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Obtenção de peptídeos com capacidade inibitória da ação citotoxigênica das toxinas Stx de Escherichia colia partir de bibliotecas de phage display / Obtention of inhibitory peptides of cytotoxic activity of Stx toxins produced by Escherichia colifrom phage display librariesBernedo-Navarro, Robert Alvin, 1975- 23 August 2018 (has links)
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Previous issue date: 2013 / Resumo: Escherichia coli produtora de toxina de Shiga (STEC) é um grupo de importantes patógenos para humanos. Essas bactérias são relacionadas a várias doenças, como por exemplo, Síndrome Urêmica Hemolítica e produzem potentes toxinas denominadas toxinas de Shiga. Essas toxinas, tanto Stx1 quanto Stx2, compartilham um receptor celular comum, a globotriaosilceramida (Gb3) e exibem a mesma atividade biológica intracelular. O desenvolvimento de novos agentes neutralizantes dos danos induzidos por Stx pode representar uma estratégia promissora para o tratamento das doenças causadas por STEC em humanos. No presente estudo, nós desenvolvemos peptídeos sintéticos que exibem atividade neutralizante contra a citotoxicidade induzida por Stx tanto in vitro quanto in vivo e, além disso, que se ligam eficientemente ao receptor Gb3. O peptídeo P12-26 compete eficientemente com Stx2 para a ligação ao Gb3 in vitro. Além disso, os peptídeos PC7-12, P12-26 e PC7-30 inibiram a citotoxicidade de Stx1 e Stx2 em células Vero. Nós observamos que o peptídeo PC7-30 em forma de loop e o peptídeo P12-26 que é linear produziram as maiores porcentagens de inibição de Stx1 e Stx2 em células Vero, respectivamente. No entanto, o peptídeo P12-26 não inibiu a letalidade em camundongos, enquanto que o peptídeo PC7-30 inibiu a letalidade causada pela toxina Stx1. Nossos resultados indicam que os peptídeos P12-26 e PC7-30 são candidatos promissores para o desenvolvimento de agentes terapêuticos contra as doenças em seres humanos causadas por STEC / Abstract: Shiga toxin-producing Escherichia coli strains are important pathogens for humans. These bacteria are linked with severe diseases such as hemolytic uremic syndrome and produce potent known as Shiga toxins. These toxins, Stx1 and Stx2, share a common cellular receptor called globotriaosylceramide (Gb3) and exhibit the same intracellular biological activity. The development of new neutralizing agents for Stx-induced damage may represent a promising strategy for the treatment of diseases caused by STEC infections. In this study, we developed synthetic peptides that exhibit neutralizing activity against Stxinduced cytotoxicity both in vitro and in vivo and that bind efficiently to the Gb3 receptor. The peptide P12-26 competed efficiently with Stx2 for binding to Gb3 in vitro. Moreover, the peptides PC7-12, P12-26 and PC7-30 inhibited the cytotoxicity of Stx1 and Stx2 in Vero cells. We observed that the loop-constrained peptide PC7-30 and linear peptide P12-26 produced higher percentages of inhibition of Stx1 and Stx2 in Vero cells, respectively. However, the peptide P12-26 did not inhibit lethality in mice, whereas the loopconstrained peptide PC7-30 inhibited the lethality caused by Stx1. Our results indicate that the peptides P12-26 and PC7-30 are promising candidates for the development of therapeutic agents against diseases caused by STEC in humans / Doutorado / Bioquimica / Doutor em Biologia Funcional e Molecular
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Impacts of low-water activity food type on inactivation kinetics and models of foodborne pathogens treated with low-temperature, vacuum-assisted steam processingAcuff, Jennifer Claire 29 April 2020 (has links)
Low water activity foods (LWAF), specifically nuts and dried fruits, have been generally considered safe because they do not support the growth of foodborne pathogens. However, many pathogens have been noted to survive in LWAF for considerable periods of time, and a number of recent outbreaks and recalls have implicated various types of nuts and dried fruits. The Food Safety Modernization Act requires food processors to develop preventive control plans that make ready-to-eat LWAF safer for consumers. The presented research was designed to investigate several aspects of LWAF safety by evaluating a steam process as a strategy to remove pathogen contamination from LWAF, modeling the inactivation of such treatments, and studying the thermal resistances of two E. coli strains in low-water activity solutions. Low-temperature, vacuum-assisted steam (vacuum-steam) was evaluated as a potential intervention and preventive control to remove pathogens from the surface of LWAF without using high-heat treatments that could damage product quality. The presented work examined the efficacy of vacuum-steam (<85°C) as a means to decontaminate the surface of whole macadamia nuts, dried apricot halves, and raisins from Salmonella spp., Listeria monocytogenes, and Shiga toxin-producing Escherichia coli (STEC) contamination. The low-temperature steam treatments successfully reduced all pathogens by >4 log CFU/g from the surfaces of the foods. Additionally, Pediococcus acidilactici, proved to be a surrogate organism for these pathogens and could be used to challenge and validate similar treatments within processing plants. The data were fit to models, which showed that food type significantly impacted the fit, with the Weibull model best describing bacterial inactivation kinetics on raisins and macadamia nuts, and the Gompertz model best describing reductions on the apricot halves. The models were challenged for validation of their abilities to predict times required for 3-log reductions using internal and external datasets, determining the usefulness to industry members who wish