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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

Le rôle des cellulases dans les interactions entre les mycobactéries du complexe Mycobacterium tuberculosis et les amibes libres

Mba Medie, Felix 19 September 2011 (has links)
Le génome de Mycobacterium tuberculosis, l’agent causal de la tuberculose, code pour une protéine ayant la capacité de se fixer sur la cellulose (Rv1987), une cellulase potentielle (Rv1090), et une cellulase pleinement active (Rv0062). Cette observation est surprenante, car la cellulose est un composant majeur des parois des cellules végétales, tandis que M. tuberculosis est un pathogène humain sans contact connu avec des plantes. Nous avons émis l’hypothèse que ces protéines pourraient jouer un rôle dans les interactions entre les mycobactéries du complexe M. tuberculosis avec les kystes d’amibes libres, dont la paroi contient également de la cellulose. Dans notre travail de thèse, nous avons cherché par une analyse in silico la présence de ces trois gènes chez toutes les bactéries ayant un génome complètement séquencé présentes dans la base de données CAZy (accessible en ligne à l’adresse www.cazy.org). Cette étude a montré que seulement 2,5% des bactéries codent pour les trois gènes simultanément. Parmi ces bacteries, nous avons ensuite confirmé expérimentalement par PCR et séquençage la présence des gènes Rv0062, Rv1090 et Rv1987 chez les mycobactéries du complexe M. tuberculosis. Nous avons ensuite vérifié la transcription de ces trois gènes chez la souche de référence M. tuberculosis H37Rv, puis produit dans Escherichia coli des protéines de fusion Rv1090 et Rv1987 et montré qu'elles étaient capables d'hydrolyser la cellulose (Rv1090) et de s’y fixer (Rv1987). De plus, nous avons mis en place un model expérimental d’interaction entre les mycobactéries du complexe M. tuberculosis et les amibes libres dans le but de comprendre le rôle des gènes Rv0062, Rv1090 et Rv1987. Dans un premier temps nous avons montré que M. tuberculosis, Mycobacterium bovis, Mycobacterium canettii ainsi que Mycobacterium avium utilisé ici comme un controle positif étaient capables de survivre dans le cytoplasme des amibes libres telles que Acanthamoeba polyphaga. Ensuite, nous avons montré que M. tuberculosis et M. bovis mais pas M. canettii étaient capables de survivre à l’intérieur des kystes d’amibes. Enfin nous avons montré que M. tuberculosis, M. bovis et M. canettii étaient capables de survivre dans le sol pendant au moins 6 mois. Les données établies dans cette thèse soutiennent le rôle des cellulases dans la survie environnementale des mycobactéries du complexe M. tuberculosis, et ouvrent la voie à l’étude de cette phase méconnue dans le cycle de ces organismes / The genome of Mycobacterium tuberculosis, the causative agent of tuberculosis, encodes a protein with the ability to bind to cellulose (Rv1987), one potential cellulase (Rv1090), and one fully active cellulase (Rv0062). This observation is puzzling, because cellulose is a major component of plant cell walls, whereas M. tuberculosis is a human pathogen without known contact with plants. We hypothesized that these genes could play a role in the interactions between M. tuberculosis complex organisms and amoebal cysts, whose wall contains cellulose.In our thesis work, we have searched by in silico analysis for the presence of these three genes in all bacteria with complete sequenced genomes present in the CAZy database (available online at www.cazy. org). This study showed that only 2.5% of bacteria encode the three genes simultaneously. Among these bacteria we have confirmed experimentally by PCR and sequencing the presence of Rv0062, Rv1090 and Rv1987 in the M. tuberculosis complex organisms. We have checked the transcript of the three genes in the reference strain M. tuberculosis H37Rv and we subsequently produced Rv1090 and Rv1987 fusion proteins in Escherichia coli and demonstrated that they were indeed able to hydrolyze (Rv1090) and to bind (Rv1987) cellulose. In addition, we have developed an experimental model of interaction between M. tuberculosis organisms and the free-living amoebae in order to understand the role of Rv0062, Rv1090 and Rv1987 genes. Initially we have shown that M. tuberculosis, Mycobacterium bovis, Mycobacterium canettii and Mycobacterium avium used here as a positive control were able to survive in the cytoplasm of the free-living amoeba such as Acanthamoeba polyphaga. We have further shown that M. tuberculosis and M. bovis but not M. canettii were able to survive within the amoebal cysts. Finally we have shown that M. tuberculosis, M. bovis and M. canettii were able to survive in soil for at least 6 months. The data obtained in this thesis support the role of cellulase in the survival of M. tuberculosis complex organisms in the environment and pave the way for the study of this unknown phase in the cycle of these organisms.
2

