Global ETD Search

191	Fatores de transcrição da família MarR e resistência a antibióticos em Chromobacterium violaceum / MarR family transcription factors and antibiotic resistance in Chromobacterium violaceum Kelly Cristina Martins Barroso 09 November 2017 (has links) A resistência aos antibióticos é um problema de saúde pública global com sérias consequências para o tratamento de várias infecções bacterianas. Os fatores de transcrição da família MarR têm sido descritos controlando resistência a antibióticos e vários outros processos em bactérias. Neste trabalho, estudamos mecanismos de resistência a antibióticos em Chromobacterium violaceum, uma bactéria Gram-negativa ambiental que pode atuar como um patógeno oportunista em humanos. A estratégia envolveu a varredura de um painel de treze linhagens mutantes de fatores de transcrição da família MarR de C. violaceum disponíveis, por testes de susceptibilidade a 24 antibióticos. Estes ensaios revelaram que apenas o mutante ?emrR apresentou resistência aumentada ao antibiótico ácido nalidíxico em relação à linhagem selvagem. Esta resistência aumentada do mutante ?emrR ao ácido nalidíxico foi revertida em uma linhagem complementada deste mutante, conforme verificado por ensaios de viabilidade, ensaios de difusão em disco e concentração inibitória mínima (MIC). O fenótipo de diminuída produção de violaceína deste mutante, observado em meio líquido, também foi complementado. Além disso, foi realizado o isolamento de mutantes espontâneos de C. violaceum resistentes a ácido nalidíxico com mutação pontual em emrR. Os ensaios de microarranjo de DNA mostraram que EmrR reprime algumas dezenas de genes, incluindo o operon emrCAB, o qual codifica a bomba de efluxo EmrCAB. Os ensaios de Northern blot confirmaram que o EmrR reprime o operon emrCAB, e que a expressão desta bomba é induzida por salicilato, mas não outros compostos, como ácido nalidíxico ou brometo de etídeo. Os ensaios de alteração de mobilidade eletroforética (EMSA) mostraram que a proteína EmrR purificada se liga diretamente às 8 regiões promotoras de emrR, emrCAB e vários outros genes do regulon EmrR, para exercer uma regulação negativa direta sobre esses genes. Um mutante nulo ?emrCAB foi obtido, mas a ausência desta bomba de efluxo não tornou C. violaceum mais susceptível ao ácido nalidíxico, sugerindo que ela é importante somente em condições nas quais é induzida. Estas condições indutoras talvez incluam estresse oxidativo, uma vez que enzimas antioxidantes são parte do regulon de EmrR e a proteína EmrR formou dímeros covalentes na presença de agentes oxidantes in vitro. Portanto, nossos dados revelam que mutações pontuais ou moléculas como salicilato abolem a atividade repressora do fator de transcrição EmrR sobre o operon emrCAB, levando a superexpressão da bomba de efluxo EmrCAB e aumentando a resistência ao ácido nalidíxico em C. violaceum. / Antibiotic resistance is a global public health problem with serious consequences for the treatment of various bacterial infections. MarR family transcription factors have been described controlling antibiotic resistance and several other processes in bacteria. In this work, we studied mechanisms of antibiotic resistance in Chromobacterium violaceum, an environmental Gramnegative bacterium that can act as a human opportunistic pathogen. The strategy involved a screening of an available collection of thirteen C. violaceum mutant strains of MarR family transcription factors, by susceptibility testing for 24 antibiotics. These assays revealed that only the ?emrR mutant showed increased resistance to the antibiotic nalidixic acid in relation to the wild-type strain. This increased resistance of the ?emrR mutant to nalidixic acid was reversed in a complemented strain of this mutant, as verified by viability, disk diffusion, and minimal inhibitory concentration (MIC) assays. The phenotype of decreased violacein production of this mutant, observed in a liquid medium, was also complemented. In addition, it was performed the isolation of spontaneous mutants of C. violaceum resistant to nalidixic acid with a point mutation in emrR. DNA microarray assays showed that EmrR represses a few dozen of genes, including the emrCAB operon, which encodes the EmrCAB efflux pump. Northern blot assays confirmed that EmrR represses the emrCAB operon and that the expression of this pump is induced by salicylate, but not other compounds, such as nalidixic acid or ethidium bromide. Electrophoretic mobility shift assays (EMSA) showed that the purified EmrR protein binds directly to the promoter regions of emrR, emrCAB and several other genes of the EmrR regulon, to exert a direct negative regulation of these genes. A ?emrCAB null mutant strain was obtained, but the absence of this efflux pump did not make C. violaceum more susceptible to nalidixic acid, suggesting that it is important only under conditions in which it is induced. These inducing conditions may include 10 oxidative stress since antioxidant enzymes are part of the EmrR regulon and the EmrR protein has formed covalent dimers in the presence of oxidizing agents in vitro. Therefore, our data reveal that point mutations or molecules such as salicylate abolish the repressive activity of the EmrR transcription factor on the emrCAB operon, causing overexpression of the EmrCAB efflux pump and increasing the resistance to nalidixic acid in C. violaceum. Bombas de efluxo Chromobacterium violaceum Família MarR Fatores de transcrição Regulador EmrR Resistência a antibióticos Antibiotic resistance Chromobacterium violaceum Efflux pumps EmrR regulator Transcription factors; MarR family