to design similar thermal treatments for LWAF. Comparing predicted values from internally constructed models to observed values generated from external data, models were shown to be limited in scope and application and could only be applied to pathogen inactivation on different LWAF or thermal processes in certain circumstances. First-order and Weibull model predictions of bacterial reductions on dried apricots had varied success in predicting times for 3-log reductions on other thermally treated LWAF. However, the models of bacterial reductions on thermally treated macadamia nuts frequently overestimated the times required for 3-log bacterial reductions for other LWAF. In an effort to understand the effect that reduced water activity has specifically on STEC, two strains were investigated for induced thermal resistance due to osmotic stress. Thermal resistance of STEC strains (O121:H19 and O157:H7) were evaluated on the basis of strain variation, culture preparation, and water activity (D- and z-values). At the lowest treatment temperature (56°C), O121 displayed greater heat resistance than O157, and the broth-grown samples exhibited greater heat resistance than the lawn-grown cells, but significant differences were not observed at higher temperatures. Samples in reduced-water activity solutions displayed reduced thermal resistance at 56°C, but the z-values were 29-43% higher than those of high-water activity samples. While water activity has been shown to impact thermal resistance of pathogens, comparisons of STEC thermal resistance according to the D- and z-values revealed that other factors also play roles in pathogen thermal resistance on LWAF. Results from the collection of experiments conclude that efficacy of thermal treatments is impacted by the physiological state of the cells, stress experienced in the food matrix, and characteristics of the food, including water activity and composition. / Doctor of Philosophy / Consumers expect foods they purchase to be safe to consume by themselves and family members, particularly those that are ready-to-eat with no additional cooking requirements. Many of these foods are low-water activity foods (LWAF), like nuts and dried fruits, with very little water content that could be used by bacteria. These foods may be preferred snack foods due to their affordability, long shelf lives, and health benefits over other types of snack foods. Until recently, LWAF were generally considered safe because they do not support the growth of foodborne pathogens due to the lack of moisture or water within the food. However, a number of recent outbreaks related to various types of nuts and dried fruits have proven that many pathogens can survive in dried foods, even if not actively growing, for considerable amounts of time. Designed to address these types of food safety issues, the Food Safety Modernization Act recognizes risks associated with foods and responded with regulations requiring food processors to take steps to make ready-to-eat LWAF, like nuts and dried fruits, safer for consumers. A popular strategy is to treat foods with heat to destroy pathogens, however the quality attributes of some nuts and dried fruits could be damaged by high-heat treatments like roasting. An alternative process uses a vacuum to form steam at lower temperatures, allowing for efficient heat transfer through water droplets to the surface of the foods, thus causing less damage to the foods without introducing too much moisture. This research evaluated how this process could be used by food processors to remove harmful bacteria from the surfaces of whole macadamia nuts, dried apricot halves, and raisins. Results indicated that the low-temperature steam treatments successfully reduced Salmonella, Listeria monocytogenes, and Shiga toxin-producing Escherichia coli (STEC) by >4 log CFU/g (>99.99%) from the surfaces of the foods. Additionally, a nonpathogenic lactic acid bacterium, Pediococcus acidilactici, exhibited similar or greater heat tolerance, which would allow food processors to use it as a substitute, or surrogate, for in-plant studies without introducing harmful bacteria into the food processing environment. Mathematical models were used to describe the trends of bacterial death due to the steam treatments, and the results indicated that the type of food significantly impacted the reduction of bacteria. The models were tested using additional data collected within our own laboratory, as well as others. Results indicated that some of the models could be used as predictors of bacterial death for similar LWAF but can only be applied with caution and consideration for the type of food and process. Additionally, two different E. coli strains associated with outbreaks (O121:H19 and O157:H7) were investigated to understand impacts of strain variation, growth method, and water activity on thermal resistance. Some differences in heat resistance were observed between the strains and between the growth methods. Additionally, the reduced water activity seemed to decrease the bacteria's ability to withstand some heat treatments. Overall, thermal resistance studies indicated that several factors, in addition to water activity, impact pathogens' development of resistance to heat treatments. The experiments' results show that there are complex relationships between bacteria and the food they inhabit. Food processors must consider these relationships in order to design the best thermal processes to make LWAF safe for consumers.
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Laterale Organisation von Shiga Toxin gebunden an Gb3-haltige Modellmembranen / Lateral Organisation of Shiga Toxin Bound to Model Membranes Containing Gb3Windschiegl, Barbara 23 January 2009 (has links)
No description available.