Biodiversidade de amebas de vida livre e bactérias associadas a amebas em reservatórios de água de torres de resfriamento / Biodiversity of free-living amoebae and bacteria associated with amobae in tanks water from cooling towers

Oliveira, Scheila da Silva Soares de January 2016 (has links)
Amebas de vida livre (AVL) são protozoários amplamente distribuídos na natureza e em ambientes artificiais. Alguns gêneros são oportunistas ou patogênicos, com característica anfizóica, são esses: Acanthamoeba spp., Naegleria spp., Balamuthia spp., Sappinia spp., e recentemente Vermamoeba spp. AVL podem servirem de reservatórios de várias bactérias patogênicas, uma vez que se alimentam dessas no ambiente por fagocitose, algumas espécies de bactérias após internalizadas escapam da via de degradação sobrevivem e multiplicam-se no interior das amebas. Face ao exposto, o presente trabalho objetivou isolar e identificar AVL e as bactérias associadas presentes em águas de torres de resfriamento, cuja temperatura da água varia entre 25 a 30°C (ideal para o desenvolvimento de diversos microrganismos). Amebas foram isoladas em cultivo monoxênico com Escherichia coli inativadas pelo calor. Das amostras positivas, foram realizadas Reações em Cadeia de Polimerase (PCR), utilizando oligonucleotídeos específicos para cada gênero. Os produtos das PCR foram sequenciados e as sequências geradas foram comparadas com sequências parciais de cada gene alvo depositadas no GenBank. Das 36 amostras, 33 (91,66%) foram positivas para presença de AVL, destas 15 (45,4%) foram positivas para Acanthamoeba spp., 12 (36,3%) para Naegleria spp., 6 (18,2%) para Vermamoeba spp. Dos endossimbiontes pesquisados, somente Pseudomonas spp. foram identificadas em 13 (39,3%) isolados de AVL. Os resultados obtidos no presente estudo confirmam a presença de amebas de vida livre potencialmente patogênicas e carreadoras de bactérias patogênicas oportunistas que podem representar um risco à saúde humana. / Free-living amoebae (FLA) are protozoa widely distributed in natural and artificial environments. Some genus are opportunistic or pathogenic, with anfizoic feature : Acanthamoeba spp., Naegleria spp., Balamuthia spp., Sappinia spp., and recently Vermamoeba spp. AVL may serve as reservoirs for various pathogenic bacteria, since they feed by phagocytosis in the environment, some species of bacteria after internalized escape to the pathway of degradation surviving and multiplying within the amoebae. The aim of this study was to isolate and identify FLA and their associated bacteria present in water from cooling tower, whose temperature water varies between 25 to 30 °C (ideal for the development of different organisms). Amoebae were isolated in monoxenic cultivation with Escherichia coli inactivated by heat. Of the positive samples Polymerase Chain Reactions (PCR) were performed using specific primers for each genus. The PCR products were sequenced and the sequences were generated compared with partial sequences of each gene target deposited in GenBank. From the 36 samples, 33 (91.66%) were positive for the presence of FLA. Of these, 15 (45.4%) were positive for Acanthamoeba spp., 12 (36.3%) for Naegleria spp. and 6 (18.2 %) for Vermamoeba spp. Of the amoeba isolated, 13 (39.3%) were associated to bacteria wich belong to Pseudomonas genus (100%). Another bacteria investigated were absent. The results of this study confirm the presence of potentially pathogenic free-living amoebae as vehicles of opportunistic/pathogenic bacteria that can pose a risk to the human health.
3

