Tomato chlorosis virus: purificação, produção de antissoro, reação de genótipos e avaliação de danos em batateira / Tomato chlorosis virus: purification, antiserum production, genotypes reaction and yield loss on potato plants

Luiz Rafael Pinto

07 February 2018

O Tomato chlorosis virus (ToCV) é uma espécie do gênero Crinivirus que causa danos, principalmente na cultura do tomateiro (Solanum lycopersicum). Foi primeiramente isolado e descrito em 1998, nos Estados Unidos, e em seguida foi reportado em doze países. No Brasil, foi constatado primeiramente no Estado de São Paulo, na região de Sumaré, em 2008, e posteriormente nos Estados da Bahia, Espírito Santo, Goiás, Minas Gerais e Rio de Janeiro. Há evidência da sua presença também nos Estados do Paraná e Santa Catarina. O ToCV pode infectar outras solanáceas além do tomateiro e, recentemente, foi observado infectando plantas de batata (Solanum tuberosum) no Brasil. Esse crinivirus é transmitido no Brasil principalmente pelo aleirodídeo (mosca branca) Bemisia tabaci MEAM1. Considerando o patossistema batateira/ToCV, não há estudos sobre a ocorrência, sintomatologia em diferentes variedades e danos provocados por esse crinivirus. Também não há antissoro policlonal para o isolado brasileiro do ToCV para uso na diagnose da doença em solanáceas. Esse trabalho teve por objetivos: purificar o ToCV e produzir antissoro policlonal; avaliar a reação de genótipos de batateira à infecção com o ToCV; avaliar o dano provocado por esse vírus em duas variedades de batateira. A purificação do vírus a partir de folhas de tomateiro e a produção de antissoro policlonal em coelho foram satisfatórias. No entanto, o antissoro não foi eficiente em ELISA, mas sim em dot-blot e somente na diluição de 1:20. Foi avaliada a reação de 21 genótipos de batateira à infecção com o ToCV, por meio da inoculação com B. tabaci MEAM1, com chance de escolha do vetor. Nenhum genótipo exibiu resistência à infecção; enquanto a variedade Camila foi assintomática e não apresentou alteração na fotossíntese. Plantas de batateira das variedades Ágata e Asterix sadias foram inoculadas com o ToCV, por meio da B. tabaci MEAM1 e ao final foram avaliadas a massa fresca da parte aérea, peso e número dos tubérculos colhidos. Em dois experimentos independentes, as reduções médias no peso fresco da parte aérea foram de 60,1% para Ágata e 46% para Asterix. Porém, as reduções nas produções dessas variedades, no primeiro experimento foram de 99,5% e 98,1%, respectivamente; enquanto no segundo os valores foram de 82,3% e 56,2%, respectivamente. / Tomato chlorosis virus (ToCV) is a species of the genus Crinivirus, which is causing considerable losses mainly on tomato crop (Solanum lycopersicum). It was first isolated and described on 1998 in the United States and subsequently reported in twelve countries. In Brazil, it was first reported in São Paulo State, in Sumaré region in 2008, and after that on the states of Bahia, Espírito Santo, Goiás, Minas Gerais and Rio de Janeiro. There is evidence of the presence of ToCV on the states of Paraná and Santa Catarina. ToCV can also infect other solanaceae and more recently, it was reported infecting potato plants (Solanum tuberosum) in Brazil. This crinivirus is transmitted by Bemisia tabaci MEAM1. Considering the patosystem potato/ToCV, there are no studies on the occurrence, symptomatology in different varieties, and damages caused by this crinivirus. In addition, there is no polyclonal antiserum for the Brazilian isolate of ToCV for use in diagnosis. The objectives of the present work were: to purify the virus and produce a polyclonal antiserum; to evaluate the reaction of potato genotypes to ToCV infection; to evaluate the yield loss caused by this crinivirus on two potato cultivars. The virus purification from tomato leaves and the production of polyclonal antiserum in rabbit were satisfactorily accomplished. However, the antiserum was not efficient on ELISA test, but in dot-blot, only when diluted 1:20. The reaction of 21 potato genotypes to infection with ToCV was evaluated by inoculation with B. tabaci MEAM1, with chance of choice for the vector. All genotypes were infected with ToCV and Camila was the only one asymptomatic. Plants of cultivars Ágata and Asterix were inoculated with ToCV, by means of viruliferous vector, and at the end were evaluated for the fresh mass of the aerial part, weight and number of harvested tubers. In two independent experiments, average reductions in aerial fresh weight were 60.1% for Ágata and 46% for Asterix. However, reductions in yield of these varieties in the first experiment were 99.5% and 98.1%, respectively; while in the second the values were 82.3% and 56.2%, respectively.

Solanum tuberosum

Antissoro policlonal

Crinivirus

Dot-blot

Solanum tuberosum

Crinivirus

Dot-blot

Polyclonal antiserum

Produção e caracterização de um anticorpo policlonal monoespecífico contra rNcp43 para o diagnóstico da neosporose / Produção e caracterização de um anticorpo policlonal monoespecífico contra rNcp43 para o diagnóstico da neosporose

