers the accumulation of β-catenin in the host cell nuclei as well as the induction of known canonical β-catenin target genes indicating that GRA18 is acting as a positive regulator of β-catenin. Besides its role in cell proliferation, polarization and differentiation, β-catenin is also a well-known co-transcription factor with important function in the control of inflammation and other immune responses. Transcriptomic analysis comparing mouse bone marrow–derived macrophages infected by wild type and GRA18-dificient parasite confirmed a possible role of GRA18 towards host gene expression and likely those encoding chemokines, which is further confirmed by ELISA experiments. An attractive hypothesis is that Toxoplasma delivers GRA18 to the host cell in order to regulate Th2-related chemoattractant chemokines, which in turn, dampens host inflammatory response leaving more chance for the parasites to disseminate and to cause the long-term persistence by forming the cyst.

Toxoplasma gondii

Protéine effectrice

Interactions hôte-parasite

Toxoplasma gondii

Effector protein

Host-parasite interaction

570

Composição de Microdomínios de Membrana de Paracoccidioides brasiliensis e Histoplasma capsulatum: Importância na infectividade de macrófagos alveolares / Membrane Microdomains composition of Paracoccidioides brasiliensis and Histoplasma capsulatum: Importance on alveolar macrophage infectivity

Tagliari, Loriane [UNIFESP]

25 March 2009

Made available in DSpace on 2015-07-22T20:49:45Z (GMT). No. of bitstreams: 0 Previous issue date: 2009-03-25 / As membranas biológicas são formadas por uma mistura de várias classes de lipídeos, cujo empacotamento preferencial entre esfingolipídeos e esteróis formam junto com proteínas específicas, esta complexa organização conhecida como microdomínios de membrana. Com o intuito de verificar a presença de microdomínios de membrana em leveduras de fungos patogênicos como Paracoccidioides brasiliensis e Histoplasma capsulatum, as leveduras desses dois fungos foram lisadas com pérolas de vidro e incubadas com Brij 98 a 4°C. As frações de microdomínios de membrana foram separadas por ultracentrifugação em gradiente de sacarose e, seus componentes analisados por HPTLC, SDS-PAGE e “Western blotting”. As análises dos lipídeos de membrana mostram que aproximadamente 40% do ergosterol das duas espécies de leveduras analisadas estão presentes nos microdomínios de membrana. Enquanto as porcentagens de glicoesfingolipídeos presentes nessas frações correspondem a 42% e 25%, em leveduras de P. brasiliensis e H. capsulatum, respectivamente. Em conjunto com as análises lipídicas, verificou-se nas duas espécies, um enriquecimento protéico nas frações de microdomínios de membrana, entre estas proteínas podemos citar a Pma1p, uma proteína marcadora de microdomínios de fungos, e uma proteína de 30 kDa, capaz de se ligar a laminina. Para determinar a importância do ergosterol na manutenção da integridade dos microdomínios de membrana utilizou-se metil-beta-ciclodextrina (mβCD), que é capaz de complexar e retirar o ergosterol. Após o tratamento das leveduras com mβCD verificou-se a extração dos esteróis numa proporção de 80% e 70% para P. brasiliensis e H. capsulatum, respectivamente. No entanto, o perfil de distribuição dos glicoesfingolipídeos e fosfolipídeos, analisados por HPTLC, não apresentou mudanças significativas após o tratamento com a mβCD. As análises protéicas demonstraram o deslocamento de algumas proteínas para frações solúveis do gradiente de sacarose como Pma1p e uma proteína de 30 kDa. Por outro lado, a marcação com o anticorpo anti-α5-integrina mostra a presença de uma proteína de 50 kDa nos microdomínios de membrana, mesmo após o tratamento com a mβCD, sugerindo a existência de uma população de microdomínios de membrana que não depende do ergosterol para manutenção de sua integridade. A importância desses microdomínios de membrana foi testada na infectividade de macrófagos alveolares, onde uma redução de 53% na infectividade de macrófagos foi verificada após o tratamento das leveduras de H. capsulatum com mβCD. Os resultados apresentados nessa tese demonstram a existência de microdomínios de membrana em leveduras de P. brasiliensis e H. capsulatum, bem como sua importância para a interação levedura-macrófago. / Biological membranes are constituted by a mixture of several classes of lipids. In this enviroment, sphingolipids and sterols pack tightly to form together with specific proteins a complex membrane organization known as membrane microdomains. In order to detect the presence of membrane microdomains in yeast forms of pathogenic fungi, such as Paracoccidioides brasiliensis and Histoplasma capsulatum, yeast forms of both fungi were lysed by vortexing with glass beads and then incubated with Brij 98 at 4ºC. Fractions containing membrane microdomains were isolated by ultracentrifugation on sucrose gradient, and their components were analyzed by HPTLC, SDSPAGE and Western blotting. Analysis of membrane lipids showed that about 40% of ergosterol from both P. brasiliensis and H. capsulatum was present in the membrane microdomains, whereas the percentage of glycosphingolipids present in P. brasiliensis and H. capsulatum was 42% and 25%, respectively. Analysis by SDS-PAGE and Western blotting clearly showed a protein enrichment in the membrane microdomains fraction of both fungi. It is noteworthy the presence of Pma1p, a fungal microdomain marker, and also the presence of a 30 kDa (glyco)protein which binds to laminin. To investigate the requirement of ergosterol to mantain the integrity of membrane microdomains, it was used methylbeta- cyclodextrin (mβCD) an agent able to efficiently extract membrane sterols. After treatment of yeasts using mβCD, it was observed the removal of 80% and 70% of ergosterol in P. brasiliensis and H. capsulatum, respectively. After treatment with mβCD it was observed a shift of 25% of the glycosphingolipids from the insoluble to the soluble fraction, conversely the distribution profile of phospholipids remained unmodified after treatment with mβCD. The protein analysis showed the displacement of a few proteins to soluble fractions of the sucrose gradient, such as Pma1p and the (glyco)protein of 30 kDa. On the other hand, using an anti-α5-integrin antibody it was detected, even after the mβCD treatment, the presence of a 50 kDa protein in membrane microdomains, suggesting the existence of microdomains that do not depend on ergosterol for their integrity. These data strongly suggest the existence of two population of microdomains: i) dependent of ergosterol for integrity maintenance of microdomains and ii) microdomains non-dependent of ergosterol for the maintenance of their functional role. Furthermore, the biological importance of membrane microdomains was clearly demonstrated by a 53% reduction of infectivity of alveolar macrophage infectivity when yeast forms of H. capsulatum were treated with mβCD. / TEDE / BV UNIFESP: Teses e dissertações

