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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.
201

Estudo fenotípico e molecular de resistência aos antimicrobianos em amostras clínicas e ambientais de enterobactérias / Phenotypic and genotupic study of antimicrobial resistance in clinical and environmental entenobacterial samples

Verônica Dias Gonçalves 24 August 2012 (has links)
Conselho Nacional de Desenvolvimento Científico e Tecnológico / Buscamos detectar evidências da presença de genes envolvidos na produção de Enzimas Modificadoras de Aminoglicosídeos (EMAs), Beta-lactamases de espectro estendido (ESBLs) e Mecanismos Plasmidiais de Resistência a Quinolonas (PMQRs) em cepas de K. pneumoniae, K. ozaenae e E. coli isoladas de amostras de água de rios afluentes da Baía de Guanabara e de materiais clínicos de origem hospitalar, além de avaliar o "status sanitário" dos corpos aquáticos abordados no tocante à contaminação fecal recente e indicações de contaminação hospitalar e por outros ambientes de alta seletividade. As cepas de materiais clínicos foram selecionadas entre Maio e Julho de 2010, a partir da semeadura em meio de cultura contendo 8g/mL de gentamicina. As amostras de água foram coletadas em Abril e em Julho de 2009. Realizamos testes de colimetria, empregando para tal, a metodologia convencional e outra, na qual adicionamos 32g/mL de cefalotina e 8g/mL de gentamicina aos caldos Lactosado e Escherichia coli (caldo EC), a fim de detectar e quantificar coliformes resistentes. Para o isolamento das cepas empregamos meios de cultura contendo 32g/mL de cefalotina e 8g/mL de gentamicina. As cepas foram identificadas e submetidas a testes de susceptibilidade aos antimicrobianos (TSA), testes presuntivos para presença de ESBLs, extração de DNA plasmidial e ensaios de Reação em Cadeia de Polimerase (PCR) para a detecção dos genes. A utilização de agentes antimicrobianos nos testes de colimetria nos permitiu detectar a presença e quantificar coliformes totais e fecais resistentes nas amostras de água analisadas nos diferentes pontos. O TSA das cepas isoladas de amostras de água exibiu perfis de multirresistência, compatíveis com o de bactérias de origem hospitalar, semelhante ao encontrado nas cepas isoladas de materiais clínicos. Todas as cepas isoladas de amostras de água e 90% das cepas de materiais clínicos apresentaram pelo menos uma banda plasmidial. Os ensaios de PCR evidenciaram a presença de produtos de amplificação para EMAs, ESBLs e PMQRs, sendo que 7,4% das cepas de amostras de água e 20% das cepas de materiais clínicos apresentaram produtos de amplificação para as três classes de antimicrobianos. A realização de testes de colimetria empregando antimicrobianos, como gentamicina e cefalotina, pode ser uma ferramenta adicional importante ao teste convencional, quando o interesse for, o monitoramento e a prevenção de contaminação ambiental, especialmente associada a microrganismos carreando genes de resistência. O uso criterioso de antimicrobianos em atividades de cunho hospitalar e veterinário e medidas no sentido de prevenção de lançamento de esgoto e/ou tratamento dos efluentes, são fundamentais para o controle da disseminação de elementos genéticos de resistência transferíveis entre os microrganismos. A detecção e identificação de microrganismos apresentando elementos de resistência em ambiente extra-hospitalar como em água e solo, em particular, o emprego de testes de colimetria empregando antimicrobianos, se faz necessária, como forma de prevenção e controle de disseminação destes microrganismos com potencial de causar infecções em humanos e outros animais que eventualmente entram em contato com estes ambientes. / We seek to detect evidence of the presence of genes involved in the production of Aminoglycoside Modifying Enzymes (AME), Extended-spectrum beta-lactamases (ESBLs) and Plasmid Mechanisms of Resistance to Quinolones (PMQRs) in strains of K. pneumoniae, K. ozaenae and E. coli isolated from water samples from rivers of Guanabara Bay and clinical samples of hospital origin, and to evaluate the "health status" of water bodies addressed in relation to recent fecal contamination and signs of hospital contamination and other environments with high selectivity. The strains from clinical materials were selected between May and July 2010, using culture media containing 8g/mL gentamicin. Water samples were collected in April and July 2009. Colimetric assays were performed, using the conventional methodology and other which we added 32g/mL cephalothin and 8g/mL of gentamicin at Lactose and Escherichia coli broth (EC broth), in order to detect and to count resistant coliforms. For isolation of the strains we employed culture media containing 32g/mL cephalothin and 8g/mL gentamicin. The strains were identified and submitted to tests for antimicrobial susceptibility (TSA), presumptive tests for the presence of ESBLs, plasmid DNA extraction and tests of the Polymerase Chain Reaction (PCR). The use of antimicrobial agents in colimetric assays allowed us to detect and to count the resistant total and fecal coliforms in the water samples analyzed at different points. The TSA of the isolates recovered from water samples showed multidrug-resistance profiles, compatible with that of nosocomial bacteria, similar to that found in isolates recovered from clinical materials. All isolates from water samples and 90% of the isolates of clinical samples showed at least one plasmid band. PCR assays demonstrated the presence of amplification products to AME, ESBLs and PMQRs, and 7.4% of the isolates recovered of samples of water and 20% of the isolates of clinical materials showed amplification products for the three antimicrobial classes. The colimetric assays using antimicrobials as gentamicin and cephalotin, may be important additional tool to conventional colimetric test, when the interest is the monitoring and prevention of environmental contamination, especially associated with drug-resistant microorganisms, carrying resistance genes. We believe that besides the judicious use of antimicrobial in hospital and veterinary activities, measures to prevent discharge of sewage and / or sewage treatment, are essential to control the dissemination of transferable genetic elements of resistance among microorganisms. The detection and identification of microorganisms presenting genetic elements in environment, as water and soil, privately colimetric assays using antimicrobials, are necessary to prevent and to control of dissemination to these microorganisms with potential to infect humans and other animals in eventual contact with this environment.
202