Sá, Gizele Lima de

14 February 2012

Made available in DSpace on 2014-08-20T14:31:28Z (GMT). No. of bitstreams: 1 dissertacao_gizele_lima_de_sa.pdf: 488608 bytes, checksum: fe16f7b595024fb9112b8c23f5da90ca (MD5) Previous issue date: 2012-02-14 / Neosporosis is considered a disease of worldwide distribution. It is caused by the apicomplexa protozoan Neospora caninum, responsible for neuromuscular disorders in dogs and abortions in bovines, which makes it an important pathogen in cattle breeding. The diagnosis of this disease can be accomplished by identifying the parasites by histological sections or by detection of specific antibodies. However, serological methods can be hampered by cross-reactivity with other apicomplexa parasites, such as Toxoplasma gondii. Parasite-specific antigens used for detection of antibodies or in the production of antiserum for the detection of tachyzoites can improve the specificity and sensitivity of diagnostic tests and studies of the biology of the parasite. Among specific antigens of Neospora genus, NcSRS2 (Nc-p43) which is an immunodominant surface protein stands out. It is present in tachyzoites as well as bradyzoites. In this study, Nc-p43 protein was produced in its recombinant form (rNcp43), by inserting the gene NcSRS2 in the cloning vector pET100/DTOPO, which was used to transform Escherichia coli BL21 Star. rNc-p43 protein was evaluated for reactivity with immune sera from naturally infected bovine, ovine and canine species, and used to immunize BALB/c mice for the production of a polyclonal antibody (pAb). rNc-p43 (pAb/rNc-p43) antibody was conjugated to fluorescein isothiocyanate (FITC) and the reactivity with the native protein on the surface of the parasite was evaluated by immunofluorescence. rNc-p43 protein was recognized by anti N. caninum present in immune sera by ELISA and dot blot and it was able to generate antibodies against the p43 antigen. The pAb/rNc-p43 reacted with the rNc-p43 protein in indirect ELISA and Western blotting, detecting N. caninum tachyzoites in direct and indirect immunofluorescence, with a fluorescence pattern only in the apical complex of the parasite, maintaining affinity even after conjugation with FITC. pAb/rNc-p43 showed no cross-reactivity with T. gondii. The results of this study suggest that the rNc-p43 obtained and the pAb produced can be useful in developing diagnostic tests based on the detection of specific antibodies and the antigen present on the surface of the parasite. / A neosporose é considerada uma doença de distribuição mundial, causada pelo protozoário apicomplexa Neospora caninum, causador de desordens neuromusculares em cães e abortos em bovinos, o que o torna um patógeno de relevância na bovinocultura. O diagnóstico desta enfermidade pode ser realizado através da identificação do parasito em cortes histológicos ou pela detecção de anticorpos específicos. No entanto, os métodos sorológicos aplicados podem ser dificultados por reações cruzadas com outros parasitos apicomplexas, como Toxoplasma gondii. Antígenos específicos do parasito utilizados para detecção de anticorpos ou na produção de insumos biológicos para a detecção de taquizoítos podem melhorar a especificidade e a sensibilidade dos testes de diagnóstico e de estudos da biologia do parasito. Entre os antígenos específicos de Neospora, destaca-se a proteína de superfície imunodominante NcSRS2 (Nc-p43), presente tanto em taquizoítos quanto em bradizoítos. Neste estudo, a proteína Nc-p43 foi produzida em sua forma recombinante (rNc-p43), através da inserção do gene NcSRS2 no vetor de clonagem pET100/DTOPO, o qual foi utilizado para transformar a bactéria Escherichia coli BL21 Star. A proteína rNc-p43 foi avaliada quanto a reatividade com soros imunes de animais naturalmente infectados das espécies bovina, ovina e canina; e utilizada para imunizar camundongos da linhagem BALB/c para a produção de um anticorpo policlonal (pAb). O anticorpo anti rNc-p43 (pAb/rNc-p43) foi conjugado com isotiocianato de fluoresceína (FITC) e avaliado quanto a reação com a proteína nativa na superfície do parasito por imunofluorescência. A proteína rNc-p43 foi reconhecida por anticorpos anti N. caninum presente nos soros imunes, através de ELISA e Dot blot e foi capaz de gerar anticorpos contra o antígeno rNc-p43. O pAb/rNc-p43 reagiu com a proteína rNc-p43 em ELISA indireto e Western blotting, detectou taquizoítos de N. caninum em imunofluorescência indireta e direta, apresentando um padrão de fluorescência somente no complexo apical do parasito, mantendo sua afinidade mesmo após sua conjugação com FITC. O pAb/rNc-p43 não apresentou reação cruzada com T. gondii. Os resultados deste estudo sugerem que a rNc-p43 obtida e o pAb gerado podem ser úteis no desenvolvimento de testes de diagnóstico baseados na detecção de anticorpos específicos e do antígeno presente na superfície do parasito.

Neospora caninum

rNc-p43

Anticorpo policlonal

Neospora caninum

rNc-p43

Polyclonal antibody

CNPQ::CIENCIAS BIOLOGICAS::PARASITOLOGIA

Immunocytochemical analysis of subcellular localization of rhamnogalacturonan II, a pectic polysaccharide in plants / 植物のペクチン質多糖ラムノガラクツロナンIIの細胞内局在に関する免疫組織化学的研究

Zhou, Ye

25 March 2019

京都大学 / 0048 / 新制・課程博士 / 博士(農学) / 甲第21817号 / 農博第2330号 / 新制||農||1067(附属図書館) / 学位論文||H31||N5189(農学部図書室) / 京都大学大学院農学研究科応用生命科学専攻 / (主査)教授 間藤 徹, 教授 髙部 圭司, 教授 矢﨑 一史 / 学位規則第4条第1項該当 / Doctor of Agricultural Science / Kyoto University / DFAM

Rhamnogalacturonan II

Pectic polysaccharide

Boron

Immunocytochemistry

Monoclonal antibody

Polyclonal antibody

610

Pooling of rabbit antisera to reduce lot to lot variability of polyclonal antibodies

Ozimek, Paulina

January 2017

No description available.

human protein atlas

polyclonal antibodies

immunohistochemistry

immunocytochemistry

antobody purification

Engineering and Technology

Teknik och teknologier

Étude de la résistance aux antibiotiques des entérocoques d'origine animale du Québec

