Interação entre Staphylococcus aureus resistente à meticilina (MRSA) e Acanthamoeba polyphaga / Interaction between methicillin-resistant Staphylococcus aureus (MRSA) and Acanthamoeba polyphaga

Souza, Thamires Klein de

January 2016

As interações que ocorrem entre as bactérias e amebas podem dar-se através de relações mútuas, onde ambos os organismos se beneficiam da associação ou parasitárias, em que um organismo se beneficia em detrimento do outro. Quando esses organismos compartilham o mesmo ambiente, pode resultar em algumas alterações, seja no crescimento dos organismos, nos padrões de adaptação, na morfologia, no seu desenvolvimento ou até mesmo na sua capacidade para sintetizar proteínas e outras substâncias. No presente estudo, avaliou-se a interação entre Acanthamoeba polyphaga e Staphylococcus aureus (MRSA) através de um modelo de cocultivo em diferentes tempos de incubação. A partir deste, 89% das células amebianas permaneceram viáveis após contato com a bactéria. O isolado bacteriano foi visualizado no interior da ameba através de microscopia confocal e de fluorescência em até 216 horas de cocultivo, sendo considerado um microrganismo resistente à ameba. O contato de A. polyphaga com S. aureus (MRSA) não demonstrou alteração fenotípica da ameba através dos testes fisiológicos de osmo e termotolerância. O lisado da cultura amebiana aumentou o crescimento de S. aureus (MRSA) nos diferentes tempos de incubação, porém houve diferença significativa apenas entre o controle e 96 horas de cocultivo. O crescimento de S. aureus (MRSA) foi inibido ao longo dos tempos de incubação pelo efeito do sobrenadante da cultura amebiana apresentando diferença significativa entre o controle e 96 horas de cocultivo, sugerindo-se que A polyphaga tenha secretado algum tipo de metabólito, que inibiu o crescimento da bactéria. A interação dos microrganismos não apresentou alterações significativas no perfil de susceptibilidade aos antibióticos testados. S. aureus (MRSA) permaneceu viável em cistos de A. polyphaga, reforçando a hipótese de que Acanthamoeba pode desempenhar um papel crucial na propagação de S. aureus (MRSA) na comunidade e ambiente hospitalar. O maior percentual de amebas encistadas deu-se em 96 horas de incubação quando cocultivadas com o isolado de S. aureus (MRSA), apresentando um aumento progressivo deste percentual a cada período de incubação. A partir disso, estudos devem intensificar-se para melhor compreender os mecanismos de virulência envolvidos na interação entre ambos os microrganismos. / The interactions that occur between bacteria and amoebae can give through mutual relations, where both organisms benefit from the association or parasitic in which one organism benefits at the expense of the other. When these organisms share the same environment, can result in some changes in the growth of organisms, in adaptation patterns, in morphology, development or even in their ability to synthesize proteins and other substances. In the present study, we evaluated the interaction between Acanthamoeba polyphaga and Staphylococcus aureus (MRSA) using a coculture model at different incubation times. From this, 89% of amoebic cells remain viable after contact with the bacteria. The bacterial isolate was visualized inside the amoeba through confocal microscopy and fluorescence for up to 216 hours of cocultivation, being considered a resistant microorganism to the amoeba. The contact of A. polyphaga with S. aureus (MRSA) showed no phenotypic changes of amoeba through physiologic osmo or thermotolerance tests. The lysate of amoebic culture increased the growth of S. aureus (MRSA) in the different incubation times, but there was a significant difference only between the control and 96 hours of cocultivation. The growth of S. aureus (MRSA) has been inhibited over the incubation times for the effect of amoebic culture supernatant showing a significant difference between the control and 96 hours of coculture, suggesting tha A. polyphaga has some kind of secreted metabolites inhibiting the growth of bacteria. The interaction of microorganisms showed no significant changes in the susceptibility profile of the tested antibiotics. S. aureus (MRSA) remained viable cysts of A. polyphaga, reinforcing the hypothesis that Acanthamoeba can play a crucial role in the spread of S. aureus (MRSA) in the community and hospital. The highest percentage of encysted amoebae occurred in 96 hours of incubation when cocultured with the isolate of S. aureus (MRSA), with a progressive increase in this percentage to each incubation period. From this, studies should be intensified to better understand the virulence mechanisms involved in the interaction between these two organisms.