Microdomínios da membrana

Paracoccidioides

Histoplasma

Ergosterol

Interações Hospedeiro-Parasita

Membrane Microdomains

Paracoccidioides

Histoplasma

Ergosterol

Host-Parasite Interactions

Estudo da expressão e participação de osteopontina durante a interação taquizoíto de Toxoplasma gondii célula hospedeira. / Differential expression of osteopontin and participation during interaction of Toxoplasma gondii tachyzoite - host cell.

Erika Afonso Costa Cortez Marques

28 June 2007

Toxoplasma gondii é um parasito do filo Apicomplexa que infecta uma grande variedade de hospedeiros, incluindo os humanos. O parasito invade a célula hospedeira por penetração ativa, com a participação das proteínas de suas organelas secretoras durante esse processo. Até o momento, somente um número limitado de proteínas secretoras tem sido descoberto, além disso, as moléculas efetoras envolvidas na invasão e sobrevivência do parasito não estão completamente compreendidas. A osteopontina (OPN) é uma glicofosfoproteína adesiva secretada, multifuncional, que contém o domínio arginina-glicina-ácido aspártico (RGD) de ligação à integrina, que está envolvida em uma variedade de eventos fisiológicos e patológicos, incluindo sinalização e sobrevivência celular. Pela primeira vez, nós demonstramos pelas técnicas de imunofluorescência e imunocitoquímica ultraestrutural que há uma intensa marcação para uma proteína OPN-like nos grânulos densos de taquizoítos de T. gondii extracelulares. O western blotting e o RT-PRC confirmaram a expressão de OPN-like nos taquizoítos. Nossos resultados também mostram que após a invasão dos macrófagos, a proteína OPN-like está localizada na membrana do vacúolo parasitóforo. Esses dados sugerem que os grânulos densos secretam uma proteína OPN-like, e nós podemos especular que essa proteína participa durante o processo de interação do parasito com as células hospedeiras. . / Toxoplasma gondii is an apicomplexan parasite infecting a broad host range, including humans. The parasite invades host cell by active penetration with the participation of its secretory organelles proteins during this process. Until now, only a limited number of secretory proteins have been discovered, and the effectors molecules involved in parasite invasion and survival are not well understood. Osteopontin (OPN) is a multifunctional secreted adhesive glycophosphoprotein containing the arginine-glycine-aspartic acid (RGD) integrin-binding domain, which is involved in various physiological and pathological events including cell signaling and survival. For the first time we demonstrated by immunofluorescence and immunoelectron microscopy approaches that there is an intense labeling for an OPN-like protein in the dense granules of extracellular T. gondii tachyzoites. Western blotting and RTPCR confirmed this protein expression in tachyzoites. Our results also showed that after macrophage invasion the OPN-like protein is localized at the parasitophorous vacuole membrane. These data suggest that dense granules secrete an OPN-like protein, and we can speculate that this protein participates during the parasite interaction process with host cells.