Tremblay, Cindy-Love

08 1900

Les entérocoques font partie de la flore normale intestinale des animaux et des humains. Plusieurs études ont démontré que les entérocoques d’origine animale pouvaient représenter un réservoir de gènes de résistance aux antibiotiques pour la communauté humaine et animale. Les espèces Enterococcus faecalis et Enterococcus faecium sont importantes en santé publique; elles sont responsables d’environ 12% de toutes les infections nosocomiales aux États-Unis. Au Canada, les cas de colonisation et/ou d’infections à entérocoques résistants à la vancomycine ont plus que triplé de 2005 à 2009. Un total de 387 isolats E. faecalis et E. faecium aviaires, et 124 isolats E. faecalis porcins ont été identifiés et analysés pour leur susceptibilité aux antibiotiques. De hauts pourcentages de résistance envers les macrolides et les tétracyclines ont été observés tant chez les isolats aviaires que porcins. Deux profils phénotypiques prédominants ont été déterminés et analysés par PCR et séquençage pour la présence de gènes de résistance aux antibiotiques. Différentes combinaisons de gènes de résistance ont été identifiées dont erm(B) et tet(M) étant les plus prévalents. Des extractions plasmidiques et des analyses par hybridation ont permis de déterminer, pour la première fois, la colocalisation des gènes erm(B) et tet(M) sur un plasmide d’environ 9 kb chez des isolats E. faecalis porcins, et des gènes erm(B) et tet(O) sur un plasmide de faible poids moléculaire d’environ 11 kb chez des isolats E. faecalis aviaires. De plus, nous avons démontré, grâce à des essais conjugatifs, que ces plasmides pouvaient être transférés. Les résultats ont révélé que les entérocoques intestinaux aviaires et porcins, lesquels peuvent contaminer la viande à l’abattoir, pouvaient représenter un réservoir de gènes de résistance envers la quinupristine-dalfopristine, la bacitracine, la tétracycline et les macrolides. Afin d’évaluer l’utilisation d’un antisérum polyclonal SA dans l’interférence de la résistance à de fortes concentrations de bacitracine (gènes bcrRAB), lors d’un transfert conjugatif répondant aux phéromones, un isolat multirésistant E. faecalis aviaire a été sélectionné. Après induction avec des phéromones produites par la souche réceptrice E. faecalis JH2-2, l’agrégation de la souche donatrice E. faecalis 543 a été observée ainsi que des fréquences de transfert élevées en bouillon lors d’une courte période de conjugaison. Le transfert conjugatif des gènes asa1, traB et bcrRAB ainsi que leur colocalisation a été démontré chez le donneur et un transconjugant T543-1 sur un plasmide de 115 kb par électrophorèse à champs pulsé (PFGE) et hybridation. Une CMI de > 2 048 µg/ml envers la bacitracine a été obtenue tant chez le donneur que le transconjuguant tandis que la souche réceptrice JH2-2 démontrait une CMI de 32 µg/ml. Le séquençage des gènes asa1, codant pour la substance agrégative, et traB, une protéine régulant négativement la réponse aux phéromones, a révélé une association de cet élément génétique avec le plasmide pJM01. De plus, cette étude présente qu’un antisérum polyclonal SA peut interférer significativement dans le transfert horizontal d’un plasmide répondant aux phéromones codant pour de la résistance à de fortes doses de bacitracine d’une souche E. faecalis aviaire multirésistante. Des isolats cliniques E. faecium d’origine humaine et canine ont été analysés et comparés. Cette étude rapporte, pour la première fois, la caractérisation d’isolats cliniques E. faecium résistants à l’ampicilline (EFRA) d’origine canine associés à CC17 (ST17) au Canada. Ces isolats étaient résistants à la ciprofloxacine et à la lincomycine. Leur résistance envers la ciprofloxacine a été confirmée par la présence de substitutions dans la séquence en acides aminés des gènes de l’ADN gyrase (gyrA/gyrB) et de la topoisomérase IV (parC/parE). Des résistances élevées envers la gentamicine, la kanamycine et la streptomycine, et de la résistance envers les macrolides et les lincosamides a également été observées. La fréquence de résistance envers la tétracycline était élevée tandis que celle envers la vancomycine n’a pas été détectée. De plus, aucune résistance n’a été observée envers le linézolide et la quinupristine-dalfopristine. Les données ont démontré une absence complète des gènes esp (protéine de surface des entérocoques) et hyl (hyaluronidase) chez les isolats canins EFRA testés tandis qu’ils possédaient tous le gène acm (adhésine de liaison au collagène d’E. faecium). Aucune activité reliée à la formation de biofilm ou la présence d’éléments CRISPR (loci de courtes répétitions palindromiques à interespaces réguliers) n’a été identifiée chez les isolats canins EFRA. Les familles de plasmide rep6 and rep11 ont significativement été associées aux isolats d’origine canine. Les profils PFGE des isolats d’origine humaine et canine n'ont révélé aucune relation (≤ 80%). Ces résultats illustrent l'importance d'une utilisation judicieuse des antibiotiques en médecine vétérinaire afin d’éviter la dissémination zoonotique des isolats EFRA canins. Nous pensons que ces résultats contribueront à une meilleure compréhension des mécanismes de résistance aux antibiotiques et de leurs éléments mobiles ainsi qu’à de nouvelles stratégies afin de réduire le transfert horizontal de la résistance aux antibiotiques et des facteurs de virulence. / Enterococci are part of normal intestinal gut flora of animals and humans. Many studies have shown that enterococci from animal origin could represent an antimicrobial resistance genes reservoir for the human community. The two species Enterococcus faecalis and Enterococcus faecium are important in public health; they are responsible for approximately 12% of all nosocomial infections in the United States. In Canada, cases of colonization and/or infections to vancomycin resistant enterococci have more than tripled from 2005 to 2009. A total of 387 poultry E. faecalis and E. faecium isolates, and 124 porcine E. faecalis isolates were identified and analyzed for their antibiotic susceptibilities. High percentages of resistance to macrolides and tetracyclines were found in both avian and porcine isolates. Two predominant phenotypic profiles were determined and analyzed by PCR and sequencing for the presence of antimicrobial resistance genes. Various combinations of antibiotic resistance genes were detected; erm(B) and tet(M) were the most common genes. For the first time, plasmid extraction and hybridization revealed colocalization of erm(B) and tet(M) on a plasmid of ~9 kb in porcine E. faecalis isolates, and of erm(B) and tet(O) on a low-molecular-weight plasmid of ~11 kb in poultry E. faecalis isolates. Furthermore, we demonstrated, through mating experiments, these plasmids could be transferred. Results indicate that the intestinal enterococci of healthy pigs and poultry, which can contaminate meat at slaughter, could be a reservoir for quinupristin-dalfopristin, bacitracin, tetracycline, and macrolide resistance genes. To assess the use of a polyclonal antiserum AS on the contact interference of a high level bacitracin resistant (bcrRAB genes) pheromone-responsive plasmid, a multiresistant E. faecalis isolate of poultry origin was selected. After induction with pheromones produced by the recipient strain E. faecalis JH2-2, clumping of the donor E. faecalis strain 543 was demonstrated as well as high transfer frequencies in short time broth mating. Conjugative transfer of asa1, traB and bcrRAB genes and their co-localization were also demonstrated in the donor strain and a transconjugant T543-1 on a plasmid band of 115 kb by PFGE and Southern blotting. A MIC to bacitracin of > 2 048 µg/ml was obtained for both strains 543 and T543-1 whereas the recipient strain JH2-2 demonstrated a MIC of 32 µg/ml. Sequencing of the asa1 gene encoding for an AS, and traB for a pheromone shutdown protein, confirmed the association of this genetic element to the pheromone-responsive plasmid related to pJM01. More significantly, this study presents the evidence that a polyclonal antiserum AS can significantly interfere with the horizontal transfer of a pheromone-responsive plasmid encoding high-level bacitracin resistance of a poultry multidrug resistant E. faecalis strain. Clinical isolates of E. faecium of human and canine origin were analyzed and compared. This report describes for the first time the characterization of canine clinical ampicillin-resistant E. faecium (AREF) isolates related to CC17 (ST17) in Canada. These isolates were resistant to ciprofloxacin and lincomycin. Resistance to ciprofloxacin was confirmed by amino acid substitutions in DNA gyrase (gyrA/gyrB) and topoisomerase IV (parC/parE) genes. High-level gentamicin, -kanamycin and -streptomycin resistances and macrolides resistance were also observed. The frequency of tetracycline resistance was high whereas vancomycin resistance was not detected. Also, no resistance was observed to linezolid and quinupristin-dalfopristin antibiotics. Data demonstrated the complete absence of enterococcal surface protein (esp) and hyaluronidase (hyl) genes among the canine AREF isolates tested while all were acm (collagen adhesin from E. faecium) positive. However, most of them were shown to harbor efaAfm gene, encoding for a cell wall adhesin. No biofilm formation or clustered regularly interspaced short palindromic repeats (CRISPR) elements were identified in these canine AREF isolates. rep6 and rep11 families of plasmids were significantly associated with isolates from dogs. The PFGE patterns of human and dog isolates were considered unrelated (≤ 80%). These findings also support the importance of prudent use of antibiotics in veterinary medicine to avoid zoonotic spread of canine AREF isolates. We are confident that our results may help to better understand the mechanisms of antibiotic resistance and mobile element carrying them as well as new strategies to reduce the horizontal transfer of antibiotic resistance and virulence traits.