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Interaction d'Escherichia coli entérohémorragique (EHEC) avec Acanthamoeba castellanii et rôle du régulon Pho chez les EHECChekabab, Samuel Mohammed 03 1900 (has links)
Les EHEC de sérotype O157:H7 sont des agents zoonotiques d’origine alimentaire ou hydrique. Ce sont des pathogènes émergeants qui causent chez l’humain des épidémies de gastro-entérite aiguë et parfois un syndrome hémolytique-urémique. Les EHEC réussissent leur transmission à l’humain à partir de leur portage commensal chez l’animal en passant par l’étape de survie dans l’environnement. L’endosymbiose microbienne est une des stratégies utilisées par les bactéries pathogènes pour survivre dans les environnements aquatiques. Les amibes sont des protozoaires vivants dans divers écosystèmes et connus pour abriter plusieurs agents pathogènes. Ainsi, les amibes contribueraient à transmettre les EHEC à l'humain. La première partie de mon projet de thèse est centrée sur l'interaction de l’amibe Acanthamoeba castellanii avec les EHEC. Les résultats montrent que la présence de cette amibe prolonge la persistance des EHEC, et ces dernières survivent à leur phagocytose par les amibes. Ces résultats démontrent le potentiel réel des amibes à héberger les EHEC et à contribuer à leur transmission. Cependant, l’absence de Shiga toxines améliore leur taux de survie intra-amibe. Par ailleurs, les Shiga toxines sont partiellement responsables de l’intoxication des amibes par les EHEC. Cette implication des Shiga toxines dans le taux de survie intracellulaire et dans la mortalité des amibes démontre l’intérêt d’utiliser les amibes comme modèle d'interaction hôte/pathogène pour étudier la pathogénicité des EHEC.
Durant leur cycle de transmission, les EHEC rencontrent des carences en phosphate inorganique (Pi) dans l’environnement. En utilisant conjointement le système à deux composantes (TCS) PhoB-R et le système Pst (transport spécifique de Pi), les EHEC détectent et répondent à cette variation en Pi en activant le régulon Pho. La relation entre la virulence des EHEC, le PhoB-R-Pst et/ou le Pi environnemental demeure inconnue. La seconde partie de mon projet explore le rôle du régulon Pho (répondant à un stress nutritif de limitation en Pi) dans la virulence des EHEC. L’analyse transcriptomique montre que les EHEC répondent à la carence de Pi par une réaction complexe impliquant non seulement un remodelage du métabolisme général, qui est critique pour sa survie, mais aussi en coordonnant sa réponse de virulence. Dans ces conditions le régulateur PhoB contrôle directement l’expression des gènes du LEE et de l’opéron stx2AB. Ceci est confirmé par l’augmentation de la sécrétion de l’effecteur EspB et de la production et sécrétion de Stx2 en carence en Pi. Par ailleurs, l’activation du régulon Pho augmente la formation de biofilm et réduit la motilité chez les EHEC. Ceci corrèle avec l’induction des gènes régulant la production de curli et la répression de la voie de production d’indole et de biosynthèse du flagelle et du PGA (Polymère β-1,6-N-acétyle-D-glucosamine). / EHEC O157:H7 are an emerging zoonotic food- and water-borne hazard highly pathogenic to humans and associated with diseases ranging from acute gastroenteritis to hemolytic uremic syndrome. From their commensal carriage by farm animals to human targets, EHEC pass through a crucial step of persistence in the open environment. Microbial endosymbiosis is one strategy used by pathogenic bacteria to survive in aquatic environments. Amoebae species are free-living protozoa found in diverse environmental habitats and known to host several water-borne pathogens. Thus amoebae could contribute to transmission of EHEC to humans. The first part of my PhD project was focused on interaction of the free-living amoebae Acanthamoeba castellanii with EHEC. The results showed that the presence of amoeba extends the persistence of EHEC that survived phagocytosis by amoebae. This demonstrates the real potential of amoebae to harbourd EHEC that may contribute to their transmission. However, absence of shiga toxins enhanced the intra-amoeba survival. Moreover, EHEC had a toxic and lethal effect on amoebae partially due to shiga toxins. The involvement of shiga toxins in the intracellular survival and mortality of amoebae suggests the value of using amoebae as a model of host/pathogen interactions to study the pathogenicity of EHEC.
During their transmission cycle, EHEC encounter limitation inorganic phosphate (Pi) in the environment. Using jointly the PhoB-R two-component system (TCS) and the Pst (Pi specific transport) system, EHEC detect and respond to this Pi limitation by activating the Pho regulon. The interplay between the EHEC virulence, the Pho-Pst and/or the environmental Pi remains unknown. The second part of my project explored the role of Pho regulon (responding to Pi-limitation stress) in the virulence of EHEC. Transcriptomic analysis showed that EHEC has evolved a sophisticated response to Pi deficiency involving not only biochemical strategies that are likely critical to its survival, but also coordinating its virulence response. In these conditions, the regulator PhoB regulates directly the expression of LEE and Stx2 genes. This is confirmed by an increase in EspB secretion and Stx2 production and secretion in low Pi conditions. Moreover, the activation of Pho regulon increases biofilm formation and reduces motility in EHEC. This correlated with the induction of genes regulating curli production and repression of indole production pathway and the flagellum and PGA biosynthesis.