Staphylococcus aureus

Acanthamoeba

Resistência à meticilina

Bactérias

Virulência

Protein secretion and encystation in Acanthamoeba

De Obeso Fernandez Del Valle, Alvaro

January 2018

Free-living amoebae (FLA) are protists of ubiquitous distribution characterised by their changing morphology and their crawling movements. They have no common phylogenetic origin but can be found in most protist evolutionary branches. Acanthamoeba is a common FLA that can be found worldwide and is capable of infecting humans. The main disease is a life altering infection of the cornea named Acanthamoeba keratitis. Additionally, Acanthamoeba has a close relationship to bacteria. Acanthamoeba feeds on bacteria. At the same time, some bacteria have adapted to survive inside Acanthamoeba and use it as transport or protection to increase survival. When conditions are adverse, Acanthamoeba is capable of differentiating into a protective cyst. This study had three objectives. First, isolate and identify new FLA and Acanthamoeba strains. Second, identify encystation factors of Acanthamoeba. Third, identify and characterise new potential antimicrobial proteins produced by Acanthamoeba. The isolation of environmental amoebae was performed, and several strains of Acanthamoeba were identified from previously known genotypes. Also, two new species of FLA were identified: Allovahlkampfia minuta and Leptomyxa valladaresi. The dynamics of encystment were studied in different strains of Acanthamoeba. RNAseq was used to study gene expression during differentiation and identify differentially expressed genes. We identified different encystment factors including at least two encystment related proteases. A new antimicrobial zymogram was developed that identified antimicrobial proteins being secreted by Acanthamoeba. A 33 kDa protease was found to be able to lyse bacteria. We created DNA constructs encoding the protease and a lysozyme from Acanthamoeba for heterologous expression. The genes were successfully cloned. However, bacteria were not able to produce the proteins most probably due to their antimicrobial characteristics. Further studies are required regarding encystment and antimicrobial factors identified. Such experiments should help elucidate critical factors of Acanthamoeba's biology that could help treat several infections.

Acanthamoeba-Campylobacter Interactions

Nguyen, Hai

24 August 2011

Campylobacter jejuni is an avian commensal bacterium and causes gastrointestinal diarrhea in humans called campylobacteriosis. Campylobacteriosis is acquired by consumption of undercooked poultry contamined with C. jejuni. Poultry can become colonized from contaminated drinking water. The chicken flock and drinking water of 4 poultry farms in Ontario were sampled and the prevalence of C. jejuni in these flocks was determined to be 16.7% over a 1 year sampling period. We determined that contamined- water was a significant risk factor for Campylobacter-positive flocks from flaA typing, PFGE analysis, and genomotyping several isolated strains. Free living amoebae, such as Acanthamoeba species, live in the drinking water of poultry farms. It is hypothesized that Acanthamoeba in the drinking water of poultry farms can take up and act as environmental reservoirs of C. jejuni. Acanthamoeba species were isolated from the drinking water. Acanthamoeba strains were found to act as a vehicle for protection, persistence and growth of C. jejuni isolated from the farm water. The transcriptome of both C. jejuni and A. castellanii during the initial stages of C. jejuni internalization were described by RNA-seq. C. jejuni oxidative defence genes (such as katA, sodB, fdxA) and some other unknown genes (Cj0170, Cj1325, Cj1725) were found to be essential in the interaction with A. castellanii. Our findings suggest that Acanthamoebae act as a C. jejuni reservoir and could be a contributing source of C. jejuni in the environment. Through transcriptomics studies, we have begun to uncover some genetic clues involved in this interaction.

Acanthamoeba

Campylobacter

RNA-Seq

Transcriptome

interactions

Acanthamoeba-Campylobacter Interactions

Nguyen, Hai

24 August 2011

Campylobacter jejuni is an avian commensal bacterium and causes gastrointestinal diarrhea in humans called campylobacteriosis. Campylobacteriosis is acquired by consumption of undercooked poultry contamined with C. jejuni. Poultry can become colonized from contaminated drinking water. The chicken flock and drinking water of 4 poultry farms in Ontario were sampled and the prevalence of C. jejuni in these flocks was determined to be 16.7% over a 1 year sampling period. We determined that contamined- water was a significant risk factor for Campylobacter-positive flocks from flaA typing, PFGE analysis, and genomotyping several isolated strains. Free living amoebae, such as Acanthamoeba species, live in the drinking water of poultry farms. It is hypothesized that Acanthamoeba in the drinking water of poultry farms can take up and act as environmental reservoirs of C. jejuni. Acanthamoeba species were isolated from the drinking water. Acanthamoeba strains were found to act as a vehicle for protection, persistence and growth of C. jejuni isolated from the farm water. The transcriptome of both C. jejuni and A. castellanii during the initial stages of C. jejuni internalization were described by RNA-seq. C. jejuni oxidative defence genes (such as katA, sodB, fdxA) and some other unknown genes (Cj0170, Cj1325, Cj1725) were found to be essential in the interaction with A. castellanii. Our findings suggest that Acanthamoebae act as a C. jejuni reservoir and could be a contributing source of C. jejuni in the environment. Through transcriptomics studies, we have begun to uncover some genetic clues involved in this interaction.