Phosphatidylethanolamine regulates the function and the structure of LmrP, a bacterial multidrug transporter protein associated to antibiotic resistance

Hakizimana, Pierre 05 September 2008 (has links)
The multidrug transporter LmrP, member of the major facilitator superfamily (MFS), confers L. lactis and recombinant E. coli cells resistance to an array of cytotoxic compounds including antibiotics. LmrP mediates drug extrusion from the plasma membrane by an electrogenic proton/drug exchange reaction, whereby a positively charged substrate may move towards the external medium in exchange for two or more protons moving towards the cytoplasm. Recent studies have suggested that MFS transporters require phosphatidylethanolamine (PE) for function and proper topology. However, the specificity of the PE requirement, as well as the contribution of the electrochemical gradient (the driving force of the substrate transport) to this lipid requirement was not addressed. Here we report a new approach for addressing PE specific requirement for the function and the structure of membranes transporters. We used methyl-PE and dimethyl-PE analogs of PE to show that only replacement of the three hydrogens by methyl moieties leads to changes in the biochemical and biophysical properties of the reconstituted protein. This suggests that LmrP does not depend on the bulk properties of the phospholipids tested but solely on the hydrogen bonding ability of the headgroup. We then show that a single point mutation in LmrP, D68C, is sufficient to recapitulate precisely every biochemical and biophysical effect observed when PE is replaced by phosphatidylcholine (PC) ( including energy transfer between the protein tryptophan residues and the lipid headgroups). We conclude that the negatively charged Asp-68 is likely to participate in the interaction with PE and that such interaction is required for proton gradient sensing, substrate binding, and transport. Because Asp-68 belongs to a highly conserved motif in the Major Facilitator Superfamily (which includes LacY and EmrD), this interaction might be a general feature of these transporters that is involved in proton gradient sensing and lipid dependence.<p> / Doctorat en Sciences / info:eu-repo/semantics/nonPublished
203

