Etude de la diversité génétique de Mycoplasma agalactiae : plasticité des génomes, mobilome et dynamique de surface / Study of Mycoplasma agalactiae genetic diversity : genomic plasticity, mobilome and dynamic of surface components

Nouvel, Laurent-Xavier

26 November 2009

Mycoplasma agalactiae est responsable de l'agalactie contagieuse, maladie des petits ruminants difficilement contrôlée et figurant sur la liste de l’OIE. Afin d’évaluer la diversité génétique de ce pathogène, 101 isolats ont été comparés par trois techniques (VNTR, RFLP, répertoire vpma). Les résultats révèlent une grande homogénéité génétique dont la souche type PG2 est représentative. Quelques isolats font exception telle la souche 5632 que nous avons séquencée et analysée ici. La comparaison des génomes et des protéomes entre 5632 et PG2 indiquent que la plasticité de ces génomes est liée à d’importants échanges d'ADN et à la présence de nombreux éléments génétiques mobiles (10% du génome). Ces analyses révèlent également une forte dynamique au sein de répertoires de gènes codant des protéines de surfaces. Pour les mycoplasmes, bactéries minimales dépourvues de paroi, ces évènements ont certainement joués un rôle dans leur survie et leur adaptation à des hôtes complexes. / Mycoplasma agalactiae is responsible of contagious agalactia, a disease of small ruminants that is still difficult to control and is listed by the OIE. In order to evaluate the genetic diversity of this pathogen, 101 isolates were compared using three techniques (VNTR, RFLP, vpma repertoire). Results revealed a high genetic homogeneity with the PG2 type strain as representative. Some isolates however diverged such as the 5632 which was sequenced and analysed here. Whole comparative genomic and proteomic analyses of the 5632 and PG2 strains indicate that their genomic plasticity resides in important genes flux and in the presence of several mobile genetic elements (10% of the genome). These analyses also revealed that specific loci encoding repertoire of surface proteins are highly dynamic. For these minimal bacteria that lack a cell-wall, these events have most likely played a major role in their survival and adaptation to complex hosts.

Mycoplasmes

Ruminants

Mycoplasma agalactiae

Diversité génétique

Marqueurs épidémiologiques

Eléments génétiques mobiles

Eléments intégratifs conjugatifs (ICE)

Séquences d'insertion (IS)

Mycoplasmas

Ruminants

Mycoplasma agalactiae

Genetic diversity

Molecular epidemiology

Mobile genetic elements

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

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.

Enterobactérias

Enzimas

Drogas

Resistência em microorganismos

Coliformes

Multirresistência

Enterobacteriaceae

Elementos genéticos de resistência

Qualidade da água

Degradação ambiental

Coliformes fecais

Multidrug-resistance

Enterobacteriaceae

Resistance genetic elements

Water quality

Environmental degradation

Fecal coliforms

MICROBIOLOGIA MEDICA

Analýza dat ze sekvenování příští generace ke studiu aktivity transposonů v nádorových buňkách / Analysis of NGS data for study of transposon activity in cancer cells

Hrazdilová, Ivana

January 2013

Theoretical part of this diploma thesis gives a brief characteristic of human mobile elements (transposons), which represents nearly 50% of human genome. It provides basic transposon clasification and describes types of transposons present in hunam genome, as well as mobilization, activation and regulation mechanisms. The work also deals with the domestication of transposons, describes the ways in which TE contribute to DNA damage and summarizes the diseases caused by mutagenic activity of transposons in the human genome. Conclusion of theoretical part describes next-generation sequencing technologies (NGS). As practical part, data from RNA-seq experimet were analyzed in order to compare differen transposon activity in normal and cancer cells from prostate and colorectal tissues. As like as publicly available sophisticated tools (TopHat), new scripts were created to analyze these data. The results show that cancer cells exhibit overexpression of transposons. This corresponds with the published results and suggests a connection of transposon activation with cancer development.

Small molecule compounds targeting DNA binding domain of STAT3 for inhibition of tumor growth and metastasis