192	Etudes structurales et fonctionnelles de la pompe d'efflux MexAB-OprM impliquée dans la résistance aux antibiotiques chez Pseudomonas aeruginosa / Structural and functional studies of MexAB-OprM efflux pump involved in Pseudomonas aeruginosa antibiotics resistance Monlezun, Laura 11 December 2012 (has links) Pseudomonas aeruginosa est un pathogène opportuniste impliqué dans les infections nosocomiales. Sa multi résistance aux antibiotiques s’exerce notamment grâce à l’activation de pompes d’efflux membranaires. Il s’agit de systèmes tripartites composés d’une porine de la famille OMF (Outer Membrane Factor) ancrée dans la membrane externe, d’un transporteur de la famille des RND (Resistance Nodulation Division) localisé dans la membrane interne et d’un adaptateur périplasmique de la famille des MFP (Membrane Fusion Protein) qui consolide l’ensemble. Le travail réalisé au cours de cette thèse apporte une contribution à la compréhension des mécanismes d’assemblage et d’ouverture des pompes d’efflux ainsi qu’à leur régulation grâce au développement de nouveaux outils empruntés à la physique, à la biochimie et à la microbiologie. Une première étude a permis de déterminer la stoechiométrie d’interaction entre MexA et OprM par gel bleu natif (Ferrandez, Monlezun et al. 2012). Une deuxième étude a été consacrée, dans le cadre d’une collaboration avec l’équipe de B. Le Pioufle (ENS Cachan), à la caractérisation par électrophysiologie de l'ouverture de la porine OprM, insérée dans une membrane artificielle reconstituée sur une biopuce (Wang, Monlezun et al. 2012). Puis, afin d’étudier cette fois ci, le mécanisme d’ouverture de la porine OprM in vivo, une étude fonctionnelle par complémentation chez Pseudomonas aeruginosa a été initiée. Enfin, dans le cadre d'une collaboration avec l’équipe de P. Plésiat (Laboratoire de Bactériologie, Besançon), deux analyses de mutants cliniques par modélisation ont été réalisées sur le régulateur MexZ de la pompe MexXY/OprM et de la porine d’influx des carbapénèmes OprD. / Pseudomonas aeruginosa is an opportunistic pathogen involved in nosocomial infections. This bacteria has developed various strategies to resist antibiotics treatments, one of them being the activation of membrane efflux pumps. These tripartite systems consist of an OMF (Outer Membrane Factor) family porin, localized in the outer membrane, an active transporter in the inner membrane, belonging to the RND (Resistance Nodulation Division) family and a periplasmic adaptator protein, member of the MFP (Membrane Fusion Protein) family which consolidates the whole complex. Results obtained during this thesis contribute to a better understanding of efflux pumps’ assembly and opening thanks to the development of new research tools borrowed from physic, biochemistry and microbiology. The first study describes the binding stoechiometry of MexA with its cognate partner OprM by Blue Native Polyacrylamide gel Electrophoresis (Ferrandez, Monlezun et al. 2012). Secondly, a study, in collaboration with B. Le Pioufle’s team (ENS Cachan), was dedicated to the electrophysiologic caracterization of OprM opening using a microfluidic device incorporated with a miniaturized artificial bilayer membrane (Wang, Monlezun et al. 2012). Then, to complete this analysis in vivo, in the third part of this thesis, complementation experiments were initiated in a Pseudomonas aeruginosa strain deleted of its chromosomal oprM gene. Finally, in collaboration with P. Plésiat’s team (Laboratoire de Bactériologie, Besançon), modelling of MexZ, the MexXY/OprM pump’s regulator and modelling of the carbapenems’ porin OprD were made in order to link structural modifications to mutations observed in clinical strains. Pompe d’efflux Résistance aux antibiotiques Protéines membranaires BNPAGE Électrophysiologie Complémentation in vivo Cristallisation Modélisation Efflux pump Antibiotics resistance Membrane proteins BN-PAGE Electrophysiology In vivo complementation Crystallisation Modelling 616.920 1
193	An environmental metabolomics study of the effect of abiotic substances on Pseudomonas putida by employing analytical techniques Sayqal, Ali Abdu H. January 2017 (has links) An exceptionally important stress response of Pseudomonas putida strains to toxic chemicals is the induction of efflux pumps that extrude solvents, as well as other toxicants, into the surrounding medium. However, the bacterial tolerance mechanisms are still not fully understood, thus in this thesis metabolomic approaches were used to detect and identify metabolites involved in P. putida DOT-T1E tolerance to abiotic stresses, in particular focussing on the role of efflux pumps. To elucidate any metabolome alterations several strains of P. putida, including the wild type DOT-T1E, and the efflux pump knockouts DOT-T1E-PS28 and DOT-T1E-18, were challenged with