Acanthamoeba

Campylobacter

RNA-Seq

Transcriptome

interactions

Etude de l'état viable non cultivable (VBNC) chez Legionella pneumophila Lens après traitements monochloramine et thermique

Alleron, Laëtitia Frère, Jacques.

January 2008

Reproduction de : Thèse de doctorat : Microbiologie de l'eau : Poitiers : 2008. / Titre provenant de l'écran-titre. Bibliogr. 110 réf.

Acanthamoeba-Campylobacter Interactions

Nguyen, Hai

24 August 2011

Campylobacter jejuni is an avian commensal bacterium and causes gastrointestinal diarrhea in humans called campylobacteriosis. Campylobacteriosis is acquired by consumption of undercooked poultry contamined with C. jejuni. Poultry can become colonized from contaminated drinking water. The chicken flock and drinking water of 4 poultry farms in Ontario were sampled and the prevalence of C. jejuni in these flocks was determined to be 16.7% over a 1 year sampling period. We determined that contamined- water was a significant risk factor for Campylobacter-positive flocks from flaA typing, PFGE analysis, and genomotyping several isolated strains. Free living amoebae, such as Acanthamoeba species, live in the drinking water of poultry farms. It is hypothesized that Acanthamoeba in the drinking water of poultry farms can take up and act as environmental reservoirs of C. jejuni. Acanthamoeba species were isolated from the drinking water. Acanthamoeba strains were found to act as a vehicle for protection, persistence and growth of C. jejuni isolated from the farm water. The transcriptome of both C. jejuni and A. castellanii during the initial stages of C. jejuni internalization were described by RNA-seq. C. jejuni oxidative defence genes (such as katA, sodB, fdxA) and some other unknown genes (Cj0170, Cj1325, Cj1725) were found to be essential in the interaction with A. castellanii. Our findings suggest that Acanthamoebae act as a C. jejuni reservoir and could be a contributing source of C. jejuni in the environment. Through transcriptomics studies, we have begun to uncover some genetic clues involved in this interaction.

Acanthamoeba

Campylobacter

RNA-Seq

Transcriptome

interactions

Reconstruction of ancient evolution : protien domains and phylogenies /

Cantarel, Brandi Lynn.

January 2006

Thesis (Ph. D.)--University of Virginia, 2006. / Includes bibliographical references (leaves 86-104). Also available online through Digital Dissertations.

Avaliação da atividade amebicida do óleo essencial de Pterocaulon polystachyum frente à Acantamoeba polyphaga / Amebicidal activy evaluation of pterocaulon polystachyum essencial oil against acanthamoeba polyphaga