A Whole-Genome sequencing-based study of the emergent multidrug-resistant Salmonella enterica subspecies enterica serovar Infantis clones in German broiler farms

García Soto, Silvia 16 November 2021 (has links)
Salmonella enterica subspecies enterica serovar Infantis (S. Infantis) places the fourth position in the ranking of most reported Salmonella serovars in Europe. During the last decade, a multi-drug resistant (MDR) S. Infantis population has rapidly increased and widespread in European and non-European broiler production. The study proposed here aimed to i) implement and evaluate the performance of a bioinformatics pipeline named WGSBAC for Salmonella in silico serotyping, and ii) identify the genetic determinants for the increased emergence of broiler-derived S. Infantis observed in Germany. First, we conducted an evaluation of WGSBAC and three bioinformatic tools (SISTR, SeqSero, and SeqSero2) for the characterization and genoserotyping of 43 Salmonella strains of 26 different serovars. Second, we performed sequencing of 30 broiler-derived S. Infantis isolates collected from two distant decades (the 1990s and the 2010s). We applied the WGSBAC pipeline and external bioinformatics software to i) assess and control the quality of the sequenced reads ii) assembly and quality control of assemblies, and iii) annotation, typing by classical MLST, cgMLST, genoserotyping, SNPs-based phylogenetic reconstruction and in silico phenotype prediction including antimicrobial resistance genes (AMR), virulence genes and plasmid replicons detection. To detect possible clonal relatedness with other S. Infantis clones from Europe, we performed a further comparative genome analysis using 17 public genomes of other S. Infantis clones circulating in Europe. WGSBAC was feasible for the serovar prediction of most of the 43 Salmonella strains. The tool SISTR reported the highest correlation (79.1%) followed by SeqSero2 (72.1%) and SeqSero (60.5%). The study of the S. Infantis strains revealed that in contrast to the isolates from the 1990s, the majority of the strains from the 2010s revealed the presence of a megaplasmid that carried a multidrug-resistant genes (MDR) pattern, a virulence genes pattern, and several fitness-associated determinants. We termed the MDR gene pattern “ESIr” and it coded for at least three antimicrobial families: ant(3”)-Ia (aminoglycosides), sul1 (sulfonamides), and tet(A) (tetracyclines). Besides, we termed the virulence pattern as “ESIv” which includes genes for fimbriae cluster, yersiniabactin siderophore, mercury resistance, and antitoxin/antitoxin systems. Furthermore, the genotyping analysis revealed the presence of a novel sequence type (ST2283) among the majority of the strains from the 2010s and ST32 and ST1032 within the strains from the 1990s. This genetic traits may promote the rapid incidence and dissemination of a novel MDR S. Infantis population. Following a WGS-based approach, this study evidences that MDR S. Infantis ST2283 strains carrying a pESI-like plasmid have emerged during the last decade and are currently circulating in the German poultry production chain. This event results in an urgent public health hazard, thus, control measures and the support of epidemiological studies are needed to prevent the entrance, transmission, and further dissemination of this clonal population in the food chain. / Salmonella enterica subspecies enterica serovar Infantis (S. Infantis) nimmt die vierte Position in der Rangliste der am häufigsten gemeldeten Salmonella-Serovare in Europa ein. Während des letzten Jahrzehnts