Enterococcus faecalis

Enterococcus faecium

résistance aux antibiotiques

plasmide

conjugaison répondant aux phéromones

antisérum polyclonal SA

virulence

commensal

clinique

Enterococcus faecalis

Enterococcus faecium

antimicrobial resistance

plasmid

pheromone-responsive conjugation

polyclonal antiserum AS

virulence

commensal

clinical

Développement et caractérisation d'outils immunologiques dirigés contre des récepteurs membranaires d'intérêt thérapeutique / Development and characterization of immunological tools directed against membrane proteins of therapeutic interest

Hartmann, Lucie

16 May 2019

Les Récepteurs Couplés aux Protéines G (RCPG) constituent la plus grande famille de protéines membranaires chez l’Homme, et leur implication dans un grand nombre de processus physiologiques justifie pleinement l’intérêt de leur étude. Les anticorps spécifiques de ces récepteurs sont des outils polyvalents à haute valeur ajoutée, qui restent toutefois encore trop rarement disponibles, notamment en raison des difficultés techniques posées par leur génération. Ce manuscrit présente la mise au point d’une méthode d’immunisation alternative et innovante, mettant en jeu des particules virales recombinantes dérivées du Virus de la Forêt de Semliki (SFV) codant pour le récepteur d’intérêt. Appliquée au récepteur de l’adénosine A2A humain, l’immunisation permet d’engendrer la surexpression de celui-ci à la surface des cellules de l’animal infecté, et de provoquer l’apparition d’une réponse immunitaire. Cette approche permet d’une part de générer un sérum polyclonal de souris spécifique au récepteur, et ouvre donc une nouvelle voie pour l’obtention d’anticorps monoclonaux murins. Elle semble d’autre part prometteuse pour la génération de nanobodies. / G Protein Coupled Receptors (GPCRs) constitute the largest membrane protein family represented in the human genome. Their involvement in a wide number of biological processes fully supports their study. GPCR-targeting antibodies are versatile and valuable tools, which remain scarcely available, chiefly because their generation is a challenging process. This thesis presents an alternative and innovative strategy in which recombinant Semliki Forest Virus (SFV) particles coding for the receptor of interest are used as immunogens. When applied to the human version of the Adenosine A2A receptor, this method enables to cause the receptor’s overexpression at the surface of the infected animal cells, which generates an immune response. This strategy enables to raise receptor-specific mouse polyclonal serum. It opens a new path towards the generation of monoclonal mouse antibodies. Additionally, it seems to also be a promising approach to develop nanobodies.