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Galectins and glycosphingolipids in clathrin-independent endocytosis and cell migration / Galectines et glycosphingolipides dans l'endocytose indépendante de la clathrine et lamigration cellulaireLakshminarayan, Ramya 12 June 2012 (has links)
Les voies d’endocytose qui régissent l’internalisation d’éléments extracellulaires peuvent être classées selon que la protéine de manteau, la clathrine, est impliquée ou non dans le processus. Les voies indépendantes de la clathrine sont utilisées par de nombreuses toxines, des virus et des protéines endogènes. Les mécanismes permettant d’induire le recrutement des protéines cargoes et la déformation de la membrane plasmique dans le contexte de l'endocytose clathrine-indépendant restent encore mal compris. Cette étude montre que la galectine 3, une protéine humaine qui se lie aux glucides, induit la formation d’invaginations de la membrane plasmique de manière indépendante de la clathrine. Les glycosphingolipides (molécules jouant un rôle majeur dans la physiologie de la cellule) sont essentielles pour permettre à la galectine 3 d’induire ces invaginations et d’être internalisée dans la cellule. Les structures tubulaires induites par la galectine 3 présentent une morphologie étonnamment similaire à celle de compartiments intermédiaires de transport décrits dans la littérature pour l’endocytose indépendante de la clathrine. Des cargos utilisant la voie indépendante de la clathrine, tels que CD44 et les intégrines α5 et β1, sont retrouvés dans les tubules induits par la galectine 3. De plus, cette dernière est nécessaire à l’internalisation de CD44. Cela indique donc que la galectine 3 pourrait relier des protéines cargos glycosylés à des glycosphyngolipides de la membrane plasmique et ainsi induire une déformation de la membrane et leur internalisation dans les cellules. Ce mécanisme diffère de celui utilisé par la toxine pentamérique de Shiga et par la toxine cholérique, qui sont leur protéines cargos propores et interagissant directement avec le glycosphyngolipide leur servant de récepteur. Les tubules induits par la galectine 3 sont distincts de ceux induit par les autres lectines. Celles-ci présentent des spécificités différentes de liaison aux glucides, montrant ainsi la l'importance des interactions entre les lectines et les sucres dans ce processus. De plus, nous avons constaté que la galectine 3 module l’équilibre à l’état basal de l’intégrine β1 à la surface de la cellule. Cette protéine étant capitale pour les phénomènes d’adhésion et de migration cellulaires, nous avons donc exploré le rôle conjoint de la galectine 3 et des glycosphingolipides dans la migration cellulaire. La galectine 3 inhibe la migration des cellules humaines de carcinomes mammaires alors qu’elle stimule au contraire celle de cellules de tumeurs mammaires murines. Or, nous avons montré que la régulation par la galactine 3 de la migration de différentes lignées cellulaires est dépendante des glycosphingolipides. Il ressort donc de cette étude que la galectine 3 et les glycosphingolipides contribuent de manière synergique au processus d’induction de déformation de la membrane, à l’endocytose de protéines cargos et à la migration cellulaire. / Endocytic processes which govern the uptake of extracellular material into the cell can be classified based on their dependence on the coat protein, clathrin. Clathrin-independent mechanisms are used by many toxins, viruses and endogenous proteins. How cargo is recruited and membranes are bent is not well understood in these cases. Here, we discovered that galectin 3, a human carbohydrate binding protein induced the clathrin-independent formation of endocytic plasma membrane invaginations. Glycosphingolipids, which have established functions in key physiological processes, were found to be essential for the formation of galectin 3-induced invaginations and for the efficient uptake of the protein into the cell. Galectin 3-induced tubular structures were found to have a strikingly similar morphology to that of the clathrin-independent carriers described in literature. Clathrin-independent endocytic cargoes such as CD44, α5 and β1 integrin were present in galectin 3-induced tubules, and galectin activity and glycosphingolipids were required for the uptake of CD44. This indicated that galectin 3 could link glycosylated cargoes with glycosphingolipids for cargo recruitment and membrane bending. In contrast, the pentameric Shiga and cholera toxins are their own cargoes and drive membrane deformations by directly binding to their respective glycosphingolipid receptors. Galectin 3-induced tubules were distinct from those induced by lectins with different carbohydrate binding specificities, which revealed the importance of lectin-glycan interaction in this process. Further, we observed that galectin 3 modulated the steady state surface dynamics of β1 integrin, a protein which like CD44 is critical for cell adhesion and migration. Subsequently, we explored the interplay of galectins and glycosphingolipids in cell migration. Galectin 3 inhibited cell migration in human breast carcinoma cells, and stimulated migration in a mouse mammary tumor cell line. However, the regulation of migration by galectin 3 was in both cases found to be dependent on glycosphingolipids. In conclusion, galectin 3 and glycosphingolipids synergistically contribute to the clathrin-independent curvature generation process, cargo endocytosis and cell migration.