hat das Auftreten einer multiresistenten Salmonella enterica subspecies enterica serovar Infantis (S. Infantis)-Population rapide zugenommen und ist in der europäischen und außereuropäischen Broilerproduktion weit verbreitet. Die Studie zielte darauf ab, i) eine bioinformatische Pipeline für die in silico-Serotypisierung von Salmonellen zu implementieren und deren Leistungsfähigkeit zu bewerten, und ii) die genetischen Determinanten für das in der deutschen Broilerproduktion während des letzten Jahrzehnts beobachtete vermehrte Auftreten von S. Infantis zu identifizieren. Zunächst wurde eine Bioinformatik-Pipeline (WGSBAC) und drei bioinformatische Tools (SISTR, SeqSero und SeqSero2) zur Genoserotypisierung von 43 Salmonella spp.-Stämmen von 26 verschiedenen Serovaren durchgeführt. Zweitens führten wir die Genomsequenzierung von 30 S. Infantis Broiler-Isolaten durch, die in zwei unterschiedlichen Jahrzehnten (den 1990er und den 2010er Jahren) gesammelt wurden. Wir setzen die WGSBAC-Pipeline und externe Bioinformatik-Software ein, um i) die Qualität der sequenzierten Reads zu bewerten und zu kontrollieren, ii) Assemblierungen und Qualitätskontrollen von und iii) Annotation, Typisierung durch klassischen MLST, cgMLST, Genoserotypisierung, phylogenetische Rekonstruktion mittels Einzelnukleotidänderungen (SNPs) und in-silico-Phänotyp-Vorhersage, einschließlich antimikrobieller Resistenzgene (AMR), Virulenzgene und Plasmid-Replikons zu erkennen. Die Bioinformatik-Pipeline WGSBAC ist geeignet, das antigene Profil der meisten der in der Studie verwendeten Salmonella-Stämme zu bestimmen. Das Tool SISTR zeigte dabei die höchste Übereinstimmung (79,1 %), gefolgt von SeqSero2 (72,1 %) und SeqSero (60,5 %). Die Untersuchung der S. Infantis-Stämme ergab, dass im Gegensatz zu den Isolaten aus den 1990er Jahren, die Mehrheit der Stämme aus den 2010er Jahren das Vorhandensein eines Megaplasmids zeigte, das homolog zu dem pESI-Plasmid aus Israel und anderen pESIähnlichen Plasmiden aus europäischen Isolaten ist. Das deutsche pESI-ähnliche Plasmid kodierte für ein Muster von multiresistenten Genen (MDR), ein Muster von Virulenzgenen und mehrere Fitness-assoziierte Determinanten, welches wir 'ESIr' nannten. Dieses korrelierte mit mindestens drei antimikrobiellen Familien: ant(3')-Ia (Aminoglykoside), sul1 (Sulfonamide) und tet(A) (Tetracycline). Der Genotyp korreliert hier vollständig mit dem antimikrobiellen Phänotyp. Außerdem bezeichneten wir das Virulenzmuster als 'ESIv', welches Gene für Fimbrien-Cluster, Yersiniabactin-Siderophore, Quecksilberresistenz und Antitoxin/Antitoxin- Systeme mit einschließt. Die Genotypisierungsanalyse ergab das Vorhandensein eines neuen Sequenztyps (ST2283) bei der Mehrzahl der Stämme aus den 2010er Jahren und ST32 und ST1032 bei den Stämmen aus den 1990er Jahren. Anhand eines auf Gesamtgenomsequenzierung-basierten Ansatzes zeigte diese Studie, dass MDR S. Infantis ST2283 Stämme, die ein pESI-ähnliches Plasmid tragen, während des letzten Jahrzehnts entstanden sind und derzeit in der deutschen Geflügelproduktionskette zirkulieren. Der Erwerb eines Megaplasmids, das für Resistenzen, Virulenz-assoziierte Determinanten und Fitnessmechanismen kodiert, könnte dieses schnelle und besorgniserregende epidemiologische Ereignis erklären. Dieses Ereignis stellt eine Gefahr für die öffentliche Gesundheit dar. Daher sind Kontrollmaßnahmen und die Unterstützung epidemiologischer Studien erforderlich, um den Eintritt, die Übertragung und die weitere Verbreitung dieser klonalen Population in der Lebensmittelkette zu verhindern.
204