RCPG

Récepteur de l’adénosine A2A

Récepteur de la mélatonine MT1

Nanodisques

Particules virales

SFV

Anticorps

Sérum polyclonal

Nanobodies

GPCRs

Adenosine A2A receptor

Melatonine MT1 receptor

Nanodiscs

Viral particles

SFV

Antibodies

Polyclonal serum

Nanobodies

572.8

571.96

Étude de la résistance aux antibiotiques des entérocoques d'origine animale du Québec

Tremblay, Cindy-Love

08 1900

Les entérocoques font partie de la flore normale intestinale des animaux et des humains. Plusieurs études ont démontré que les entérocoques d’origine animale pouvaient représenter un réservoir de gènes de résistance aux antibiotiques pour la communauté humaine et animale. Les espèces Enterococcus faecalis et Enterococcus faecium sont importantes en santé publique; elles sont responsables d’environ 12% de toutes les infections nosocomiales aux États-Unis. Au Canada, les cas de colonisation et/ou d’infections à entérocoques résistants à la vancomycine ont plus que triplé de 2005 à 2009. Un total de 387 isolats E. faecalis et E. faecium aviaires, et 124 isolats E. faecalis porcins ont été identifiés et analysés pour leur susceptibilité aux antibiotiques. De hauts pourcentages de résistance envers les macrolides et les tétracyclines ont été observés tant chez les isolats aviaires que porcins. Deux profils phénotypiques prédominants ont été déterminés et analysés par PCR et séquençage pour la présence de gènes de résistance aux antibiotiques. Différentes combinaisons de gènes de résistance ont été identifiées dont erm(B) et tet(M) étant les plus prévalents. Des extractions plasmidiques et des analyses par hybridation ont permis de déterminer, pour la première fois, la colocalisation des gènes erm(B) et tet(M) sur un plasmide d’environ 9 kb chez des isolats E. faecalis porcins, et des gènes erm(B) et tet(O) sur un plasmide de faible poids moléculaire d’environ 11 kb chez des isolats E. faecalis aviaires. De plus, nous avons démontré, grâce à des essais conjugatifs, que ces plasmides pouvaient être transférés. Les résultats ont révélé que les entérocoques intestinaux aviaires et porcins, lesquels peuvent contaminer la viande à l’abattoir, pouvaient représenter un réservoir de gènes de résistance envers la quinupristine-dalfopristine, la bacitracine, la tétracycline et les macrolides. Afin d’évaluer l’utilisation d’un antisérum polyclonal SA dans l’interférence de la résistance à de fortes concentrations de bacitracine (gènes bcrRAB), lors d’un transfert conjugatif répondant aux phéromones, un isolat multirésistant E. faecalis aviaire a été sélectionné. Après induction avec des phéromones produites par la souche réceptrice E. faecalis JH2-2, l’agrégation de la souche donatrice E. faecalis 543 a été observée ainsi que des fréquences de transfert élevées en bouillon lors d’une courte période de conjugaison. Le transfert conjugatif des gènes asa1, traB et bcrRAB ainsi que leur colocalisation a été démontré chez le donneur et un transconjugant T543-1 sur un plasmide de 115 kb par électrophorèse à champs pulsé (PFGE) et hybridation. Une CMI de > 2 048 µg/ml envers la bacitracine a été obtenue tant chez le donneur que le transconjuguant tandis que la souche réceptrice JH2-2 démontrait une CMI de 32 µg/ml. Le séquençage des gènes asa1, codant pour la substance agrégative, et traB, une protéine régulant négativement la réponse aux phéromones, a révélé une association de cet élément génétique avec le plasmide pJM01. De plus, cette étude présente qu’un antisérum polyclonal SA peut interférer significativement dans le transfert horizontal d’un plasmide répondant aux phéromones codant pour de la résistance à de fortes doses de bacitracine d’une souche E. faecalis aviaire multirésistante. Des isolats cliniques E. faecium d’origine humaine et canine ont été analysés et comparés. Cette étude rapporte, pour la première fois, la caractérisation d’isolats cliniques E. faecium résistants à l’ampicilline (EFRA) d’origine canine associés à CC17 (ST17) au Canada. Ces isolats étaient résistants à la ciprofloxacine et à la lincomycine. Leur résistance envers la ciprofloxacine a été confirmée par la présence de substitutions dans la séquence en acides aminés des gènes de l’ADN gyrase (gyrA/gyrB) et de la topoisomérase IV (parC/parE). Des résistances élevées envers la gentamicine, la kanamycine et la streptomycine, et de la résistance envers les macrolides et les lincosamides a également été observées. La fréquence de résistance envers la tétracycline était élevée tandis que celle envers la vancomycine n’a pas été détectée. De plus, aucune résistance n’a été observée envers le linézolide et la quinupristine-dalfopristine. Les données ont démontré une absence complète des gènes esp (protéine de surface des entérocoques) et hyl (hyaluronidase) chez les isolats canins EFRA testés tandis qu’ils possédaient tous le gène acm (adhésine de liaison au collagène d’E. faecium). Aucune activité reliée à la formation de biofilm ou la présence d’éléments CRISPR (loci de courtes répétitions palindromiques à interespaces réguliers) n’a été identifiée chez les isolats canins EFRA. Les familles de plasmide rep6 and rep11 ont significativement été associées aux isolats d’origine canine. Les profils PFGE des isolats d’origine humaine et canine n'ont révélé aucune relation (≤ 80%). Ces résultats illustrent l'importance d'une utilisation judicieuse des antibiotiques en médecine vétérinaire afin d’éviter la dissémination zoonotique des isolats EFRA canins. Nous pensons que ces résultats contribueront à une meilleure compréhension des mécanismes de résistance aux antibiotiques et de leurs éléments mobiles ainsi qu’à de nouvelles stratégies afin de réduire le transfert horizontal de la résistance aux antibiotiques et des facteurs de virulence. / Enterococci are part of normal intestinal gut flora of animals and humans. Many studies have shown that enterococci from animal origin could represent an antimicrobial resistance genes reservoir for the human community. The two species Enterococcus faecalis and Enterococcus faecium are important in public health; they are responsible for approximately 12% of all nosocomial infections in the United States. In Canada, cases of colonization and/or infections to vancomycin resistant enterococci have more than tripled from 2005 to 2009. A total of 387 poultry E. faecalis and E. faecium isolates, and 124 porcine E. faecalis isolates were identified and analyzed for their antibiotic susceptibilities. High percentages of resistance to macrolides and tetracyclines were found in both avian and porcine isolates. Two predominant phenotypic profiles were determined and analyzed by PCR and sequencing for the presence of antimicrobial resistance genes. Various combinations of antibiotic resistance genes were detected; erm(B) and tet(M) were the most common genes. For the first time, plasmid extraction and hybridization revealed colocalization of erm(B) and tet(M) on a plasmid of ~9 kb in porcine E. faecalis isolates, and of erm(B) and tet(O) on a low-molecular-weight plasmid of ~11 kb in poultry E. faecalis isolates. Furthermore, we demonstrated, through mating experiments, these plasmids could be transferred. Results indicate that the intestinal enterococci of healthy pigs and poultry, which can contaminate meat at slaughter, could be a reservoir for quinupristin-dalfopristin, bacitracin, tetracycline, and macrolide resistance genes. To assess the use of a polyclonal antiserum AS on the contact interference of a high level bacitracin resistant (bcrRAB genes) pheromone-responsive plasmid, a multiresistant E. faecalis isolate of poultry origin was selected. After induction with pheromones produced by the recipient strain E. faecalis JH2-2, clumping of the donor E. faecalis strain 543 was demonstrated as well as high transfer frequencies in short time broth mating. Conjugative transfer of asa1, traB and bcrRAB genes and their co-localization were also demonstrated in the donor strain and a transconjugant T543-1 on a plasmid band of 115 kb by PFGE and Southern blotting. A MIC to bacitracin of > 2 048 µg/ml was obtained for both strains 543 and T543-1 whereas the recipient strain JH2-2 demonstrated a MIC of 32 µg/ml. Sequencing of the asa1 gene encoding for an AS, and traB for a pheromone shutdown protein, confirmed the association of this genetic element to the pheromone-responsive plasmid related to pJM01. More significantly, this study presents the evidence that a polyclonal antiserum AS can significantly interfere with the horizontal transfer of a pheromone-responsive plasmid encoding high-level bacitracin resistance of a poultry multidrug resistant E. faecalis strain. Clinical isolates of E. faecium of human and canine origin were analyzed and compared. This report describes for the first time the characterization of canine clinical ampicillin-resistant E. faecium (AREF) isolates related to CC17 (ST17) in Canada. These isolates were resistant to ciprofloxacin and lincomycin. Resistance to ciprofloxacin was confirmed by amino acid substitutions in DNA gyrase (gyrA/gyrB) and topoisomerase IV (parC/parE) genes. High-level gentamicin, -kanamycin and -streptomycin resistances and macrolides resistance were also observed. The frequency of tetracycline resistance was high whereas vancomycin resistance was not detected. Also, no resistance was observed to linezolid and quinupristin-dalfopristin antibiotics. Data demonstrated the complete absence of enterococcal surface protein (esp) and hyaluronidase (hyl) genes among the canine AREF isolates tested while all were acm (collagen adhesin from E. faecium) positive. However, most of them were shown to harbor efaAfm gene, encoding for a cell wall adhesin. No biofilm formation or clustered regularly interspaced short palindromic repeats (CRISPR) elements were identified in these canine AREF isolates. rep6 and rep11 families of plasmids were significantly associated with isolates from dogs. The PFGE patterns of human and dog isolates were considered unrelated (≤ 80%). These findings also support the importance of prudent use of antibiotics in veterinary medicine to avoid zoonotic spread of canine AREF isolates. We are confident that our results may help to better understand the mechanisms of antibiotic resistance and mobile element carrying them as well as new strategies to reduce the horizontal transfer of antibiotic resistance and virulence traits.