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Prevalência e caracterização de Escherichia coli O157:H7 e outras cepas produtoras de toxina de Shiga (STEC) na linha de abate de carne bovina destinada à exportação / Prevalence and characterization of Escherichia coli O157: H7 and other Shiga toxin (STEC) producing strains in the export slaughter lineFogo, Verônica Simões 11 December 2009 (has links)
Escherichia coli é um microrganismo presente no trato intestinal do homem e de animais de sangue quente, fazendo parte da microbiota, coexistindo sem causar danos ao hospedeiro. No entanto, algumas linhagens desse microrganismo podem ser patogênicas e causar doenças tanto ao homem como aos animais. E. coli produtoras de toxina de Shiga (STEC), consideradas patógenos de origem alimentar, podem causar desde diarréias brandas até severas e sanguinolentas a complicações graves, como colite hemorrágica (HC), síndrome urêmica hemolítica (HUS) e púrpura trombótica trombocitopênica (TTP). O gado é considerado um importante reservatório deste patógeno e a contaminação de seres humanos ocorre, na maioria das vezes, através do consumo de alimentos ou água contaminados. O presente trabalho teve como objetivos avaliar a ocorrência de E. coli O157:H7 e outras STEC em amostras de couro de animais bovinos e de suas respectivas carcaças, na etapa de pré-evisceração, e meia-carcaças, na etapa de pós-evisceração; identificar os genes que codificam para os fatores de virulência (stx1 , stx2, eaeA e ehxA) dos isolados obtidos; evidenciar cepas de E. coli O157:H7 através da pesquisa do gene uidA; identificar os sorotipos dos isolados; verificar a citotoxicidade dos isolados de STEC em células Vero e avaliar a sensibilidade a diferentes antibióticos. De 198 animais amostrados, sete (3,5%) apresentaram cepas de STEC. Em seis (3%) destes, STEC foi detectada no couro e em um (0,5%) foi isolada de meia-carcaça, não tendo sido detectada em amostras de carcaça. As 23 cepas isoladas do couro apresentaram o perfil stx2, eaeA, uidA e ehxA, podendo ser consideradas E. coli enterohemorrágica (EHEC), e a isolada de meia carcaça apresentou o perfil stx2, uidA e ehxA. Das 24 cepas isoladas, 13 (54,2%) pertenciam ao sorotipo O157:H7. Além deste sorotipo, foram isoladas cepas de outros sorotipos previamente descritos e associados a doenças humanas severas no Brasil e em outros países, como O174:H21, O6:H49, ONT:H7, ONT:H8 e OR:H10. Dos sete animais com cepas positivas para stx2e ehxA, cinco (71,4%) apresentaram cepas com atividade citotóxica em células Vero e um (14,2%) apresentou cepas positivas na avaliação da produção de entero-hemolisina. Com relação ao teste com antibióticos, quatro (16,7%) das 24 cepas testadas apresentaram resistência a um ou mais antibióticos, sendo três (12,5%) a estreptomicina e uma (4,2%) a estreptomicina e ampicilina. Diante destes resultados, pode-se dizer que a produção de entero-hemolisina e a pesquisa dos genes ehxA e uidA não demonstraram ser bons marcadores na pesquisa do sorotipo O157:H7. A presença de cepa de STEC na meia-carcaça alerta para a necessidade de vigilância da presença destes microrganismos, uma vez que eles poderiam contaminar o produto final, colocando em risco a saúde do consumidor. / Escherichia coli is a microorganism present in the intestinal tract of humans and warm-blood animals, being part of the normal microbiota and harmless to the host. However, some strains are able to cause human and animal infections. Shiga toxin-producing E. coli (STEC), regarded as foodborne pathogens, can cause since mild or severe and bloody diarrhea to major complications, such as hemorrhagic colitis (HC), hemolytic-uremic syndrome (HUS) and thrombotic thrombocytopenic purpura (TTP). Cattle are considered the main reservoir of this pathogen and the transmission to humans happens, most of the times, due to the consumption of contaminated food or water. The aim of the present research was to determine the prevalence of E. coli O157:H7 and other STEC on hide samples of beef cattle and on their corresponding carcasses, sampled prior to evisceration, and half-carcasses, sampled after evisceration; identity the genes that code for the virulence factors (stx1, stx2, eaeA e ehxA) of the isolates; detect E. coli O157:H7 strains using the gene uidA as epidemiological marker; identify the serotypes of the STEC isolates; verify the citotoxicity of the isolates in Vero cells and evaluate their resistance to different antibiotics. From 198 animals sampled, seven (3.5%) carried STEC strains. In six (3%) of them, STEC was detected on hide and in one (0.5%) it was isolated from half-carcass. The 23 strains isolated from hide presented the profile stx2, eaeA, uidA e ehxA, and were regarded as enterohemorrhagic Escherichia coli (EHEC), and the one isolated from half-carcass presented the profile stx2, uidA e ehxA. From the 24 isolated strains, 13 (54.2%) belonged to the serotype O157:H7. Besides this serotype, other strains belonging to serotypes that have been previously described and associated with severe human infections in Brazil and other countries, such as O174:H21 , O6:H49, ONT:H7, ONT:H8 and OR:H10, were isolated. From seven animals with strains harboring stx2, and ehxA, five (71.4%) presented verocytotoxigenic strains and one (14.2%) presented enterohemolisin producing strains. Regarding the antibiotics tested, four (16.7%) of the 24 isolated strains were resistant to some antibiotic, being three (12.5%) to streptomycin and one (4.2%) to streptomycin and ampicilin. Faced with these results, the production of enterohemolisin and the search of the genes ehxA and uidA can not be considered good epidemiological markers for the serotype O157:H7. The isolation of STEC strain from the half-carcass alerts for the need of surveillance on the presence of these microorganisms, since they may contaminate the final product, representing a risk to consumers health.