Identification of broad host range phage that antagonize multidrug resistant Pseudomonas aeruginosa and their therapeutic potential to restore antibiotic susceptibility among these pathogens

Lake, Alexandra E. 12 August 2020 (has links)
No description available.
205

Studium lékových interakcí inhibitoru HIV proteázy darunaviru na efluxních ABC transportérech in vitro / In vitro study of drug-drug interactions of HIV protease inhibitor darunavir on efflux ABC transporters

Bezděková, Dominika January 2021 (has links)
Charles University Faculty of Pharmacy in Hradec Králové Department of Pharmacology & Toxicology Student: Dominika Bezděková Supervisor: doc. PharmDr. Lukáš Červený, Ph.D. Title of diploma thesis: IN VITRO STUDY OF DRUG-DRUG INTERACTIONS OF HIV PROTEASE INHIBITOR DARUNAVIR ON EFFLUX ABC TRANSPORTERS Abstract: Darunavir is a drug used in the therapy of HIV belonging to the group of protease inhibitors. These protease inhibitors are used as a part of the combination antiretroviral therapy. For the increase of bioavailability, darunavir is always used in combination with ritonavir or cobicistat. As the CYP3A4 and ABCB1 (P-glycoprotein) transporter substrate, darunavir is a drug with a high potential to drug interactions. Considering the amount of adverse effects that can be caused by darunavir, it is necessary to know these drug interactions for the safety of therapy. Inhibition of the intestinal ABCB1 by the co-administrated drugs could also lead to the increased bioavailability of darunavir and to reduction of frequency of administration leading to a cheaper therapy. This thesis studies the drug-drug interactions of darunavir with in vitro methods using two cell lines - MDCKII and Caco-2 cells. The results from the transport of darunavir across the MDCKII cell monolayer indicates that darunavir is a ABCB1...
206

The activities of various antimalarial drugs on Plasmodium falciparum isolates in Kilifi Kenya and studies on mechanisms of resistance

Mwai, Leah Wanjiru January 2011 (has links)
Drug resistance is a significant challenge in the fight against malaria. Importantly, reduced efficacy has been reported against artemether (ATM)/Lumefantrine (LM) (LM-ATM), amodiaquine (AQ)/artesunate (AS) (AQ-AS), two important combination treatment regimens in Africa, and against piperaquine (PQ), a drug which has been evaluated as a potential alternative in Africa, in combination with dihydroarteminisin (DHA). Chloroquine (CQ) resistance in P.falciparum is associated with two main transporters PfCRT and PfMDR1. I investigated the mechanisms of resistance to PQ, LM and AQ, with the overall goal of identifying molecular markers that can be used to track resistance. I used CQ as a reference. The key antimalarial drugs were highly active against clinical isolates from Kilifi, Kenya with median inhibitory concentrations (IC<sub>50</sub>s) of <5nM for DHA and <55 nM for CQ, AQ, PQ, LM and DEAQ (desethylamodiaquine, the active metabolite of AQ). pfcrt-76 and pfmdr1-86 mutations were associated with AQ, DEAQ and LM but not DHA or PQ activity. Interestingly, > 20% of analysed isolates had decreased susceptibility to LM (IC<sub>50</sub> >100nM); these isolates were the most susceptible to CQ and carried wild type genotypes at pfcrt-76 and pfmdr1-86. I observed that CQ resistance had been declining in Kilifi since 1993 (prior to CQ withdrawal) to 2006 (7 years after its withdrawal), similar to observations in Malawi. My results support the hypothesis that susceptibility to antimalarial drugs returns when drug pressure is removed, and suggest that the use of LM-ATM may hasten the return of CQ susceptibility. Continued monitoring of drug susceptibility is crucial. pfcrt-76 and pfmdr1-86 may be useful molecular markers of LM-ATM efficacy in Kilifi and other African sites. Using a microarray approach, I identified additional genes (including various transporters) that may contribute to LM resistance. I recommend further studies to clarify the exact roles of the identified genes.
207

Characterisation of the transcriptomes of Leishmania mexicana promastigotes and amastigotes