Biodiversidade de amebas de vida livre e bactérias associadas a amebas em reservatórios de água de torres de resfriamento / Biodiversity of free-living amoebae and bacteria associated with amobae in tanks water from cooling towers

Oliveira, Scheila da Silva Soares de January 2016 (has links)
Amebas de vida livre (AVL) são protozoários amplamente distribuídos na natureza e em ambientes artificiais. Alguns gêneros são oportunistas ou patogênicos, com característica anfizóica, são esses: Acanthamoeba spp., Naegleria spp., Balamuthia spp., Sappinia spp., e recentemente Vermamoeba spp. AVL podem servirem de reservatórios de várias bactérias patogênicas, uma vez que se alimentam dessas no ambiente por fagocitose, algumas espécies de bactérias após internalizadas escapam da via de degradação sobrevivem e multiplicam-se no interior das amebas. Face ao exposto, o presente trabalho objetivou isolar e identificar AVL e as bactérias associadas presentes em águas de torres de resfriamento, cuja temperatura da água varia entre 25 a 30°C (ideal para o desenvolvimento de diversos microrganismos). Amebas foram isoladas em cultivo monoxênico com Escherichia coli inativadas pelo calor. Das amostras positivas, foram realizadas Reações em Cadeia de Polimerase (PCR), utilizando oligonucleotídeos específicos para cada gênero. Os produtos das PCR foram sequenciados e as sequências geradas foram comparadas com sequências parciais de cada gene alvo depositadas no GenBank. Das 36 amostras, 33 (91,66%) foram positivas para presença de AVL, destas 15 (45,4%) foram positivas para Acanthamoeba spp., 12 (36,3%) para Naegleria spp., 6 (18,2%) para Vermamoeba spp. Dos endossimbiontes pesquisados, somente Pseudomonas spp. foram identificadas em 13 (39,3%) isolados de AVL. Os resultados obtidos no presente estudo confirmam a presença de amebas de vida livre potencialmente patogênicas e carreadoras de bactérias patogênicas oportunistas que podem representar um risco à saúde humana. / Free-living amoebae (FLA) are protozoa widely distributed in natural and artificial environments. Some genus are opportunistic or pathogenic, with anfizoic feature : Acanthamoeba spp., Naegleria spp., Balamuthia spp., Sappinia spp., and recently Vermamoeba spp. AVL may serve as reservoirs for various pathogenic bacteria, since they feed by phagocytosis in the environment, some species of bacteria after internalized escape to the pathway of degradation surviving and multiplying within the amoebae. The aim of this study was to isolate and identify FLA and their associated bacteria present in water from cooling tower, whose temperature water varies between 25 to 30 °C (ideal for the development of different organisms). Amoebae were isolated in monoxenic cultivation with Escherichia coli inactivated by heat. Of the positive samples Polymerase Chain Reactions (PCR) were performed using specific primers for each genus. The PCR products were sequenced and the sequences were generated compared with partial sequences of each gene target deposited in GenBank. From the 36 samples, 33 (91.66%) were positive for the presence of FLA. Of these, 15 (45.4%) were positive for Acanthamoeba spp., 12 (36.3%) for Naegleria spp. and 6 (18.2 %) for Vermamoeba spp. Of the amoeba isolated, 13 (39.3%) were associated to bacteria wich belong to Pseudomonas genus (100%). Another bacteria investigated were absent. The results of this study confirm the presence of potentially pathogenic free-living amoebae as vehicles of opportunistic/pathogenic bacteria that can pose a risk to the human health.
4

Biodiversidade de amebas de vida livre e bactérias associadas a amebas em reservatórios de água de torres de resfriamento / Biodiversity of free-living amoebae and bacteria associated with amobae in tanks water from cooling towers