different levels of propranolol. Fourier-transform infrared (FT-IR) spectroscopy, which provided a rapid, high-throughput metabolic fingerprint of P. putida strains, was used to investigate any phenotypic changes resulting from exposure to propranolol. FT-IR data illustrated phenotypic changes associated with the presence of propranolol within the cell that could be assigned to the bacterial protein components. To complement this phenotypic fingerprinting approach metabolic profiling on the same samples was performed using gas chromatography mass spectrometry (GC-MS) to identify metabolites of interest during growth of bacteria following this toxic perturbation with propranolol. GC-MS revealed significant changes in ornithine levels which can be directly linked to bacterial tolerance mechanisms, and alterations in the levels of several other metabolites which were also modified in response to propranolol exposure. Moreover, the effect of the organic solvent toluene was also investigated using the same approach. Examination of FT-IR data indicated that protein and fatty acids were the most affected components of P. putida strains due to the presence of toluene within the cell. Moreover, application of GC-MS allowed for the identification and quantification of several metabolites which were differentially produced or consumed in the presence of toluene. To investigate the role of efflux pumps in P. putida DOT-T1E, several analytical techniques were employed including Raman spectroscopy, gas and liquid chromatography to identify and quantify the level of propranolol or toluene in P. putida cells. These analyses showed that propranolol and toluene accumulated in the mutant P. putida DOT-T1E-18 (lacking the TtgABC pump) at higher levels in comparison with the levels found in the wild-type DOT-T1E and the mutant DOT-T1E-PS28 (lacking the TtgGHI pump), indicating the key role of efflux pumps in solvent tolerance. Furthermore, the effect of Mg2+ and Ca2+ on the stabilisation of the toluene tolerance of P. putida DOT-T1E strains was examined in order to elucidate whether divalent cations interact with efflux pumps or other resistant mechanisms to improve solvent tolerance. FT-IR analysis suggested that the influence of divalent cations on the stabilisation of the toluene tolerance could be due to the contribution of metal ions towards other tolerance mechanisms such as lipopolysaccharide (LPS) instead of enhancing the activity of efflux pumps. In conclusion, this thesis presents evidence that phenotypic fingerprinting and metabolic profiling approaches in combination with chemometric methods can generate valuable information on phenotypic responses occurring within microbial cultures subjected to abiotic stress. 572
194	Évaluation biopharmaceutique des antibiotiques pour le traitement des infections pulmonaires / Biopharmaceutical evaluation of antibiotics for the treatment of pulmonary infections Gontijo, Aline Vidal Lacerda 22 October 2012 (has links) Dans ce travail de thèse, l'efficacité de la voie intrapulmonaire et les paramètres biopharmaceutiques influençant la diffusion pulmonaire après nébulisation d'antibiotiques ont été évalués. La présence et l'impact de certaines pompes d'efflux dans un modèle in vitro de cellules primaires épithéliales pulmonaires de rat ont été testés. Trois fluoroquinolones et la colistine ont été utilisées comme molécules de référence. La combinaison des molécules testées a permis d'obtenir une vue d'ensemble des caractéristiques de diffusion intrapulmonaire des antibiotiques. L'étude in vivo avec les fluoroquinolones a démontré que les concentrations pulmonaires de ces molécules sont plus importantes que dans le plasma, probablement dû à la présence des transporteurs comme la glycoprotéine-P. La présence de ces transporteurs a été confirmée dans le modèle de cellules pulmonaires de rats. L'étude in vivo avec la colistine a montré qu'une lente diffusion pourrait conférer un avantage à la nébulisation par rapport à l'administration intraveineuse. En conclusion, l'administration par nébulisation des molécules, qui traversent les tissus lentement (colistine), pourrait être avantageuse, alors que pour d'autres, qui traversent vite la barrière (fluoroquinolones), la voie nébulisée pourrait ne pas présenter des avantages par rapport à la voie intraveineuse. De plus, les résultats ont démontré qu'une faible perméabilité à travers le poumon (colistine) pourrait donner un avantage à la nébulisation des antibiotiques, tandis qu'une affinité pour des transporteurs (fluoroquinolones) semble présenter un intérêt aussi bien dans le cadre d'une nébulisation que d'une administration intraveineuse. / The aim of this study was to investigate the efficiency of intrapulmonary administration and the biopharmaceutical parameters regulating the pulmonary diffusion following nebulization. We examined whether certain efflux pumps were present in an in vitro model of rat lung cells and whether these efflux pumps could be beneficial by increasing lung concentrations in vivo. Fluoroquinolones and colistin were the molecules used as reference. These different molecules allowed an overview of the intrapulmonary diffusion characteristics of antibiotics. The in vivo study with