Fiebig, Michael January 2014 (has links)
Leishmania spp. undergo substantial adaptations from being promastigotes, found in sandflies, to being amastigotes, residing in parasitophorous vacuoles within mammalian macrophages. In the past, microarray studies have sought to elucidate these adaptations using axenic amastigote systems or amastigotes purified from host-cells, raising the question whether the observed transcriptomic signatures were a true reflection of intracellular amastigotes. Moreover, with ever-improving genome annotations being available, it is clear that these studies failed to address the transcriptomic behaviour of a considerable number of transcripts. In the work presented herein, I employed RNA-sequencing to obtain transcriptomic profiles of Leishmania mexicana axenic promastigotes (PRO), axenic amastigotes (AXA) and intracellular amastigotes (AMA) in murine bone-marrow derived macrophages. The intracellular amastigotes were not purified from host cells, but instead sequencing reads assigned to a hybrid L. mexicana - Mus musculus genome and the transcriptomes separated in silico. We were able to map pre-mRNA processing sites, thereby defining transcript boundaries, proposing 184 truncations and 1253 extensions of existing gene models as well as discovering 936 novel genes. Mass-spectrometric evidence was obtained for both proposed extended and novel proteins. Using this improved genome annotation, we generated gene expression profiles for AMA, AXA and PRO, identifying 3832 differentially expressed transcripts between PRO and AMA as well as 2176 between PRO and AXA and 1234 between AXA and AMA. Transcripts differentially expressed between AMA and PRO correlated well with previous reports, were enriched for novel transcripts identified in this study and contained an unprecedented wealth of yet uncharacterised transcripts. Guided by these data, I performed a GFP-tagging screen identifying two proteins which may play an important role in L. mexicana biology, LmxM.16.0500, a member of a small, divergent, amastin-derived gene family, which appears to be released from the cell body of PRO, and LmxM.09.1330 a specific marker of the amastigote flagellar pocket.
208

Diversité et adaptation aux fongicides des populations de Botrytis cinerea, agent de la pourriture grise / Diversity and adaptation to fungicides of Botrytis cinerea populations, the causal agent of grey mould

Walker, Anne-sophie 23 May 2013 (has links)
La sélection naturelle constitue un processus clé de l’adaptation des populations à leur environnement, favorisant les variants présentant les meilleures valeurs sélectives. Les champignons présentent généralement des traits biologiques (diversité des modes de reproduction, grandes tailles de populations, fortes capacités de dispersion, entre autres) qui favorisent leur adaptation à des environnements variés. La compréhension des mécanismes qui sous-tendent l’évolution de leurs populations sous les contraintes, naturelles et anthropiques, qu’elles subissent constituent donc un enjeu majeur pour la protection des plantes, en particulier dans le contexte actuel de durabilité des méthodes de lutte. Dans cette thèse, nous avons décrit la structure et la diversité des populations Botrytis cinerea à l’aide de marqueurs neutres et sélectionnés et d’un échantillonnage emboîté, et avons proposé des mécanismes pouvant expliquer les résultats observés. Puis nous avons analysé la réponse adaptative des populations de B. cinerea en Champagne, aux applications de fongicides. Premièrement, nous avons montré que la pourriture grise était causée par un complexe de deux espèces cryptiques, vivant en sympatrie sur des hôtes communs. De plus, les populations françaises de B. cinerea sont structurées en cinq dèmes, caractérisés par le système de culture (sélection directionnelle), la plante-hôte (adaptation écologique), et dans une moindre mesure, par la géographie. Sur vigne, nous avons mis en évidence une entité dont l’isolement génétique semble lié à un isolement temporel. Par ailleurs, nous avons montré que l’application de fongicides conduit à la sélection de phénotypes résistants spécifiquement à quasiment tous les modes d’action homologués, selon des proportions variant suivant les vignobles et les usages. Plus particulièrement, la résistance aux fongicides inhibiteurs de la succinate déshydrogénase (SDHI) est causée par au moins sept mutations affectant les gènes encodant la protéine cible de ces fongicides, déterminant ainsi une grande variété de phénotypes. Enfin, nous avons montré que les fongicides ne modifiaient pas la structure neutre des populations mais qu’ils pouvaient conduire à une perte de richesse allélique dans les populations traitées ainsi qu’à un équilibre sélection-migration détectable dans certaines situations sous forme de clines au loci sous pression de sélection contemporaine tels que ceux déterminant la résistance multidrogues. La modélisation de l’évolution des fréquences de résistance hivernale a permis d’estimer le coût de la résistance pour quatre loci déterminant la résistance aux fongicides. Cette thèse a permis d’appréhender le fonctionnement des populations de B. cinerea et de comprendre et quantifier partiellement les mécanismes sélectifs opérant in natura. Ces informations seront utilisées pour raisonner des stratégies anti-résistance adaptées localement et durables. / Natural selection is the most powerful force driving population adaptation to their environment, favoring the variants with the best fitness. Fungi generally exhibit biological traits (diversity of reproduction modes, large population sizes, and intense dispersion) that favor their adaptation to changing environments. Therefore, disentangling the mechanisms that explain their evolution under natural and anthropic constraints constitute a major challenge for plant protection, especially in the actual context of agriculture sustainability. In this thesis, we described Botrytis cinerea population structure and diversity, using neutral and selected markers and a hierarchical sampling, and proposed mechanisms that may explain these observations. We then analyzed the adaptive answer of this species towards fungicide applications. First, we showed that grey mold populations were caused by a complex of two cryptic species, living sympatrically on the same hosts. Second, B. cinerea populations are divided into five demes, according to the cropping system (directional selection), the host-plant (ecological adaptation), and to a lesser extent, by geography. On grapevine, we identified a specific populations exhibiting temporal isolation, as an evidence of extreme exploration of the viticultural conditions. Moreover, fungicide applications select resistance towards all unisite modes of action, with few exceptions, but at varying proportions according to vineyards and fungicide use. More specifically, resistance to succinate dehydrogenase inhibitors (SDHIs) is caused by at least seven mutations altering the target genes of these fungicides, and determines a large variety of phenotypes in the field. At last, we showed that fungicides did not shape population structure but that they could decrease allele richness in treated areas and lead to migration-selection equilibrium, detectable in some situation and for loci under contemporary selective pressures as clines. Modeling the evolution of resistance during winter allowed estimating fitness cost of four loci involved in contemporary fungicide resistance, such as multidrug resistance. As a conclusion, this thesis helped to understand how B. cinerea populations evolve and to detect and quantify selective mechanisms at work in natura. This information will be useful to deign sustainable and locally-adapted anti-resistance strategies.
209