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Prevalência e caracterização de Escherichia coli O157:H7 e outras cepas produtoras de toxina de Shiga (STEC) na linha de abate de carne bovina destinada à exportação / Prevalence and characterization of Escherichia coli O157: H7 and other Shiga toxin (STEC) producing strains in the export slaughter lineVerônica Simões Fogo 11 December 2009 (has links)
Escherichia coli é um microrganismo presente no trato intestinal do homem e de animais de sangue quente, fazendo parte da microbiota, coexistindo sem causar danos ao hospedeiro. No entanto, algumas linhagens desse microrganismo podem ser patogênicas e causar doenças tanto ao homem como aos animais. E. coli produtoras de toxina de Shiga (STEC), consideradas patógenos de origem alimentar, podem causar desde diarréias brandas até severas e sanguinolentas a complicações graves, como colite hemorrágica (HC), síndrome urêmica hemolítica (HUS) e púrpura trombótica trombocitopênica (TTP). O gado é considerado um importante reservatório deste patógeno e a contaminação de seres humanos ocorre, na maioria das vezes, através do consumo de alimentos ou água contaminados. O presente trabalho teve como objetivos avaliar a ocorrência de E. coli O157:H7 e outras STEC em amostras de couro de animais bovinos e de suas respectivas carcaças, na etapa de pré-evisceração, e meia-carcaças, na etapa de pós-evisceração; identificar os genes que codificam para os fatores de virulência (stx1 , stx2, eaeA e ehxA) dos isolados obtidos; evidenciar cepas de E. coli O157:H7 através da pesquisa do gene uidA; identificar os sorotipos dos isolados; verificar a citotoxicidade dos isolados de STEC em células Vero e avaliar a sensibilidade a diferentes antibióticos. De 198 animais amostrados, sete (3,5%) apresentaram cepas de STEC. Em seis (3%) destes, STEC foi detectada no couro e em um (0,5%) foi isolada de meia-carcaça, não tendo sido detectada em amostras de carcaça. As 23 cepas isoladas do couro apresentaram o perfil stx2, eaeA, uidA e ehxA, podendo ser consideradas E. coli enterohemorrágica (EHEC), e a isolada de meia carcaça apresentou o perfil stx2, uidA e ehxA. Das 24 cepas isoladas, 13 (54,2%) pertenciam ao sorotipo O157:H7. Além deste sorotipo, foram isoladas cepas de outros sorotipos previamente descritos e associados a doenças humanas severas no Brasil e em outros países, como O174:H21, O6:H49, ONT:H7, ONT:H8 e OR:H10. Dos sete animais com cepas positivas para stx2e ehxA, cinco (71,4%) apresentaram cepas com atividade citotóxica em células Vero e um (14,2%) apresentou cepas positivas na avaliação da produção de entero-hemolisina. Com relação ao teste com antibióticos, quatro (16,7%) das 24 cepas testadas apresentaram resistência a um ou mais antibióticos, sendo três (12,5%) a estreptomicina e uma (4,2%) a estreptomicina e ampicilina. Diante destes resultados, pode-se dizer que a produção de entero-hemolisina e a pesquisa dos genes ehxA e uidA não demonstraram ser bons marcadores na pesquisa do sorotipo O157:H7. A presença de cepa de STEC na meia-carcaça alerta para a necessidade de vigilância da presença destes microrganismos, uma vez que eles poderiam contaminar o produto final, colocando em risco a saúde do consumidor. / Escherichia coli is a microorganism present in the intestinal tract of humans and warm-blood animals, being part of the normal microbiota and harmless to the host. However, some strains are able to cause human and animal infections. Shiga toxin-producing E. coli (STEC), regarded as foodborne pathogens, can cause since mild or severe and bloody diarrhea to major complications, such as hemorrhagic colitis (HC), hemolytic-uremic syndrome (HUS) and thrombotic thrombocytopenic purpura (TTP). Cattle are considered the main reservoir of this pathogen and the transmission to humans happens, most of the times, due to the consumption of contaminated food or water. The aim of the present research was to determine the prevalence of E. coli O157:H7 and other STEC on hide samples of beef cattle and on their corresponding carcasses, sampled prior to evisceration, and half-carcasses, sampled after evisceration; identity the genes that code for the virulence factors (stx1, stx2, eaeA e ehxA) of the isolates; detect E. coli O157:H7 strains using the gene uidA as epidemiological marker; identify the serotypes of the STEC isolates; verify the citotoxicity of the isolates in Vero cells and evaluate their resistance to different antibiotics. From 198 animals sampled, seven (3.5%) carried STEC strains. In six (3%) of them, STEC was detected on hide and in one (0.5%) it was isolated from half-carcass. The 23 strains isolated from hide presented the profile stx2, eaeA, uidA e ehxA, and were regarded as enterohemorrhagic Escherichia coli (EHEC), and the one isolated from half-carcass presented the profile stx2, uidA e ehxA. From the 24 isolated strains, 13 (54.2%) belonged to the serotype O157:H7. Besides this serotype, other strains belonging to serotypes that have been previously described and associated with severe human infections in Brazil and other countries, such as O174:H21 , O6:H49, ONT:H7, ONT:H8 and OR:H10, were isolated. From seven animals with strains harboring stx2, and ehxA, five (71.4%) presented verocytotoxigenic strains and one (14.2%) presented enterohemolisin producing strains. Regarding the antibiotics tested, four (16.7%) of the 24 isolated strains were resistant to some antibiotic, being three (12.5%) to streptomycin and one (4.2%) to streptomycin and ampicilin. Faced with these results, the production of enterohemolisin and the search of the genes ehxA and uidA can not be considered good epidemiological markers for the serotype O157:H7. The isolation of STEC strain from the half-carcass alerts for the need of surveillance on the presence of these microorganisms, since they may contaminate the final product, representing a risk to consumers health.