fluoroquinolones showed that their lung concentrations are higher than in plasma, probably due to glycoprotein-P. The presence of this efflux pump was confirmed in the model with rat lung cells. The in vivo study with colistin showed that a slow diffusion may confer an advantage for nebulization over intravenous administration. In conclusion, the nebulization molecules passing slowly (colistin) across the tissues may be advantageous, whereas for others, with a fast passage across the barrier (fluoroquinolones), the pulmonary route may not provide an advantage over the intravenous administration. Moreover, the results showed that a slow permeability across the lung (colistin) may confer an advantage for the antibiotic nebulization, while affinity by transporters (fluoroquinolones) is beneficial for both nebulization and intravenous administration. Fluoroquinolones Colistine Modèle cellulaire pulmonaire Lavage broncho-alvéolaire Pompes d’efflux Nébulisation Fluoroquinolones Colistin Pulmonary cell model Bronchoalveolar lavage Efflux pumps Nebulization 615
195	Effects of heavy alcohol intake on lipoproteins, adiponectin and cardiovascular risk Kuusisto, S. (Sanna) 25 November 2014 (has links) Abstract The effect of alcohol intake on the pathophysiology of atherosclerotic cardiovascular disease is controversial, especially with respect to heavy alcohol intake. The pathobiology behind atherosclerosis is a complex and multiparametric phenomenon, therefore a self-organizing map (SOM), an unsupervised learning based artificial neural network technique, was applied in the present work. This study was carried out to investigate the effect of heavy alcohol intake on the pathophysiology of atherosclerosis, including several lipoproteins and adiponectin, an adipocyte-derived cytokine that may ameliorate atherosclerosis. Firstly, the effect of heavy alcohol intake on the capacity of HDL and its subclasses (HDL2 and HDL3) to mediate cholesterol efflux from macrophages was studied. Secondly, data of ultracentrifugally isolated lipoproteins were fed into SOM analysis to investigate whether this method can find diverse lipoprotein phenotypes from the heterogeneous lipoprotein data. Thirdly, the aforementioned method was applied to multivariate data of alcohol drinkers to study whether distinct metabolic profiles are associated to heavy alcohol consumption. The results revealed that HDL2, not HDL3, of heavy alcohol drinkers had an enhanced capacity to remove cholesterol from macrophages when compared with control persons. SOM analysis enhanced the ultracentrifugally based lipoprotein data and depicted several novel lipoprotein phenotypes. In addition, lipoprotein-based SOM analysis found two distinct metabolic profiles in heavy alcohol drinkers: an anti-atherogenic and a metabolic syndrome-like profile with opposite metabolic features, such as characteristics of lipoproteins, plasma concentration of adiponectin and prevalence of metabolic syndrome. These profiles also tended to differ in their CV risk. In conclusion, the enhanced cholesterol efflux capacity of HDL2 in heavy drinkers is an anti-atherogenic change linked to alcohol drinking. However, clinically it may be important to be aware that although heavy alcohol drinkers have a low LDL-C level, they differ in their other lipoprotein measures, forming distinct phenotypes with potentially different CV risks. Finally, SOM analysis of ultracentrifugally based lipoprotein data generates in silico classification of lipoprotein particles and thereby offers a new tool for lipoprotein research. / Tiivistelmä Alkoholinkäytön vaikutus ateroskleroottisen sydän- ja verisuonitaudin patofysiologiaan on kiistanalainen, etenkin runsaan alkoholinkäytön kohdalla. Koska patobiologia ateroskleroosin taustalla on monimutkainen ilmiö, tässä työssä sovellettiin menetelmänä itseorganisoituvaa karttaa, joka on ohjaamattomaan oppimiseen perustuva neuroverkkomalli. Tutkimuksen tavoitteena oli selvittää runsaan alkoholinkäytön vaikutusta ateroskleroosin patofysiologisiin merkkiaineisiin, mukaan lukien useita lipoproteiineja sekä adiponektiini, rasvasoluperäinen sytokiini, joka voi lievittää ateroskleroosia. Ensimmäisessä osatyössä tutkittiin runsaan alkoholinkäytön vaikutusta HDL:n ja sen alafraktioiden (HDL2 ja HDL3) kykyyn poistaa kolesterolia makrofageista. Toisessa osatyössä ultrasentrifuugaukseen perustuva lipoproteiiniaineisto syötettiin itseorganisoituvaan karttaan. Työssä selvitettiin löytäisikö menetelmä erilaisia lipoproteiinifenotyyppejä heterogeenisestä aineistosta. Kolmannessa osatyössä em. menetelmää sovellettiin monimuuttuja-aineistoon, joka koostui runsaasti alkoholia käyttävistä ja verrokeista. Tutkittiin, liittyykö runsaaseen alkoholinkäyttöön erilaisia metabolisia profiileja. Tulokset osoittivat, että suurkuluttajien HDL2-hiukkasen kolesterolinpoistokyky makrofageista oli suurempi kuin verrokeilla. Itseorganisoituvaan karttaan perustuva lipoproteiinien luokittelumenetelmä löysi useita uusia lipoproteiinifenotyyppejä. Lisäksi, em. menetelmä löysi suurkuluttajilta kaksi erilaista metabolista profiilia: anti-aterogeeninen ja metabolisen syndrooman kaltainen. Näillä oli vastakkaiset metaboliset piirteet, kuten lipoproteiinien ominaisuudet, adiponektiinin