Oliveira, Scheila da Silva Soares de January 2016 (has links)
Amebas de vida livre (AVL) são protozoários amplamente distribuídos na natureza e em ambientes artificiais. Alguns gêneros são oportunistas ou patogênicos, com característica anfizóica, são esses: Acanthamoeba spp., Naegleria spp., Balamuthia spp., Sappinia spp., e recentemente Vermamoeba spp. AVL podem servirem de reservatórios de várias bactérias patogênicas, uma vez que se alimentam dessas no ambiente por fagocitose, algumas espécies de bactérias após internalizadas escapam da via de degradação sobrevivem e multiplicam-se no interior das amebas. Face ao exposto, o presente trabalho objetivou isolar e identificar AVL e as bactérias associadas presentes em águas de torres de resfriamento, cuja temperatura da água varia entre 25 a 30°C (ideal para o desenvolvimento de diversos microrganismos). Amebas foram isoladas em cultivo monoxênico com Escherichia coli inativadas pelo calor. Das amostras positivas, foram realizadas Reações em Cadeia de Polimerase (PCR), utilizando oligonucleotídeos específicos para cada gênero. Os produtos das PCR foram sequenciados e as sequências geradas foram comparadas com sequências parciais de cada gene alvo depositadas no GenBank. Das 36 amostras, 33 (91,66%) foram positivas para presença de AVL, destas 15 (45,4%) foram positivas para Acanthamoeba spp., 12 (36,3%) para Naegleria spp., 6 (18,2%) para Vermamoeba spp. Dos endossimbiontes pesquisados, somente Pseudomonas spp. foram identificadas em 13 (39,3%) isolados de AVL. Os resultados obtidos no presente estudo confirmam a presença de amebas de vida livre potencialmente patogênicas e carreadoras de bactérias patogênicas oportunistas que podem representar um risco à saúde humana. / Free-living amoebae (FLA) are protozoa widely distributed in natural and artificial environments. Some genus are opportunistic or pathogenic, with anfizoic feature : Acanthamoeba spp., Naegleria spp., Balamuthia spp., Sappinia spp., and recently Vermamoeba spp. AVL may serve as reservoirs for various pathogenic bacteria, since they feed by phagocytosis in the environment, some species of bacteria after internalized escape to the pathway of degradation surviving and multiplying within the amoebae. The aim of this study was to isolate and identify FLA and their associated bacteria present in water from cooling tower, whose temperature water varies between 25 to 30 °C (ideal for the development of different organisms). Amoebae were isolated in monoxenic cultivation with Escherichia coli inactivated by heat. Of the positive samples Polymerase Chain Reactions (PCR) were performed using specific primers for each genus. The PCR products were sequenced and the sequences were generated compared with partial sequences of each gene target deposited in GenBank. From the 36 samples, 33 (91.66%) were positive for the presence of FLA. Of these, 15 (45.4%) were positive for Acanthamoeba spp., 12 (36.3%) for Naegleria spp. and 6 (18.2 %) for Vermamoeba spp. Of the amoeba isolated, 13 (39.3%) were associated to bacteria wich belong to Pseudomonas genus (100%). Another bacteria investigated were absent. The results of this study confirm the presence of potentially pathogenic free-living amoebae as vehicles of opportunistic/pathogenic bacteria that can pose a risk to the human health.
5

Les amibes libres pathogènes des eaux chaudes de la Guadeloupe : étude écologique caractérisation moléculaire et prophylaxie des zones de baignade / The free amoeba pathogens of warm waters of Guadeloupe. : ecological study, molecular characterization and prophylaxis of bathing areas.