Sauter, Ismael Pretto

January 2011

Espécies de Acanthamoeba pertencem ao grupo das amebas de vida livre e constituem um agente etiológico da ceratite amebiana, doença que pode causar inflamação ocular grave e até mesmo cegueira. Plantas do gênero Pterocaulon (Asteraceae) são utilizadas na medicina popular como agente anti-séptico e antifúngico. Neste trabalho, foi investigada a composição química do óleo essencial de P. polystachyum e avaliada a sua atividade amebicida contra A. polyphaga. As folhas da planta fresca foram submetidas à hidrodestilação, fornecendo um rendimento de 0,15% (w/v) de óleo essencial. O óleo foi analisado por Cromatografia a Gás acoplada a Espectrômetro de Massas (CG/MS), sendo o acetato de E-sesquilavandulil o principal componente, representando 43,8% da amostra. Para avaliar a atividade amebicida do óleo, foram testadas as concentrações de 20, 10, 5, 2,5 e 1,25 mg/mL contra trofozoítos de duas cepas ATCC de A. polyphaga (uma de origem clínica e outra ambiental). O óleo essencial nas concentrações de 10 e 20 mg/mL foi letal para 100% dos trofozoítos das duas cepas tanto em 24 quanto em 48 horas. O mesmo resultado foi mostrado na concentração de 5 mg/mL de óleo essencial contra os trofozoítos da cepa de origem ambiental de A. polyphaga. O óleo essencial não induziu o encistamento de Acanthamoeba. O efeito citotóxico do óleo essencial também foi avaliado em células de mamíferos, sendo determinado pelo ensaio de Brometo de 3-[4,5-dimetil-tiazol-2-il]-2,5-difeniltetrazólio (MTT). Os resultados da atividade amebicida encontrada no óleo estão em conformidade com relato anterior em que os compostos lipofílicos obtidos desta planta foram ativos contra trofozoítos de A. castellanii. A utilização do óleo como componente de soluções de limpeza de lentes de contato e de superfícies, não deve ser descartada, entretanto maiores estudos com seus componentes majoritários precisam ser feitos. / Acanthamoeba species are free-living amoebae that constitute an etiological agent of Acanthamoeba keratitis, an illness that may cause severe ocular inflammation and induce blindness. Plants of the genus Pterocaulon (Asteraceae) are used in folk medicine as antiseptic and antifungal agent. In this work, the activity of P. polystachyum essential oil against A. polyphaga was assessed. The leaves of the fresh plant submitted to hydrodistillation yielded 0.15% (w/v) of essential oil that was analyzed by GC/MS being E-sesquilavandulyl acetate the major component, representing 43.8% of the oil. For assessment of the amoebicidal activity concentrations of 20, 10, 5, 2.5 and 1.25 mg/mL were tested against two A. polyphaga ATCC strains (environmental and clinical strains). The essential oil at the concentrations of 10 and 20 mg/mL was lethal to 100% of the trophozoites of both strains in 24h and 48h. The same effect was observed when the essential oil at the concentration of 5 mg/mL was assayed against the environmental strain of A. polyphaga trophozoítes. Essential oil cytotoxic effect in mammalian cells was determined by MTT assay. The amoebicidal effect (activity) obtained in this work is in accordance with previous report in which the lipophilic compounds from this plant were active against A. castellanii. Essential oil utilization as a component of contact lenses cleaning and surface disinfectant solutions should not be discarded, however further studies with its major component should be performed.

Ceratite por Acanthamoeba

Pterocaulon polystachyum

Óleos essenciais

Prevalência de Acanthamoeba spp. (Sarcomastigophora: Acanthamoebidae) em populações silvestres de Aedes aegypti (Diptera: Culicidae) / Prevalence of Acanthamoeba spp. (Sarcomastigophora: Acanthamoebidae) in wild populations of Aedes Aegypti (diptera: culicidae)

Otta, Dayane Andriotti

January 2012

Associações simbióticas, comensais e parasitárias são amplamente relatadas em insetos. Pelo fato de larvas de culicídeos e amebas de vida livre (AVL) habitarem meios aquáticos similares, objetivou-se verificar a prevalência de Acanthamoeba spp. em populações silvestres de Aedes aegypti. Esta AVL foi investigada em 60 pools contendo 10 larvas de A. aegypti, as quais foram coletadas através de ovitrampas instaladas em diversos bairros da cidade de Porto Alegre (RS, Brasil). Os isolados de Acanthamoeba spp. foram caracterizados morfologicamente e submetidos à técnica de Reação em Cadeia da Polimerase (PCR) para confirmação do gênero. Ademais, realizouse análise genotípica e testes presuntivos de patogenicidade para algumas cepas. Entre os pools, 54 (90%) foram positivos para AVL, dos quais 47 (87%) isolados eram pertencentes ao gênero Acanthamoeba. Os grupos genotípicos T4, T3 e T5 foram identificados, correspondendo a 14 (53,8%), 10 (38,5%) e dois (7,7%) isolados, respectivamente. De acordo com testes fisiológicos empregados para 14 cepas, 12 (85,7%) foram consideradas não patogênicas e duas (14,3%) foram consideradas com baixo potencial patogênico. Estes resultados servem como base para um maior conhecimento acerca da interação entre estes protozoários e mosquitos vetores, em seu habitat natural. Além disso, é o primeiro estudo dedicado ao isolamento de Acanthamoeba spp. a partir de culicídeos coletados do ambiente. / Symbiotic, commensal and parasitic associations are widely reported in insects. By the fact of mosquito larvae and free-living amoebae (FLA) occupy the similar aquatic sites, the aim of this study was to determine the prevalence of Acanthamoeba spp. in Aedes aegypti larvae collected in the environment. The amoebae were investigated in 60 pools, each containing 10 larvae of A. aegypti which were collected by using larvitraps installed in various districts of Porto Alegre (RS, Brazil). Acanthamoeba isolates were morphologically characterized and submitted to Polymerase Chain Reaction technique to confirm the genus. In addition, genotype analyses as well as presumptive tests for pathogenicity in some samples were performed. Among the pools, 54 (90%) were positive for FLA. From those isolates, 47 (87%) belong to the genus Acanthamoeba. The genotype groups T4, T3 and T5 have been identified corresponding to 14 (53.8%), 10 (38.5%) and two (7.7%) isolates respectively. The physiological tests performed in 14 strains showed that 12 (85.7%) were non pathogenic, while two (14.3%) were considered with low pathogenic potential. These results provide a basis for a better understanding between these protozoan and mosquitoes interaction in their natural habitat. Moreover, this study is the first to report isolation of Acanthamoeba spp. from mosquitoes collected in the environment.