pitoisuus plasmassa ja metabolisen syndrooman esiintyvyys. Profiileihin liittyi mahdollisesti myös erilainen sydän- ja verisuonitautiriski. Tutkimus osoittaa, että alkoholin suurkuluttajilla havaittu parempi HDL2:n kyky poistaa kolesterolia soluista on anti-aterogeeninen muutos, joka liittyy alkoholin käyttöön. Kliinisesti voi olla merkittävää, että vaikka alkoholin suurkuluttajilla oli pieni LDL-C pitoisuus, he jakaantuivat muiden lipoproteiiniperäisten muuttujien perusteella kahteen eri fenotyyppiryhmään, joihin liittyi erilainen sydäntautiriski. Lisäksi itseorganisoituva kartta loi ultrasentrifugoinnilla eristetyille lipoproteiineille in silico -luokittelun, joten se tarjoaa uuden työkalun lipoproteiinitutkimukseen. adiponectin alcohol drinking cardiovascular risk cholesterol efflux high-density lipoprotein lipoproteins self organizing map HDL adiponektiini alkoholin käyttö itseorganisoituva kartta kolesterolin ulosvirtaus lipoproteiinit sydän- ja verisuonitautiriski
196	Physiopathologie de l'efflux de cholestérol du macrophage humain : relation avec le développement de l'athérosclérose et la mortalité chez des patients à haut risque cardiovasculaire / Physiopathology of human macrophage cholesterol efflux : relationship with the development of atherosclerosis in patients at high cardiovascular risk Gall, Julie 05 April 2017 (has links) La capacité des particules HDL à exercer des effets anti-athérogènes passe notamment par leur capacité à assurer le transport inverse du cholestérol (RCT). L'objectif principal de mon programme de recherche est l'étude de l'étape initiale du transport inverse du cholestérol que représente l'efflux de cholestérol du macrophage, dans le contexte des maladies métaboliques et du risque cardiovasculaire et de mortalité. J'ai étudié la relation entre l'efflux, et les conséquences sur le développement de l'athérosclérose dans un contexte métabolique particulier ; le syndrome métabolique (SM). J'ai démontré que les critères individuels du SM sont intimement liés à l'efflux et que ces deux notions sont associées de façon indépendante aux paramètres cliniques de l'athérosclérose. J'ai aussi évalué la pertinence de l'efflux de cholestérol comme biomarqueur de la mortalité. Cette étude identifie l'efflux comme prédicteur de la mortalité toutes causes confondues, indépendamment des taux de HDL-cholestérol et des facteurs de risques cardiovasculaires traditionnels, dans une population de patients traités par angioplastie coronaire primaire, suite à un infarctus du myocarde avec élévation du segment ST. Enfin, je me suis intéressée à à une situation métabolique particulière ; l'état postprandial. Mes travaux montrent que la réponse postprandiale hypertriglycéridémique physiologique observée chez des individus sans désordre métabolique ne s'accompagne pas d'altération majeure de l'efficacité du RCT ou de l'inflammation systémique. Mes travaux confirment le rôle déterminant de l'efflux dans la prévention du développement de l'athérosclérose et de la mortalité cardiovasculaire. / The contribution of high-density lipoprotein to cardiovascular benefit is closely linked to its anti-atherogenic role in the cellular cholesterol efflux. The main purpose of my project was to evaluate the efficiency of the first step of reverse cholesterol transport (RCT), which is the efflux capacity, on metabolic disorder context, on cardiovascular risk and on mortality. My research has focused on three independent and complementary parts. I have first evaluated the relationship between efflux and its consequences on atherosclerosis development in a metabolic syndrome (MetS) population. I have shown that individual criteria of MetS are closely related synergistically to cholesterol efflux capacity. In addition, established metabolic syndrome and cholesterol efflux capacity were independently associated with clinical features of atherosclerosis. In a second study I identified cholesterol efflux capacity as a predictor of all-cause mortality in consecutive ST-segment elevation myocardial infarction patients treated by primary angioplasty, independent of HDL-C, traditional cardiovascular risks or cardiac risk factors. Finally I have evaluated the consequences of postprandial hypertriglyceridemia on the functionality of key steps of RCT and associated anti-inflammatory components. My work has shown that the physiological postprandial hypertriglyceridemia response is not accompanied by a major alteration in the efficiency of RCT or systemic inflammation, on individual without metabolic syndrome. In conclusion, I have confirmed the crucial role of the first step of reverse cholesterol transport in preventing the development of atherosclerosis and cardiovascular mortality. Hdl (lipoprotéines de haute densité) Efflux de cholestérol Risque cardiovasculaire Mortalité Réponse postprandiale Cetp High density lipoprotein Cardiovascular risk and mortality Reverse cholesterol transport 571.9