Huang, Wei

January 2014

Indiana University-Purdue University Indianapolis (IUPUI) / Signal transducer and activator of transcription 3 (STAT3) is constitutively activated in malignant tumors, and its activation is associated with high histological grade and advanced cancer stage. STAT3 has been shown to play important roles in multiple aspects of cancer aggressiveness including proliferation, survival, self-renewal, migration, invasion, angiogenesis and immune response by regulating the expression of diverse downstream target genes. Thus, inhibiting STAT3 promises to be an attractive strategy for treatment of advanced tumors with metastatic potential. We firstly identified a STAT3 inhibitor, inS3-54, by targeting the DNA-binding site of STAT3 using an in-silico screening approach; however, inS3-54 was finally found not to be appropriate for further studies because of low specificity on STAT3 and poor absorption in mice. To develop an effective and specific STAT3 inhibitor, we identified 89 analogues for the structure-activity relationship analysis. By using hematopoietic progenitor cells isolated from wild-type and STAT3 conditional knockout mice, further studies showed that three analogues (A18, A26 and A69) only inhibited STAT3-dependent colony formation of hematopoietic progenitor cells, indicating a higher selectivity for STAT3 than their parental compound, inS3-54. These compounds were found to (1) inhibit STAT3-specific DNA binding activity; (2) bind to STAT3 protein; (3) suppress proliferation of cancer cells harboring aberrant STAT3 signaling; (4) inhibit migration and invasion of cancer cells and (5) inhibit STAT3-dependent expression of downstream targets by blocking the binding of STAT3 to the promoter regions of responsive genes in cells. In addition, A18 can reduce tumor growth in a mouse xenograft model of lung cancer with little effect on body weight. Taken together, we conclude that it is feasible to inhibit STAT3 by targeting its DNA-binding domain for discovery of anticancer therapeutics.

STAT3

DNA binding domain

Inhibitor

Structure-based drug discovery

Signaling pathway

Cancer

Chemoprevention -- Research

Cancer -- Chemotherapy

Pathology, Molecular

Genetic transcription -- Regulation

Mobile genetic elements

Drug development

Carcinogenesis

Enzyme inhibitors -- Therapeutic use

La génomique évolutive mitochondriale révèle des échanges génétiques et la ségrégation chez les Gloméromycètes