Enterococcus faecalis

Enterococcus faecium

résistance aux antibiotiques

plasmide

conjugaison répondant aux phéromones

antisérum polyclonal SA

virulence

commensal

clinique

Enterococcus faecalis

Enterococcus faecium

antimicrobial resistance

plasmid

pheromone-responsive conjugation

polyclonal antiserum AS

virulence

commensal

clinical

Receptor de aerobactina férrica de Escherichia coli - IutA: um novo antígeno T-independente do tipo 1 / Ferric aerobactin receptor from Escherichia coli IutA: a new type 1 T-independent antigen

Landgraf, Taise Natali

15 June 2012

Alguns fatores de virulência em bactérias de microbiota normal, tais como sideróforos moléculas captadoras de ferro e determinadas fímbrias, possibilitam que esses microorganismos causem infecção quando a colonização ocorre fora de seu habitat normal. Dentre as diferentes espécies bacterianas da microbiota normal com potencial para causar doenças, como as infecções do trato urinário (ITUs), destaca-se Escherichia coli. Certas cepas dessa espécie bacteriana apresentam um plasmídeo (pColV) que contém um gene que codifica IutA, o receptor para a aerobactina férrica, que é um sideróforo frequentemente associado às ITUs. Recentemente, nosso grupo estabeleceu que IutA apresenta a capacidade de induzir proliferação de linfócitos B. Neste trabalho, objetivamos identificar as moléculas e os mecanismos que modulam a proliferação de linfócitos B induzida por IutA recombinante (rIutA) de E. coli. Para avaliar se a proliferação era dependente de outras células, foram realizados ensaios de proliferação de células B marcadas com CFSE utilizando o sobrenadante de macrófagos ou células dendríticas estimulados com rIutA, por 24 horas, ou coculturas em placas de transwell. As análises desses ensaios revelaram que a proliferação das células B induzida por rIutA é dependente de moléculas liberadas por células acessórias, ou seja, ocorre de forma indireta. Os resultados dos ensaios utilizando células deficientes da molécula adaptadora MyD88 mostraram dependência da sinalização por essa molécula nos linfócitos B, mas não nas células acessórias, para que ocorresse a proliferação. Posteriormente, os ensaios in vitro utilizando células de animais deficientes para TLR4, TLR2 e IL-33R mostraram que a sinalização por esses receptores é dispensável. Contrariamente, a utilização do antagonista do receptor de IL-1 reduziu significativamente a proliferação de células B tratadas com esse antagonista. Além disso, identificamos que rIutA leva à expressão de IL-1 em macrófagos e células dendríticas estimuladas com essa proteína. Assim, nossos resultados sugerem que rIutA de E. coli induz a proliferação policlonal de linfócitos B de maneira independente de células T, por um mecanismo mediado por células acessórias, como macrófagos e células dendríticas. Embora não identifiquemos o receptor macrofágico ou das células dendríticas a qual rIutA se liga, sugerimos que a ação de rIutA sobre essas células induz a produção de IL-1 que age sobre seu receptor em células B, induzindo-as a proliferação. Esses resultados abrem perspectivas de estudo de IutA como molécula estimuladora do tecido linfóide associado a mucosa, assim como evasina de E. coli patogênicas. / Indigenous bacteria may contain some virulence factors, such as siderophores iron chelator molecules and fimbriae, that allow these microorganisms to become pathogens in sites others than their normal habitat. Among the different indigenous bacterial species in the gut, Escherichia coli is one with potential to cause infections, mainly urinary tract infection (UTI). Certain strains of E. coli have a plasmid (pColV), which encode ferric aerobactin outer membrane receptor, IutA, often associated with UTI. Our group has recently described IutA as an inducer of B cell proliferation. Here, we identify the molecules and mechanisms that modulate the proliferation of B lymphocytes induced by recombinant IutA (rIutA) from E. coli. To determine whether the B cell proliferation induced by rIutA is dependent on other cell, we carried out assays with CFSE-labeled B cells cocultured separately with macrophages or dendritic cells stimulated with rIutA using transwell membranes or incubated with conditioned medium from these cells. The analysis of the results showed that rIutA indirectly induced the proliferation of B cells in a manner dependent on molecules released by accessory cells. When we analyzed the ability of rIutA in inducing proliferation of cells from mice deficient in adapter molecule MyD88, we found that this signaling molecule is crucial for signaling induced by rIutA in B cells, but not in accessory cells. A similar analysis with cells from mice deficient in Toll like receptor (TLR) 4, TLR2 or inteukin (IL-) 33 receptor revealed that these receptors were not required for rIutA signaling of any tested cells. Conversely, the pretreatment of the B cells with IL-1 receptor antagonist significantly decreased the proliferation of these cells in response to conditioned medium from cultures of IutAstimulated macrophages. Moreover, we determined that rIutA induced the expression of IL-1 in macrophages and dendritic cells stimulated with IutA. Altogether, our results suggest that IutA from E. coli induces polyclonal B-cell proliferation independently of T cells in a mechanism mediated by accessory cells such as macrophages and dendritic cells. Although the IutA-binding receptors from macrophages and dendritic cells have not been identified, we suggested that rIutA induces these cells to produce IL-1, which in turns acts on its receptor on B cells, triggering proliferation. These results open perspectives for studying IutA as a molecule that stimulates the mucosa-associated lymphoid tissue and as an immune-evasion molecule from pathogenic E. coli.

Ativação policlonal

B cells

Células B

IL-1 receptor

MyD88

MyD88