Toxoplasma gondii

Interações hospedeiro-parasita

Osteopontina

Taquisoitos

Toxoplasma gondii

Host-parasite interactions

Osteopontin

Tachyzoites

MORFOLOGIA

Estudo da expressão e participação de osteopontina durante a interação taquizoíto de Toxoplasma gondii célula hospedeira. / Differential expression of osteopontin and participation during interaction of Toxoplasma gondii tachyzoite - host cell.

Erika Afonso Costa Cortez Marques

28 June 2007

Toxoplasma gondii é um parasito do filo Apicomplexa que infecta uma grande variedade de hospedeiros, incluindo os humanos. O parasito invade a célula hospedeira por penetração ativa, com a participação das proteínas de suas organelas secretoras durante esse processo. Até o momento, somente um número limitado de proteínas secretoras tem sido descoberto, além disso, as moléculas efetoras envolvidas na invasão e sobrevivência do parasito não estão completamente compreendidas. A osteopontina (OPN) é uma glicofosfoproteína adesiva secretada, multifuncional, que contém o domínio arginina-glicina-ácido aspártico (RGD) de ligação à integrina, que está envolvida em uma variedade de eventos fisiológicos e patológicos, incluindo sinalização e sobrevivência celular. Pela primeira vez, nós demonstramos pelas técnicas de imunofluorescência e imunocitoquímica ultraestrutural que há uma intensa marcação para uma proteína OPN-like nos grânulos densos de taquizoítos de T. gondii extracelulares. O western blotting e o RT-PRC confirmaram a expressão de OPN-like nos taquizoítos. Nossos resultados também mostram que após a invasão dos macrófagos, a proteína OPN-like está localizada na membrana do vacúolo parasitóforo. Esses dados sugerem que os grânulos densos secretam uma proteína OPN-like, e nós podemos especular que essa proteína participa durante o processo de interação do parasito com as células hospedeiras. . / Toxoplasma gondii is an apicomplexan parasite infecting a broad host range, including humans. The parasite invades host cell by active penetration with the participation of its secretory organelles proteins during this process. Until now, only a limited number of secretory proteins have been discovered, and the effectors molecules involved in parasite invasion and survival are not well understood. Osteopontin (OPN) is a multifunctional secreted adhesive glycophosphoprotein containing the arginine-glycine-aspartic acid (RGD) integrin-binding domain, which is involved in various physiological and pathological events including cell signaling and survival. For the first time we demonstrated by immunofluorescence and immunoelectron microscopy approaches that there is an intense labeling for an OPN-like protein in the dense granules of extracellular T. gondii tachyzoites. Western blotting and RTPCR confirmed this protein expression in tachyzoites. Our results also showed that after macrophage invasion the OPN-like protein is localized at the parasitophorous vacuole membrane. These data suggest that dense granules secrete an OPN-like protein, and we can speculate that this protein participates during the parasite interaction process with host cells.

Toxoplasma gondii

Interações hospedeiro-parasita

Osteopontina

Taquisoitos

Toxoplasma gondii

Host-parasite interactions

Osteopontin

Tachyzoites

MORFOLOGIA

Caracterização fisiológica e genética do transporte de arginina em Leishmania (Leishmania) amazonensis / Physiologic and genetic characterization of arginine transport in Leishmania (Leishmania) amazonensis