Moussa, Mirna 25 September 2015 (has links)
Les amibes sont des organismes unicellulaires eucaryotes, de 10 à 300 µm, pouvant vivre sous forme parasite ou évoluer librement dans les sols et les milieux aquatiques ou encore adopter l’une ou l’autre forme en fonction de l’environnement. Certaines amibes libres sont hautement pathogènes pour les animaux et l’homme, en particulier Naegleria fowleri qui se développe dans les eaux naturellement chaudes à des températures comprises entre 27 et 45°C. Cette espèce est responsable d'une encéphalite généralement mortelle, la méningo-encéphalite amibienne primitive (MEAP), dont un cas a été recensé en Guadeloupe en 2008. Un enfant de 9 ans ayant contracté la maladie est décédé quelques jours après un bain dans les eaux chaudes de Dolé, sur la commune de Gourbeyre. Notre travail de Thèse à l’Institut Pasteur, en collaboration avec l’ARS, a permis d’initier un programme de recherche sur ces amibes pathogènes très peu connues sur notre territoire, afin de mieux évaluer le risque lié aux baignades dans les sources géothermales de la Guadeloupe. Nous avons développé et mis au point une méthode de détection et de dénombrement des amibes faisant appel à la biologie moléculaire qui est aujourd’hui appliquée en routine au sein de notre laboratoire. Depuis Janvier 2011, un suivi mensuel a révélé la présence des amibes thermophiles et de l’amibe pathogène dans presque tous les sites analysés (Ravine Chaude, Bains de La Lise et Bain du Curé à Pigeon, Bains Jaunes, Bain de Dolé, Bain de Capes, Bain des Amours, Bain de la rivière Grosse-Corde, Chute du Carbet, Bain de Morphy et Bain chaud de Matouba), à l’exception des eaux chaudes soufrées et/ou salées de Sofaïa et de l’Anse Thomas à Bouillante. Le séquençage des produits de PCR obtenus et déposés dans Genbank nous a permis de confirmer l’appartenance de cette souche de N. fowleri, au type 3 Euro-américain, identique à celui détecté lors de l’accident de 2008 (Moussa et al. 2013). Le nombre d’amibes pathogènes retrouvées varie de 2 à 30 amibes/litre selon les bains, sans dépasser la limite de 100 amibes/litre recommandée par les autorités sanitaires. En dépit de ces faibles concentrations, une surveillance régulière des bassins est nécessaire. Sur l’ensemble de l’année 2011-2012, l’espèce pathogène N. fowleri a été la plus fréquemment rencontrée par rapport aux espèces non pathogènes N. lovaniensis et Hartmanella sp. Ces données de surveillance ont amené l’ARS et les communes concernées à organiser une campagne de sensibilisation à destination des populations locales et touristiques, reposant sur l’installation de panneaux de prévention à proximité des principaux sites où N. fowleri a été retrouvée.La présence régulière de N. fowleri tout au long de l’année dans la plupart des bains chauds et notamment dans les bains les plus fréquentés, a orienté notre travail sur la recherche de l’origine de leur contamination. Nous avons découvert que les sources géothermales ne sont pas contaminées à leur émergence, mais que les amibes proviennent de la terre en amont des bassins. Ce résultat qui montre que le sol est le réservoir naturel des amibes, nous a permis de proposer aux collectivités un moyen de lutte efficace en canalisant l’eau depuis l’émergence jusqu’au bassin, sans passer par le sol. / Amoebas are eukaryotic unicellular organisms, measuring from 10 to 300 µm, being able to live under a parasite form or to evolve freely in soils and aquatic media. They can even adopt either form depending of the environment. Some free living amoebas are highly pathogenic for animals and humans, especially Naegleria fowleri which develops in naturally hot waters at temperatures between 27 and 45°C. This species is responsible for an encephalitis generally lethal, the primary amoebic meningoencephalitis (PAM), a case of which occured in Guadeloupe in 2008. A 9-year-old child having contracted the disease, died a few days after a bath in the hot waters of Dolé, in Gourbeyre. Our Thesis at the Institut Pasteur of Guadeloupe, in association with the ARS, initiated a research program on these pathogenic amoebas poorly known in our territory, to better estimate the risk to contract the disease while bathing in geothermal recreational waters of Guadeloupe. We developed and worked out a method of detection and enumeration of amoebas using the molecular biology, which is currently applied in routine in our laboratory. Since January, 2011, a monthly monitoring of the baths revealed the presence of thermophilic free living amoebas and pathogenic amoeba in almost all the analyzed sites (Ravine Chaude, La Lise, Bain du Curé à Pigeon, Bains Jaunes, Bain de Dolé, Bain de Capès, Bain des Amours, Bain de la rivière Grosse-Corde, Chutes du Carbet, Morphy and the hot bath of Matouba), with the exception of sulphurated and/or salty hot waters of Sofaïa and the Anse-Thomas in Bouillante. The sequencing of the PCR products obtained were deposited in Genbank and confirmed that the Guadeloupean N. fowleri belonged to the Type-3 Euro-American, identical to that detected in the patient in 2008 (Moussa et al. 2013). The number of pathogenic amoebas varied from 2 to 30 amoebas / liter according to the baths, without exceeding the limit of 100 amoebas / liter recommended by the health authorities. In spite of this rather low concentration the baths require a regular surveillance. On the full year 2011-2012, the pathogenic species N. fowleri was the most frequently encountered species followed by N. lovaniensis and Hartmanella sp. These data of the surveillance led the ARS and the municipalities concerned to organize an awareness campaign destinated to the local and tourist population, based on the installation of prevention panels near the main sites where N. fowleri was found. The regular presence of N. fowleri during the year in most of the hot baths, especially the most frequented ones, leads us to look for the origin of their contamination. We discovered that geothermal springs are not contaminated at their emergence, but that amoebas come from the soil upstream the baths. This result which shows that soil is the natural reservoir of amoebas, allowed us to propose to the authorities effective means of prevention by installing pipes to carry the water from the emergence to the bath, without touching the soil.
6