Polyclonal activation

Receptor de IL-1

Receptor de sideróforo

Siderophore receptor

Desenvolvimento de técnicas de imunoensaio para detecção de microcistina em amostras ambientais / Development of immunoassay techniques to detect microcystin in environmental samples

Anjos, Fabyana Maria dos

15 December 2009

A contaminação da água para consumo humano por toxinas produzidas por cianobactérias é um problema de saúde pública e das autoridades em todo o mundo. Microcistina-LR (MCLR) é uma cianotoxina heptapeptídica cíclica que inibe as proteínas fosfatases PP1 E PP2A nos hepatócitos. Microcistinas são produzidas por diversos gêneros de cianobactérias e mais de 70 variações estruturais têm sido caracterizadas em florações naturais. Por serem haptenos, as microcistinas são incapazes de induzir uma resposta imune em animais. Conseqüentemente, foi necessário aplicar métodos de conjugação envolvendo a adição de uma proteína carreadora, mcKLH (cationized Keyhole Limpet Hemocyanin). Portanto, o objetivo inicial desta tese foi o de obter anticorpos monoclonal (em camundongos) e policlonal (em coelho) anti- MCLR. Com relação ao anticorpo monoclonal foram obtidos 9 hibridomas (k29, k210, k317, k248, k284, k290, k2161, k2226, k2232), sendo que apenas 5 se mostraram estáveis (k29, k317, k248, k284, k2232). Estes foram selecionados para serem isotipados, expandidos em líquido ascítico, purificados em coluna cromatográfica de proteína-A e titulados. Dentre estes cinco hibridomas secretores de anticorpos, o clone k317 foi o que melhor reconheceu (mais específico) a toxina MCLR. Os anticorpos do sobrenadante de meio de cultura do hibridoma e o fluido ascítico purificado foram identificados pelo ensaio ELISA (Enzyme Linked Immunosorbent Assay) previamente padronizado. Mesmo sensibilizando a placa de ELISA com diferentes antígenos, tais como MCLR-cBSA, MCLR, MCLR, MCRR, MCYR e MCLA, o clone 17 foi o que apresentou melhor linearidade frente às variantes de microcistina. Portanto, o clone 17 (isótipo IgG1) obtido é muito promissor e será usado para detecção de MCLR na água para consumo humano através do desenvolvimento de um kit de ELISA competição. Com relação ao anticorpo policlonal, o antígeno de imunização foi MCLR-mcKLH, enquanto que o antígeno de sensibilização foi MCLR-cBSA para o ensaio de titulação de anticorpos de classe IgG por ELISA indireto. Na seqüencia, foi padronizado um ensaio ELISA competição utilizando somente a toxina MCLR como antígeno de sensibilização. Este método Caseína foi padronizado, validado e comparado com o kit comercial Abraxis®. O kit ELISA competição que utiliza anticorpo policlonal, nomeado como método Caseína, foi avaliado quanto Limite Inferior de Quantificação, Especificidade, Seletividade, influência do metanol no ensaio, Recuperação, Linearidade, Precisão, Exatidão e Robustez. Este método de triagem apresentou excelente resultado quando comparado ao kit comercial Abraxis®, pois foi capaz de detectar tanto variantes de microcistinas como nodularinas no ambiente aquático. O ensaio ELISA competição utilizando anticorpo policlonal anti-MCLR foi submetido à patente pela Agência USP de Inovação (I.N.P.I. 018090046230). / The contamination of drinking water by cyanobacterial toxins is a public health issue and a concern for water authorities throughout the world. Microcystin-LR (MCLR) is a hazardous cyclic heptapeptide cyanotoxin, which inhibits protein phosphatase PP1 and PP2A in hepatocytes. Microcystins are produced by several genera of cyanobacteria and presents more than 70 structural variations characterized in natural blooms. As haptens, microcystins are unable to invoke an immune response in animals. Consequently, the application of conjugation methods with an additional carrier protein, the KLH (Keyhole Limpet Hemocyanin) was necessary. The main objective of this study was to obtain monoclonal (in mice) and polyclonal (in rabbits) antibodies for reacting against MCLR. In what refers to monoclonal antibodies, 9 hybridomas (k29, k210, k317, k248, k284, k290, k2161, k2226, k2232) were obtained; however only 5 were stables (k29, k317, k248, k284, k2232). These were selected to be isotyped, expanded in ascitic fluid, purified by protein-A column chromatography and then, they were titrated. Out of these five antibody-secretor hybridomas, clone k317 was the best to recognize (more specific) the MCLR toxins. Antibodies in hybridoma cell culture supernatant and purified ascites fluid were identified by ELISA assay (Enzyme Linked Immunosorbent Assay) as prior standardized. Even when sensitizing ELISA plate with different antigens, as MCLR-cBSA, MCLR, MCLR, MCRR, MCYR and MCLA, clone 17 presented the best linearity against microcystin variants. Therefore, the obtained clone 17 (isotype IgG1) is a promising clone and shall be used for detecting MCLR in drinking water through the development of a competitive ELISA immunoassay kit. In what refers to the polyclonal antibody, MCLR-mcKLH was used as immunization antigen, while MCLR-cBSA was used as sensitizing antigen for the IgG titration assay by indirect ELISA. In the sequence, a competition ELISA assay was standardized using the MCLR toxin as sensitizing antigen. This Casein method was standardized, validated and compared to the commercial kit Abraxis®. The competition ELISA kit using polyclonal antibody, known as Casein method, was analyzed concerning its Quantification Inferior Limit, Specificity, Selectivity, methanol influence of the assay, Recuperation, Linearity, Precision, Accuracy and Robustness. This screening method reached excellent results if compared to the commercial kit Abraxis®, for being able to detect both the microcystins variants and the nodularins in aquatic environmental. The competition ELISA assay using anti-MCLR polyclonal antibody was submitted to the grant of a patent by USP Innovation Agency (INPI 018090046230).