197	Multirésistance des entérobactéries aux antibiotiques et modulation de l’influx et de l’efflux membranaires chez Escherichia coli ST131 / Multidrug-resistance among Enterobacteriaceae and modulation of influx and efflux in Escherichia coli ST131 Pantel, Alix 09 December 2015 (has links) La diffusion des entérobactéries multirésistantes aux antibiotiques (MDR) à l’échelle mondiale constitue une menace de santé publique majeure. Résistantes à au moins trois classes d’antibiotiques, les entérobactéries MDR entrainent des infections échappant aux traitements de première intention. La première partie de ce travail s’intéresse à l’épidémiologie moléculaire des souches d’entérobactéries MDR isolées dans les infections et les colonisations des patients hospitalisés en Languedoc-Roussillon, en France, et dans un pays où cette épidémiologie est encore peu connue, l’Algérie. Nous avons montré, dans notre région et au niveau national, que la résistance aux carbapénèmes était essentiellement liée à des modifications de la perméabilité membranaire (87,4% des entérobactéries résistantes, au niveau national). Dans la deuxième partie de ce travail, nous avons étudié les modulations de la perméabilité membranaire et de l’efflux chez Escherichia coli ST131, l’exemple-type d’un clone MDR. Nous avons montré que ce clone mondial présentait une remarquable adaptabilité à la pression antibiotique. Cette adaptabilité avait un impact significatif sur la virulence et le fitness de E. coli. Les capacités de formation de biofilm et la virulence chez Caenorhabditis elegans étaient augmentées chez les souches de phénotypes « efflux ». Inversement, les souches de phénotypes « imperméabilité » présentaient un faible potentiel de virulence, associé à une diminution significative de la formation de biofilm et de la mobilité par swimming. / The spread of multidrug-resistant (MDR) Enterobacteriaceae is a major public health threat worldwide. Resistant to at least three classes of antibiotics, MDR Enterobacteriaceae cause infections for which first-line treatments are inefficient. The first part of this work focused on the molecular epidemiology of MDR Enterobacteriaceae strains isolated in infections and colonizations of patients hospitalized in Languedoc-Roussillon, in France and in Algeria, a country where few data are currently available. We showed in our region and nationally, that resistance to carbapenems was mainly due to changes in membrane permeability (87.4% of resistant Enterobacteriaceae, nationally).In the second part of this work, we studied the modulation of membrane efflux and permeability in the quintessential example of an international MDR high-risk clone, Escherichia coli ST131. We showed that this global clone had a remarkable adaptability to antibiotic pressure. This adaptability had a significant impact on the virulence and the fitness of E. coli. The biofilm formation and virulence capacities in Caenorhabditis elegans model were increased in strains overexpressing an efflux system. Conversely, the strains with altered porins expression had a low potential virulence, associated with a significant reduction in biofilm formation and swimming mobility. Multirésistance aux antibiotiques Escherichia coli ST131 Entérobactéries Pompes d'efflux Perméabilité membranaire Virulence Multidrug-Resistance Escherichia coli ST131 Enterobacteriaceae Efflux pumps Outer membrane permeability Virulence
198	Fonction et dysfonction des systèmes d'efflux actif chez les souches cliniques de pseudomonas aeruginosa / Function and dysfunction of active efflux systems in clinical strains of pseudomonas aeruginosa Guénard, Sophie 08 October 2013 (has links) Chez P. aeruginosa, la surproduction constitutive du système MexXY/OprM s'accompagne d'une augmentation de larésistance aux aminosides, fluoroquinolones et à certaines (3-lactamines. La caractérisation des mécanismes génétiquesconduisant à la surproduction de cette pompe parmi une collection de 57 isolats cliniques non redondants a permisd'identifier 3 types de mutations affectant, soit le gène mexZ dont le produit réprime l'opéron mexXY (mutants agrZ,77,2%), soit les gènes parRS codant pour un système à deux composants (mutants agrWl, 8,8%) ou d'autres cibles dontl'inactivation perturbe la synthèse protéique et entraîne la surexpression du gène PA5471 dont le produit, ArmZ, est unanti-répresseur de MexZ (mutants agrWl,\4%). Si certaines populations de P. aeruginosa tendent à devenir plusrésistantes aux aminosides en surproduisant le système MexXY/OprM, d'autres évoluent paradoxalement vers unehypersensibilité aux p-lactamines sous l'effet de mutations inactivant MexAB-OprM (MexAB-). L'analyse d'unecollection de 275 souches isolées de 36 patients CF nous a permis d'identifier des souches MexAB- hypersensibles à laticarcilline (37%) et des souches MexAB- non hypersensibles en raison d'une surproduction de la B-lactamase AmpC(16%). Au total, 53% des isolats sont apparus déficients dans le système MexAB-OprM. L'étude de l'activité ou de laproduction de divers facteurs de virulence a indiqué que la perte de fonction de MexAB-OprM n'était pas associée àcelle de caractères de virulence. Au final, notre travail apporte un éclairage nouveau sur la capacité de P. aeruginosa àmoduler l'activité de ses pompes d'efflux pour s'adapter à diverses situations cliniques. / Pseudomonas aeruginosa is a nosocomial pathogen naturally resistant to many antibiotics thanks to numerous resistantmechanisms. Among them, overproduction of the MexXY/OprM efflux System leads to decrease significantly thesusceptibility of P. aeruginosa to aminoglycosides, fluoroquinolones and some p-lactams. Characterization of geneticmechanisms leading to overproduction of this pump from a collection of 57 non-redundant clinical isolates enable toidentified three types of mutations affecting either the gene mexZ whose product represses mexXY operon (agrZmutants, «=77. 