Emerson Augusto Castilho Martins

06 April 2011

Protozoários do gênero Leishmania são parasitas digenéticos, com uma fase no tubo digestório de um hospedeiro invertebrado (promastigota), e uma fase parasita intracelular de macrófagos (amastigotas). Estudar a demanda de L-arginina no parasita é interessante, uma vez que o aminoácido é indispensável para a sobrevida do parasita e, ao mesmo tempo, serve de substrato para a produção de óxido nítrico, principal composto microbicida dos macrófagos. O objetivo deste trabalho foi caracterizar o transporte de arginina em Leishmania (Leishmania) amazonensis do ponto de vista fisiológico e caracterizar o gene que codifica o transportador do aminoácido, bem como a regulação da sua expressão em resposta a diferentes condições biológicas. Para medir o influxo de L-arginina em fagolisossomos, utilizamos macrófagos J774 infectados com L. (L.) amazonensis e desenvolvemos uma metodologia com citometria de fluxo com sorting para a purificação da organela. Validamos microscopicamente a presença do parasita na organela por sua fluorescência, e avaliamos a integridade da membrana externa dessa com marcador de pH ácido. Paralelamente, o gene que codifica o transportador de arginina do parasita foi caracterizado. Foram encontradas duas cópias em tandem que produzem dois transcritos (5.1AAP3 e 4.7AAP3), cujas regiões 5\'UTR e 3\'UTR são diferentes. Por meio de PCR quantitativo em tempo real, avaliamos a expressão desses transcritos e verificamos que 5.1AAP3 é mais expressa ao longo do desenvolvimento do parasita, com um máximo em fase estacionária. A determinação da meia-vida dos mRNA das duas cópias indicou uma duração de 32,6±5,0min para o mRNA de 4.7AAP3, enquanto que o de 5.1AAP3 não apresentou decaimento até 180min do estudo, evidenciando que a estabilidade maior pode ser a razão de sua maior abundância. A submissão de parasitas à privação de arginina levou a aumento na tomada do aminoácido concomitante ao aumento do transcrito 5.1AAP3. Mutantes nulos de arginase submetidos à privação de arginina respondem com uma taxa de incorporação mais baixa em relação aos parasitas selvagens, e mantém a resposta à privação mesmo com os parasitas em fase estacionária, diferente do observado nos parasitas selvagens. Esse conjunto de resultados nos levou a sugerir que a expressão do transportador pode ser regulada pela estabilidade do mRNA, e que o pool de arginina interno ao parasita pode controlar, num mecanismo de retroalimentação negativo, a expressão de seu transportador. / Protozoan of genus Leishmania are digenetic parasites that present a stage in the life in insect gut (promastigotes) and an intracellular phase (amastigotes) inside vertebrate host macrophages. The study of L-arginine influx consists in an interesting matter, since the amino acid is used on NO production pathway (the main macrophage microbial pathway) but are also important for parasites survival. The aim of this work was to perform a genetic and physiological characterization of the arginine transport in Leishmania (Leishmania) amazonensis. To verify how does the arginine uptake occurs in the phagolisosomes, we used J774 macrophages infected with L. (L.) amazonensis to establish a flow cytometry sorting protocol to purify the organelle. Microscopic validation of organelle integrity was achieved by acidic pH marker treatment and detection of fluorescent parasites. The arginine transporter coding gene was characterized. We found two copies in tandem that produces two transcripts, named 5.1AAP3 and 4.7AAP3, with distinct 5\'UTR and 3\'UTR. By quantitative real time PCR we found that 5.1AAP3 mRNA expression varies along parasite development. This copy was, also, more abundant than 4.7AAP3 mRNA. This last mRNA showed a half-life of 32.6±5.0 min, while the 5.1AAP3 mRNA did not decay until 180min. As response to arginine starvation, wild type parasites increase the uptake of arginine, as well as the abundance of 5.1AAP3 mRNA. Arginase null parasites starvation responses showed lower arginine uptake rates compared to wild type responses. Unlike wild type, the null mutants also respond to starvation in stationary phase. This data set allow us to propose that arginine internal pool can downregulate its transporter expression in a feed-back mechanism.

Transporte de aminoácido

Amino acid transport

Physiology of host-parasite interaction

Arenavirus infection correlates with lower survival of its natural rodent host in a long-term capture-mark-recapture study

Mariën, Joachim, Sluydts, Vincent, Borremans, Benny, Gryseels, Sophie, Vanden Broecke, Bram, Sabuni, Christopher A., Katakweba, Abdul A. S., Mulungu, Loth S., Günther, Stephan, de Bellocq, Joëlle Goüy, Massawe, Apia W., Leirs, Herwig

08 February 2018

Background: Parasite evolution is hypothesized to select for levels of parasite virulence that maximise transmission success. When host population densities fluctuate, low levels of virulence with limited impact on the host are expected, as this should increase the likelihood of surviving periods of low host density. We examined the effects of Morogoro arenavirus on the survival and recapture probability of multimammate mice (Mastomys natalensis) using a seven-year capture-mark-recapture time series. Mastomys natalensis is the natural host of Morogoro virus and is known for its strong seasonal density fluctuations. Results: Antibody presence was negatively correlated with survival probability (effect size: 5-8% per month depending on season) but positively with recapture probability (effect size: 8%). Conclusions: The small negative correlation between host survival probability and antibody presence suggests that either the virus has a negative effect on host condition, or that hosts with lower survival probability are more likely to obtain Morogoro virus infection, for example due to particular behavioural or immunological traits. The latter hypothesis is supported by the positive correlation between antibody status and recapture probability which suggests that risky behaviour might increase the probability of becoming infected.

Arenavirus

Morogoro virus

Survival analysis

Capture-mark-recapture

Host-parasite interaction

4,5-dihydropyrazoles : novel chemistry and biological activity

Catti, Federica

January 2007

No description available.

547.59