Beaudet, Denis

06 1900

Les champignons mycorhiziens à arbuscules (CMA) sont des organismes microscopiques du sol qui jouent un rôle crucial dans les écosystèmes naturels et que l’on retrouve dans tous les habitats de la planète. Ils vivent en relation symbiotique avec la vaste majorité des plantes terrestres. Ils sont des biotrophes obligatoires, c'est-à-dire qu'ils ne peuvent croître qu'en présence d'une plante hôte. Cette symbiose permet entre autres à la plante d'acquérir des nutriments supplémentaires, en particulier du phosphore et du nitrate. Malgré le fait que cette symbiose apporte des services importants aux écosystèmes, la richesse des espèces, la structure des communautés, ainsi que la diversité fonctionnelle des CMA sont mal connues et l'approfondissement des connaissances dans ces domaines dépend d’outils de diagnostic moléculaire. Cependant, la présence de polymorphisme nucléaire intra-isolat combiné à un manque de données génomiques dans différents groupes phylogénétique de ces champignons complique le développement de marqueurs moléculaires et la détermination de l'affiliation évolutive à hauts niveaux de résolution (c.a.d. entre espèces génétiquement similaires et/ou isolats de la même espèce). . Pour ces raisons, il semble une bonne alternative d’utiliser un système génétique différent en ciblant le génome mitochondrial, qui a été démontré homogène au sein d'un même isolat de CMA. Cependant, étant donné le mode de vie particulier de ces organismes, une meilleure compréhension des processus évolutifs mitochondriaux est nécessaire afin de valoriser l'utilisation de tels marqueurs dans des études de diversité et en génétique des populations. En ce sens, mon projet de doctorat consistait à investiguerétudier: i) les vecteurs de divergences inter-isolats et -espèces génétiquement rapprochéesphylogénétiquement apparentées, ii) la plasticité des génomes mitochondriaux, iii) l'héritabilité mitochondriale et les mécanismes potentiels de ségrégation, ainsi que iv) la diversité mitochondriale intra-isolat in situ. À l'aide de la génomique mitochondriale comparative, en utilisant le séquençage nouvelle génération, on a démontré la présence de variation génétique substantielle inter-isolats et -espèces, engendrées par l'invasion d'éléments mobiles dans les génomes mitochondriaux des CMA, donnant lieu à une évolution moléculaire rapide des régions intergéniques. Cette variation permettait de développer des marqueurs spécifiques à des isolats de la même espèce. Ensuite, à l'aide d'une approche analytique par réseaux de gènes sur des éléments mobiles, on a été en mesure de démontrer des évènements de recombinaisons homologues entre des haplotypes mitochondriaux distincts, menant à des réarrangements génomiques. Cela a permis d'ouvrir les perspectives sur la dynamique mitochondriale et l'hétéroplasmie dans un même isolatsuggère une coexistence de différents haplotypes mitochondriaux dans les populations naturelles et que les cultures monosporales pourraient induirent une sous-estimation de la diversité allélique mitochondriale. Cette apparente contradiction avec l'homogénéité mitochondriale intra-isolat généralement observée, a amené à investiguer étudier les échanges génétiques à l'aide de croisements d'isolats génétiquement distincts. Malgré l'observation de quelques spores filles hétéroplasmiques, l'homoplasmie était le statut par défaut dans toutes les cultures monosporales, avec un biais en faveur de l'un des haplotypes parentaux. Ces résultats suggèrent que la ségrégation opère durant la formation de la spore et/ou le développement de la coloniedu mycélium. De plus, ils supportent la présence d'une machinerie protéique de ségrégation mitochondriale chez les CMAAMF, où l'ensemble des gènes impliqués dans ce mécanisme ont été retrouvé et sont orthologues aux autres champignons. Finalement, on est revenue aux sources avecon a étudié le polymorphisme mitochondrial intra-isolat à l'aide d'une approche conventionnelle de PCR en utilisant une Taq polymérase de haute fidélité, suivie de clonage et de séquençage Sanger, sur deux isolats de R. irregularis. Cela a permis l'observation d'hétéroplasmie in situ, ainsi que la co-expression de variantes de variantes de protéines'ARNm dans une souche in vitro. Les résultats suggèrent que d'autres études basées sur le séquençage nouvelle génération aurait potentiellement ignorée cette variation, offrant ainsi plusieurs nouveaux arguments permettant de considérer les CMA comme des organismes possédant une population de génomes mitochondriaux et nucléaires distincts. / The association between arbuscular mycorrhizal fungi (AMF) and plant roots is one of the most widespread symbioses involving plants, and thus has an important role in terrestrial ecosystems. In exchange for carbohydrates, AMF improve plant fitness by enhancing mineral nutrient uptake, especially in particular phosphate and nitrate. Although this symbiosisDespite the fact that these symbioses contribute provides to important services toin ecosystems, the species richness, community structure and functional diversity of AMF is not well understood due to a lack of reliable molecular tools. The intra-isolate genetic polymorphism of nuclear DNA observed in AMF, combined with a lack of genomic data in a broad range of phylogenetic groups, has made it difficult to develop molecular markers and to determine evolutionary relatedness at high levels of resolution (i.e. between genetically-similar species and/or isolates). For these reasons, it seems a good alternative to use a different genetic system by targeting the mitochondrial genome, which have been shown to be homogeneous within AMF isolates. However, given the peculiar lifestyle of these organisms, a better understanding of the mitochondrial evolutionary processes and dynamics were is necessary in order to validate the usefulness of such markers in diversity and population genetics studies. In that regard, the objectives of my PhD project were to investigate: i) the divergence between closely related species and isolates, ii) mitochondrial genomes plasticity, iii) mitochondrial heritability and potential segregation mechanisms and iv) in situ mitochondrial intra-isolate allelic diversity. With Using comparative mitochondrial genomics using and next generation sequencing (NGS) sequencing, we found substantial sequence variation in intergenic regions caused by the invasion of mobile genetic elements. This variation gives risecontributes to rapid mitochondrial genome evolution among closely related isolates and species, which makes it possible to design reliable intra- and inter-specific markers. Also, an extensive gene similarity network-based approach allowed us to provide strong evidence of inter-haplotype recombination in AMF, leading to a reshuffled mitochondrial genome. These findings suggest the coexistence of distinct mtDNA haplotypes in natural populations and raise questions as to whether AMF single spore cultivations artificially underestimates mitochondrial genetic diversity in natural population.. This apparent contradiction with the intra-isolate mtDNA homogeneity usually observed in these fungi, led to the investigation of mitochondrial heritability in the spore progeny resulting from crossed-cultures. Although an heteroplasmic state was observed in some daughter spores, we found that homoplasmy was the dominant state in all monosporal cultures, with an apparent bias towards one of the parental haplotypes. These results strongly support the presence of a putative mitochondrial segregation proteic machinery in AMF, whose complete set of genes were orthologous with those found in other fungi. Our findings suggest that segregation takes place either during spore formation or colony mycelium development. Finally, we performed a conventional PCR based approach with a high fidelity Taq polymerase, followed by downstream cloning and Sanger sequencing using the model organism Rhizophagus irregularis. We found in situ heteroplasmy along with substantial intra-isolate allelic variation within the mtDNA that persists in the transcriptome. Our study also suggest that genetic variation in Glomeromycota is higher than meets the eye and might be critically underestimated in most NGS based-AMF studies both in nuclei and mitochondria.

champignons mycorhiziens à arbuscules

génomique évolutive

génome mitochondrial

marqueurs moléculaires

éléments génétiques mobiles

Transfert horizontal de gènes

Recombinaison homologue

Réarrangements génomiques

Réseaux de gènes

Mécanismes de ségrégation

Anastomoses

Homoplasmie

Hétéroplasmie

Séquençage nouvelle génération

Arbuscular mycorrhizal fungi

Evolutionary genomics

Mitochondrial genome

Molecular markers

Mobile genetic elements

Horizontal gene transfer

Homologous recombination

Genome rearrangements

Gene similarity network

Segregation mechanism

Anastomosis

Homoplasmy

Heteroplasmy

Next generation sequencing