2%), or genes parRS encoding a two component System (agrW2 mutants, w=8.8%) or other targetswhose inactivation disturbs protein synthesis and results in overexpression of the gene PA547I, whose product ArmZ isan anti-repressor of MexZ protein (agrWl mutants, n= 14%). If some populations of A aeruginosa are becoming moreresistant to aminoglycosides by overproducing MexXY/OprM system, others develop an hypersensitivity to P-lactamsas a resuit of mutations inactivating MexAB-OprM efflux system (MexAB-). The analysis of 275 strains isolated from36 CF patients allowed us to identify MexAB- strains hypersensitive to ticarcillin (37%) and non-MexABhypersensitive strains due to an overproduction of the p-lactamase AmpC (16%). In fine, 53% of the isolates appeareddeficient in MexAB-OprM. The study of various virulence factors indicated that the loss of function of MexAB-OprMin P. aeruginosa was not associated with virulence of the strains. To conclude, our work highlight on the ability ofP. aeruginosa to modulate the activity of its efflux pumps in order to adapt to various clinical environments Pseudomonas aeruginosa Système d'efflux MexXY/OprM MexAB-OprM Mutations Souches cliniques Pseudomonas aeruginosa Efflux system MexXY/OprM MexAB-OprM Mutations Clinical strains 616
199	REPURPOSING FDA-APPROVED DRUGS FOR OVERCOMING AZOLE RESISTANCE IN CANDIDA SPECIES Hassan Elsayed Eldesouky (8715252) 21 June 2022 (has links) <p>In the past few decades, invasive mycosis has become a growing threat to global health, afflicting millions of people and claiming the lives of more than 1.5 million patients every year. Moreover, the economic burden of mycotic infections has become increasingly exhausting especially with the recent increases in the number of the high-risk population, the immunocompromised individuals. In the USA, the cost incurred by mycotic infections was estimated to be of more than $7.2 billion only in 2017. Of particular concern, <i>Candida</i> species are the most common fungal pathogens that infect humans, resulting in considerable morbidities and mortality rates that often exceed 50%. Unfortunately, the antifungal drug discovery is currently unable to keep pace with the urgent demand for more effective therapeutic options. Further complicating the situation is the recent emergence of multidrug-resistant species such as <i>Candida</i> <i>auris</i>, triggering outbreaks of deadly Candidemia across the globe. Given the risks inherent to the traditional de-novo drug discovery, combinatorial therapeutics stands out as a promising tool to hamper drug resistance and extend the clinical utility of the existing drugs. In this study, we assembled and screened ~3147 FDA-approved drugs and clinical molecules against fluconazole-resistant <i>C. albicans</i> and <i>C. auris</i> isolates, for the aim of restoring the antifungal activity of azole antifungals against drug-resistant <i>Candida </i>species. The screen revealed five promising hits: pitavastatin (antihyperlipidemic), ospemifene (estrogen receptor modulator), sulfa antibacterial drugs, lopinavir (antiviral), and aprepitant (antiemetic).</p> <p>All identified hits demonstrated variable azole chemosensitizing activities depending on the tested <i>Candida</i> species and the azole drug. Pitavastatin displayed broad-spectrum synergistic interactions with both fluconazole and voriconazole against isolates of <i>C. albicans</i>, <i>C. glabrata</i>, and <i>C. auris</i>. Ospemifene was able to interact synergistically with itraconazole against multiple fungal isolates including <i>Candida</i>, <i>Cryptococcus</i>, and <i>Aspergillus</i> species. Sulfa drugs displayed potent synergistic activities with different azoles against <i>C. albicans</i>, however, a limited efficacy was observed against efflux-hyperactive isolates such as <i>C. auris</i>. On the other hand, both lopinavir and aprepitant exerted potent and broad-spectrum synergistic activities with itraconazole and were effective against multiple <i>Candida</i> species including <i>C. albicans</i>, <i>C. auris</i>, <i>C. glabrata</i>, <i>C. krusie</i>, <i>C. tropicalis</i>, and <i>C. parapsilosis</i>. Furthermore, using <i>Caenorhabditis elegans</i> as an infection model, all drug combinations significantly reduced the fungal burden in the infected nematodes and significantly prolonged their survival as compared to single-drug treatments. Multiple phenotypic and molecular assays indicted that the identified hit compounds use distinct mechanisms to enhance the antifungal activity of azole drugs. These mechanisms include efflux pump inhibition, interference with the folate biosynthesis and disturbance of iron homeostasis. Taken together, this study reveals novel and potent azole chemosensitizing agents effective against multiple azole-resistant isolates and opens the door for more investigations to assess their clinical potential in human medicine as promising antifungal adjuvants.</p> Microbiology not elsewhere classified Azole resistance Candida auris Candida albicans Pitavastatin Ospemiphene Sulfa drugs Lopinavir Aprepitant Fungal Efflux Pumps Metal Ion Homeostasis Fungal Folate Pathway Caenorhabditis elegans Microbiology