Les processus de différenciation et la résistance des kystes aux traitements de désinfection chez l'amibe libre Vermamoeba vermiformis / The processes of differentiation and resistance of cysts to disinfection treatments in the free-living amoeba Vermamoeba vermiformis

Fouque, Emilie 09 December 2013 (has links)
V. vermiformis est une amibe libre répandue dans l'environnement et les milieux artificiels comme les réseaux d'eau chaude sanitaire (RECS). Il est maintenant bien établi qu'elle joue un rôle de réservoir pour des bactéries pathogènes, comme L. pneumophila. Le contrôle de V. vermiformis dans les RECS représente donc un enjeu sanitaire important. Les amibes libres peuvent passer d'une forme métaboliquement active (trophozoïte) à une forme de résistance, le kyste, lorsque les conditions sont défavorables ce qui leur confère une résistance aux traitements. Malgré la haute prévalence de V. vermiformis dans les RECS, les processus de différenciation et la résistance de ses kystes aux traitements n'ont été que peu étudiés. Nous avons donc investigué les changements morphologiques et ultrastructuraux qui s'opèrent lors de l'enkystement et désenkystement de V. vermiformis. Il en ressort que l'enkystement est un phénomène rapide (9 h) qui conduit à la formation de kystes entourés d'une paroi double couche. Lors du désenkystement, les trophozoïtes n'émergent pas à travers un ostiole comme c'est le cas chez Acanthamoeba. Puis, nous avons étudié l'effet des conditions environnementales et de la concentration cellulaire sur l'enkystement. Nous avons observé que plus la concentration cellulaire est élevée plus l'enkystement est rapide, ce qui suggère l'existence de mécanismes de communication intercellulaire. Enfin, nous avons étudié la résistance des kystes aux traitements utilisés dans les RECS et aux protéases. Ces traitements étaient efficaces, in vitro, pour inactiver les kystes de V. vermiformis. Ces travaux ont permis d'apporter des connaissances de bases sur les processus de d / Vermamoeba vermiformis is a free-living amoeba (FLA) widespread in the environment and artificial environments such as hot water networks. It is now well established that it acts as a reservoir for many pathogenic bacteria, such as Legionella pneumophila. The control of V. vermiformis in artificial environments represents an important health issue. FLA can turn from a metabolic active form (trophozoite) to a resistance form, called cyst, when conditions are unfavorable. Cysts are more resistant to treatments. Despite the high prevalence of V. vermiformis in hot water networks, the processes of differentiation and the resistance of cysts to disinfection treatments have been poorly studied. Therefore we investigated morphological and ultrastructural changes occurring during encystment and excystment of V. vermiformis. It appears that encystment is a fast process (9 h) which leads to the formation of cysts surrounded by a double-layered wall. During excystment, trophozoites do not emerge through an ostiole as is the case with Acanthamoeba. Then, we studied the effect of environmental conditions and cell concentration on encystment. We observed that the higher cell concentration was, the faster the encystment was, which suggests the existence of intercellular communication. Finally, we studied the resistance of cysts to conventional disinfection treatments used in hot water networks and to innovative treatment with proteases. These treatments were effective, in vitro, to inactivate V. vermiformis cysts. This work provides new finding regarding differentiation processes and cysts resistance of V. vermiformis, a free-living amoeba poorly studied.

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