Nuclear Factor (Erythroid 2-like) Factor 2 (Nrf2) as Cellular Protector in Bile Acid and Retinoid Toxicities

Tan, Kah Poh 26 February 2009 (has links)
Exposure to toxic bile acids (BA) and retinoic acids (RA) is implicated in toxicities related to excessive oxidative stress. This thesis examined roles and mechanisms of the oxidative stress-responsive nuclear factor (erythroid 2-like) factor 2 (Nrf2) in adaptive cell defense against BA and RA toxicities. Using liver cells and mouse models, many antioxidant proteins known to be Nrf2 target genes, particularly the rate-limiting enzyme for glutathione (GSH) biosynthesis, i.e., glutamate-cysteine ligase subunits (GCLM/GCLC), were induced by BA [lithocholic acid (LCA)] or RA (all-trans, 9-cis and 13-cis) treatment. Evidence for increased Nrf2 transactivation by LCA and all-trans-RA was exemplified in HepG2 by: (1) reduced constitutive and inducible expression of GCLM/GCLC upon Nrf2 silencing via small-interfering RNA; (2) increased inducible expression of GCLM/GCLC genes by Nrf2 overexpression, but overexpression of dominant-negative Nrf2 decreased it; (3) increased nuclear accumulation of Nrf2 as signature event of receptor activation; (4) enhanced Nrf2-dependent antioxidant-response-element (ARE) reporter activity as indicative of increased Nrf2 transactivation; and (5) increased Nrf2 occupancy to AREs of GCLM and GCLC. Additionally, in BA-treated HepG2 cells, we observed concomitant increases of many ATP-binding cassette (ABC) transporters (MRPs 1-5, MDR1 and BCRP) in parallel with increased cellular efflux. Nrf2 silencing in HepG2 cells decreased constitutive and inducible expression of MRP2, MRP3 and ABCG2. However, Nrf2-silenced mouse hepatoma cells, Hepa1c1c7, and Nrf2-/- mice had decreased constitutive and/or inducible expression of Mrps 1-4, suggesting species differences in Nrf2-dependent regulation of hepatic ABC transporters. Protection by Nrf2 against BA and RA toxicities was confirmed by observations that Nrf2 silencing increased cell susceptibility to BA- and RA-induced cell death. Moreover, Nrf2-/- mice suffered more severe liver injury than the wildtype. Increased GSH and efflux activity following increased GCLM/GCLC and ABC transporters, respectively, can mitigate LCA toxicity. Activation of MEK1-ERK1/2 MAPK was shown to primarily mediate Nrf2 transactivation and LCA-induced expression of antioxidant proteins and Nrf2-dependent and -independent ABC transporters. In conclusion, Nrf2 activation by BA and RA led to coordinated induction of antioxidant and ABC proteins, thereby counteracting resultant oxidative cytotoxicity. The potential of targeting Nrf2 in management of BA and RA toxicities merits further investigation.
210