200	The effect of the efflux pump inhibitor Carbonyl Cyanide m- Chlorophenylhydrazone (CCCP) on the susceptibility to imipenem and cefepime in clinical strains of Acinetobacter Baumannii / The effect of the efflux pump inhibitor Carbonyl Cyanide m- Chlorophenylhydrazone (CCCP) on the susceptibility to imipenem and cefepime in clinical strains of Acinetobacter Baumannii Mondragón Ticlla, María Belén, Sánchez Carbonel, Alejandra 05 April 2022 (has links) Introducción: Durante los XX últimos años, Acinetobacter baumannii se ha posicionado como una de las principales infecciones intrahospitalarias resistentes a antibióticos. A. baumannii multidrogoresistente (MDR) está considerado por la OMS dentro del grupo más crítico de resistencia. Uno de los mecanismos de resistencia identificados en dicho patógeno son las bombas de eflujo, por lo que, se han desarrollado inhibidores de las mismas, generando así menos resistencia por parte de las bacterias hacia los antibióticos. Objetivos: En nuestro estudio, el objetivo fue evaluar el efecto de la adición del inhibidor de bomba de eflujo CCCP sobre la actividad bactericida de imipenem y cefepime en cepas de A. baumannii Métodos: 49 cepas aisladas como A. baumannii fueron obtenidas en el Hospital Regional de Cajamarca. Mediante técnicas moleculares en el laboratorio de Biología Molecular de la Universidad Peruana de Ciencias Aplicadas (UPC) se confirmaron 47 cepas positivas para A. baumannii. Se utilizó PCR- en tiempo real para identificar el gen blaOXA-51-like y para la determinación de la CMI el método de microdilución en caldo. Finalmente se añadió el inhibidor CCCP para poder evaluar si efecto sobre los antibióticos Resultados: Un total de 49 cepas aisladas de A. baumannii fueron obtenidas en el Hospital Regional de Cajamarca. Se determinó la susceptibilidad antimicrobiana mediante la concentración mínima inhibitoria y la actividad de la bomba de eflujo fue evaluada usando CCCP. Conclusiones: Las bombas de eflujo puede jugar un rol importante en la resistencia antibiótica de A. baumannii. El inhibidor CCCP junto a imipenem y cefepime, mejora la sensibilidad antibiótica. Asimismo, nuevas estrategias terapéuticas son requeridas para eliminar el transporte de eflujo de las cepas resistentes que causan infecciones nosocomiales / Introduction: In the last years the rapid expansion of multidrug-resistant A. baumannii strains have become a major health problem. Efflux pumps are a group of transport proteins that contribute to the development of antibiotic resistance. The aim of this study was to evaluate the effect of the efflux pump inhibitor carbonyl cyanide 3-chlorophenylhydrazone (CCCP) on the antimicrobial action of imipenem and cefepime on clinical strains of A. baumannii. Materials and methods: A total of 49 non-duplicate clinical samples were collected during January through December of 2018 from patients hospitalized in the Hospital Regional Docente de Cajamarca. Of the 49 samples obtained, the confirmatory identification of A. baumannii was performed on 47 samples by molecular methods. The amplification of the blaOXA-51-like gene was carried out by polymerase chain reaction (PCR). The determination of the minimum inhibitory concentration (MIC) was calculated using the microdilution method in culture broth. The susceptibility to both antibiotics (cefepime and imipenem) was evaluated in the presence and absence of the inhibitor carbonyl cyanide 3-chlorophenylhydrazone (CCCP). Results: A total of 47 strains of A. baumannii were isolated: 97.87% (46/47) were resistant to Imipenem, 2.13% (1/47) of them were classified as intermediate and none of these strains were susceptible. On the other hand, 51.06% (24/47) of isolates were resistant to cefepime; 19.15% (9/47) intermediate and 29.79% (14/47) susceptible. We considered a significant difference in antibiotic susceptibility if the MIC changed at least 4 dilutions, after the addition of the inhibitor. In the case of CCCP in addition to imipenem, 2.1% (1/47) had a significant change of 4 or more reductions in MIC, 59.6% (28/47) achieved a change equal or less than 3 dilutions and 17.0% (8/47) did not have any change. In the case of CCCP with cefepime the percentage of strains with the significant change of MIC was 8.5% (4/47). On the other hand, 53.2% (24/47) presented a reduction equal or less than 3 dilutions and 12.8% (6/47) did not show changes. Conclusion: In conclusion, our results demonstrate that the use of CCCP may improve the antibiotic effect of imipenem and cefepime on clinical strains of A. baumannii. The relevance of this study is that it provides evidence that this efflux pump inhibitor may be an alternative treatment against multidrug-resistant A. baumannii. / Tesis Resistencia antibiótica Acinetobacter baumannii Inhibidor de la bomba de eflujo Antibiotic resistance Efflux pump inhibitor

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