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The Anti-toxin Properties of Grape Seed Phenolic CompoundsCherubin, Patrick 01 January 2014 (has links)
Corynebacterium diphtheriae, Pseudomonas aeruginosa, Ricinus communis, Shigella dysentariae, and Vibrio cholerae produce AB toxins which share the same basic structural characteristics: a catalytic A subunit attached to a cell-binding B subunit. All AB toxins have cytosolic targets despite an initial extracellular location. AB toxins use different methods to reach the cytosol and have different effects on the target cell. Broad-spectrum inhibitors against these toxins are therefore hard to develop because they use different surface receptors, entry mechanisms, enzyme activities, and cytosolic targets. We have found that grape seed extract provides resistance to five different AB toxins: diphtheria toxin (DT), P. aeruginosa exotoxin A (ETA), ricin, Shiga toxin, and cholera toxin (CT). To identify individual compounds in grape seed extract that are capable of inhibiting the activities of these AB toxins, we screened twenty common phenolic compounds of grape seed extract for anti-toxin properties. Three compounds inhibited DT, four inhibited ETA, one inhibited ricin, and twelve inhibited CT. Additional studies were performed to determine the mechanism of inhibition against CT. Two compounds inhibited CT binding to the cell surface and even stripped bound CT off the plasma membrane of a target cell. Two other compounds inhibited the enzymatic activity of CT. We have thus identified individual toxin inhibitors from grape seed extract and some of their mechanisms of inhibition against CT. This work will help to formulate a defined mixture of phenolic compounds that could potentially be used as a therapeutic against a broad range of AB toxins.
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A New Murine Model For Enterohemorrhagic Escherichia coli Infection Reveals That Actin Pedestal Formation Facilitates Mucosal Colonization and Lethal Disease: A DissertationMallick, Emily M. 28 March 2012 (has links)
Enterohemorrhagic Escherichia coli (EHEC) colonizes the intestine and produces the phage-encoded Shiga toxin (Stx) which is absorbed systemically and can lead to hemolytic uremic syndrome (HUS) characterized by hemolytic anemia, thrombocytopenia, and renal failure. EHEC, and two related pathogens, Enteropathogenic E. coli (EPEC), and the murine pathogen, Citrobacter rodentium, are attaching and effacing (AE) pathogens that intimately adhere to enterocytes and form actin “pedestals” beneath bound bacteria. The actin pedestal, because it is a unique characteristic of AE pathogens, has been the subject of intense study for over 20 years. Investigations into the mechanism of pedestal formation have revealed that to generate AE lesions, EHEC injects the type III effector, Tir, into mammalian cells, which functions as a receptor for the bacterial adhesin intimin. Tir-intimin binding then triggers a signaling cascade leading to pedestal formation. In spite of these mechanistic insights, the role of intimin and pedestal formation in EHEC disease remains unclear, in part because of the paucity of murine models for EHEC infection. We found that the pathogenic significance of EHEC Stx, Tir, and intimin, as well as the actin assembly triggered by the interaction of the latter two factors, could be productively assessed during murine infection by recombinant C. rodentium expressing EHEC virulence factors. Here we show that EHEC intimin was able to promote colonization of C. rodentium in conventional mice. Additionally, previous in vitro data indicates that intimin may have also function in a Tir-independent manner, and we revealed this function using streptomycin pre-treated mice. Lastly, using a toxigenic C. rodentium strain, we assessed the function of pedestal formation mediated by Tir-intimin interaction and found that Tir-mediated actin polymerization promoted mucosal colonization and a systemic Stx-mediated disease that shares several key features with human HUS.