Nuclear Factor (Erythroid 2-like) Factor 2 (Nrf2) as Cellular Protector in Bile Acid and Retinoid Toxicities

Tan, Kah Poh 26 February 2009 (has links)
Exposure to toxic bile acids (BA) and retinoic acids (RA) is implicated in toxicities related to excessive oxidative stress. This thesis examined roles and mechanisms of the oxidative stress-responsive nuclear factor (erythroid 2-like) factor 2 (Nrf2) in adaptive cell defense against BA and RA toxicities. Using liver cells and mouse models, many antioxidant proteins known to be Nrf2 target genes, particularly the rate-limiting enzyme for glutathione (GSH) biosynthesis, i.e., glutamate-cysteine ligase subunits (GCLM/GCLC), were induced by BA [lithocholic acid (LCA)] or RA (all-trans, 9-cis and 13-cis) treatment. Evidence for increased Nrf2 transactivation by LCA and all-trans-RA was exemplified in HepG2 by: (1) reduced constitutive and inducible expression of GCLM/GCLC upon Nrf2 silencing via small-interfering RNA; (2) increased inducible expression of GCLM/GCLC genes by Nrf2 overexpression, but overexpression of dominant-negative Nrf2 decreased it; (3) increased nuclear accumulation of Nrf2 as signature event of receptor activation; (4) enhanced Nrf2-dependent antioxidant-response-element (ARE) reporter activity as indicative of increased Nrf2 transactivation; and (5) increased Nrf2 occupancy to AREs of GCLM and GCLC. Additionally, in BA-treated HepG2 cells, we observed concomitant increases of many ATP-binding cassette (ABC) transporters (MRPs 1-5, MDR1 and BCRP) in parallel with increased cellular efflux. Nrf2 silencing in HepG2 cells decreased constitutive and inducible expression of MRP2, MRP3 and ABCG2. However, Nrf2-silenced mouse hepatoma cells, Hepa1c1c7, and Nrf2-/- mice had decreased constitutive and/or inducible expression of Mrps 1-4, suggesting species differences in Nrf2-dependent regulation of hepatic ABC transporters. Protection by Nrf2 against BA and RA toxicities was confirmed by observations that Nrf2 silencing increased cell susceptibility to BA- and RA-induced cell death. Moreover, Nrf2-/- mice suffered more severe liver injury than the wildtype. Increased GSH and efflux activity following increased GCLM/GCLC and ABC transporters, respectively, can mitigate LCA toxicity. Activation of MEK1-ERK1/2 MAPK was shown to primarily mediate Nrf2 transactivation and LCA-induced expression of antioxidant proteins and Nrf2-dependent and -independent ABC transporters. In conclusion, Nrf2 activation by BA and RA led to coordinated induction of antioxidant and ABC proteins, thereby counteracting resultant oxidative cytotoxicity. The potential of targeting Nrf2 in management of BA and RA toxicities merits further investigation.

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