Aedes

Acanthamoeba

Simbiose

Reação em cadeia da polimerase

Avaliação da atividade amebicida do extrato aquoso de própolis verde sobre trofozoítos e cistos de Acanthamoeba castellanii

Karusky, Carla de Magalhães

January 2014

O gênero Acanthamoeba compreende protozoários que pertencem ao grupo das amebas de vida livre e estão amplamente dispersos na natureza. São conhecidos por causarem duas graves doenças, a Encefalite Amebiana Granulomatosa, em pacientes imunodeprimidos e a Ceratite Amebiana, principalmente em usuários de lentes de contatos imunocompetentes. A própolis verde é uma substância resinosa e balsâmica, conhecida na medicina alternativa por apresentar diversas atividades biológicas. Neste trabalho foi avaliada a atividade amebicida de um extrato aquoso de própolis verde contra trofozoítos e cistos de A. castellanii . Nas concentrações de 10 e 20 mg/mL, o extrato foi capaz de inativar 100% dos trofozoítos em 24 e 48 horas. A dose de 5 mg/mL inativou 100% dos trofozoítos em 72 horas. Os cistos foram inativados na concentração de 40 mg/mL após 24 horas de exposição ao extrato. O efeito citotóxico do extrato foi avaliado sobre células VERO e HCE através do ensaio MTT. O extrato não causou efeito citotóxico significativo nas concentrações 0,312, 0,625, 1,25 e 2,5 mg/mL sobre as células HCE e nas concentrações 2,5 e 5 sobre as células VERO. O ensaio de adesão realizado mostrou que a ligação de Acanthamoeba às células HCE possui comportamento dose-dependente em relação ao extrato de própolis verde. Assim, o presente estudo demonstrou a atividade antiparasitária da própolis verde frente a ambas às formas de Acanthamoeba, mostrando-se uma substância promissora para o desenvolvimento de fármaco alternativo, bem como para utilização na composição de soluções de limpeza de lentes de contato ou superfícies. Entretanto, mais estudos são necessários para compreender seus mecanismos de ação. / The genus Acanthamoeba comprises protozoa belonging to the group of free-living amoebas and it is widely scattered in nature. These protozoa are known to cause two serious diseases, Granulomatous Amebic Encephalitis in immunocompromised patients and amebic keratitis, especially in immunocompetent contact lens wearers. Green Propolis is a resinous and balsamic substance, known in alternative medicine because of its several biological activities. In this study we evaluated the amoebicide activity of an aqueous extract of propolis against trophozoites and cysts of A. castellanii. At concentrations of 10 and 20 mg/mL, the extract was able to inactivate 100% of trophozoites within 24 and 48 hours. The dose of 5 mg/mL inactivated 100% of trophozoites within 72 hours. The cysts were inactivated at a concentration of 40 mg/mL after 24 hours of exposure to the extract. The cytotoxic effect of the extract was evaluated on VERO and HCE cells by MTT assay. The extract had no significant cytotoxic effect at concentrations of 0.312, 0.625, 1.25 and 2.5 mg/ml about HCE cells and at concentrations of 2.5 and 5 on VERO cells. The adhesion test performed showed that the attachment of Acanthamoeba to HCE cells have dose-dependent behavior in relation to the propolis extract. Thus, this study demonstrated the antiparasitic activity of propolis against both forms of Acanthamoeba and proved to be a promising substance for the development of an alternative drug, as well as its use in the formulation of cleaning solutions for contact lenses or surfaces. However, more studies are needed to understand their mechanisms of action.

Ceratite por Acanthamoeba

Propolis

Amebicidas

Encefalite