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Chemical biology approaches to study toxin clustering and lipids reorganization in Shiga toxin endocytosis / Etude de la condensation et de la réorganisation des lipides lors de l’endocytose de la toxine de Shiga via une approche de biologie chimiqueGao, Haifei 12 November 2015 (has links)
La toxine bactérienne de Shiga se lie au glycosphingolipide (GSL) globotriaosylcéramide (Gb3) afin d’entrer par endocytose dans les cellules en utilisant une voie dépendante et indépendante de la clathrine. Dans la voie indépendante de la clathrine, la toxine de Shiga réorganise les lipides de la membrane de façon à imposer une contrainte mécanique sur la bicouche, conduisant ainsi à la formation de pic d’invagination d'endocytose profonds et étroits. Mécaniquement ce phénomène n’est pas encore compris, notamment il reste énigmatique, comment se traduisent les propriétés géométriques de l’agrégation des glycosphingolipides GSLS et de la toxine. Dans mon travail de thèse, via l’utilisation de la sous-unité B de la toxine de Shiga (STxB) comme un modèle, différentes espèces moléculaires de son récepteur Gb3 ont été synthétisés avec des structures délibérément choisis. Les études réalisées par imagerie de haute résolution et par la modélisation informatique ont permis d’élucider les contraintes mécano-chimique sous-jacente conduisant à une réorganisation efficace qui a pour résultat l’agrégation de la toxine et la réorganisation des lipides. En combinant des expériences de simulation sur ordinateur de dynamique des particules dissipatives (DPD) et des expériences sur des modèles de membranes cellulaires, nous avons fourni la preuve de l’induction d’une force de fluctuation-membrane, de type « force de Casimir », conduisant à l'agrégation des molécules de toxines associées à la membrane à des échelles de longueur mésoscoiques. Nous avons observé et mesuré, en outre la condensation lipidique induite par la toxine, quantitativement sur des monocouches de Langmuir en utilisant la réflectivité des rayons X (XR) et par la mesure de la diffraction des rayons X par incidence rasante (GIXD), fournissant ainsi une preuve directe de l'hypothèse que la toxine a le potentiel de réduire de façon asymétrique la surface moléculaire sur la partie membranaire exoplasmique, ce qui conduit à une déformation locale de la membrane. Durant ma thèse, nos efforts ont été consacrés à la réalisation de nouveaux glycosphinolipides (GSL) comme outils chimiques à visée biologique. Par ailleurs, une nouvelle stratégie de reconstitution de GSL fonctionnels sur la membrane cellulaire, basée sur une réaction de ligation de type « click » entre un glycosyl-cyclooctyne et un azido-sphingosine a été étudiée. Les résultats obtenus sur les cellules se sont avérés beaucoup moins efficace que ceux in vitro. Une poursuite de l'optimisation de cette méthodologie est actuellement en cours. Une sonde fluorescente du glycosphinolipide Gb3, marquée à l’Alexa Fluor 568 lui-même lié par l'intermédiaire d'un bras PEG-α à la position de la chaîne acyle, a été synthétisée. Cette sonde se lie à la STxB sur couche mince de TLC, mais pas sur des membranes modèles. D'autres améliorations sont discutées. / Bacterial Shiga toxins bind to the glycosphingolipid (GSL) globotriaosylceramide (Gb3) to enter cells by clathrin-dependent and independent endocytosis. In the clathrin-independent pathway, Shiga toxin reorganizes membrane lipids in a way such as to impose mechanical strain onto the bilayer, thus leading to the formation of deep and narrow endocytic pits. Mechanistically how this occurs is not yet understood, and notably how the geometric properties of toxin-GSLs complexes translate into function has remained enigmatic. In my thesis work, using the B-subunit of Shiga toxin (STxB) as a model, different molecular species of its receptor Gb3 have been synthesized with deliberately chosen structures, coupled with high resolution imaging and computational modeling, to understand the underlying mechano-chemical constraints leading to efficient toxin clustering and lipids reorganization. By combining dissipative particle dynamics (DPD) computer simulation and experiments on cell and model membranes, we provided evidence that a membrane fluctuation-induced force, termed Casimir-like force, drives the aggregation of tightly membrane-associated toxin molecules at mesoscopic length scales. Furthermore, toxin-induced lipid condensation was observed and measured quantitatively on Langmuir monolayers using X-ray reflectivity (XR) and grazing incidence x-ray diffraction (GIXD), thereby providing direct evidence for the hypothesis that the toxin has the potential to asymmetrically reduce the molecular area of the exoplasmic membrane leaflet, leading to local membrane deformation. During my PhD, effort was also invested to develop new GSL tools applied to the biological setting. A novel strategy based on the Cu-free click reaction between glycosyl-cyclooctyne and azido-sphingosine was designed with the goal to functionally incorporate GSLs into cellular membranes. Following the synthesis work, click reactions have been performed in solution and on cells. Compared to the former, results on cells were far less efficient. Further optimization is currently ongoing. A fluorescently labeled Gb3 probe with Alexa Fluor 568 coupled via a PEG linker to the α-position of the acyl chain, was synthesized, to which STxB bound on TLCs, but not on model membranes. Further improvements are discussed.
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