Anticorpo monoclonal

Anticorpo policlonal

Conjugação de peptídeos

ELISA

ELISA

Hibridoma

Hybridoma

Microcistina

Microcystin

Monoclonal antibody

Nodularin

Nodularina

Peptide conjugation

Polyclonal antibody

Receptor de aerobactina férrica de Escherichia coli - IutA: um novo antígeno T-independente do tipo 1 / Ferric aerobactin receptor from Escherichia coli IutA: a new type 1 T-independent antigen

Taise Natali Landgraf

15 June 2012

Alguns fatores de virulência em bactérias de microbiota normal, tais como sideróforos moléculas captadoras de ferro e determinadas fímbrias, possibilitam que esses microorganismos causem infecção quando a colonização ocorre fora de seu habitat normal. Dentre as diferentes espécies bacterianas da microbiota normal com potencial para causar doenças, como as infecções do trato urinário (ITUs), destaca-se Escherichia coli. Certas cepas dessa espécie bacteriana apresentam um plasmídeo (pColV) que contém um gene que codifica IutA, o receptor para a aerobactina férrica, que é um sideróforo frequentemente associado às ITUs. Recentemente, nosso grupo estabeleceu que IutA apresenta a capacidade de induzir proliferação de linfócitos B. Neste trabalho, objetivamos identificar as moléculas e os mecanismos que modulam a proliferação de linfócitos B induzida por IutA recombinante (rIutA) de E. coli. Para avaliar se a proliferação era dependente de outras células, foram realizados ensaios de proliferação de células B marcadas com CFSE utilizando o sobrenadante de macrófagos ou células dendríticas estimulados com rIutA, por 24 horas, ou coculturas em placas de transwell. As análises desses ensaios revelaram que a proliferação das células B induzida por rIutA é dependente de moléculas liberadas por células acessórias, ou seja, ocorre de forma indireta. Os resultados dos ensaios utilizando células deficientes da molécula adaptadora MyD88 mostraram dependência da sinalização por essa molécula nos linfócitos B, mas não nas células acessórias, para que ocorresse a proliferação. Posteriormente, os ensaios in vitro utilizando células de animais deficientes para TLR4, TLR2 e IL-33R mostraram que a sinalização por esses receptores é dispensável. Contrariamente, a utilização do antagonista do receptor de IL-1 reduziu significativamente a proliferação de células B tratadas com esse antagonista. Além disso, identificamos que rIutA leva à expressão de IL-1 em macrófagos e células dendríticas estimuladas com essa proteína. Assim, nossos resultados sugerem que rIutA de E. coli induz a proliferação policlonal de linfócitos B de maneira independente de células T, por um mecanismo mediado por células acessórias, como macrófagos e células dendríticas. Embora não identifiquemos o receptor macrofágico ou das células dendríticas a qual rIutA se liga, sugerimos que a ação de rIutA sobre essas células induz a produção de IL-1 que age sobre seu receptor em células B, induzindo-as a proliferação. Esses resultados abrem perspectivas de estudo de IutA como molécula estimuladora do tecido linfóide associado a mucosa, assim como evasina de E. coli patogênicas. / Indigenous bacteria may contain some virulence factors, such as siderophores iron chelator molecules and fimbriae, that allow these microorganisms to become pathogens in sites others than their normal habitat. Among the different indigenous bacterial species in the gut, Escherichia coli is one with potential to cause infections, mainly urinary tract infection (UTI). Certain strains of E. coli have a plasmid (pColV), which encode ferric aerobactin outer membrane receptor, IutA, often associated with UTI. Our group has recently described IutA as an inducer of B cell proliferation. Here, we identify the molecules and mechanisms that modulate the proliferation of B lymphocytes induced by recombinant IutA (rIutA) from E. coli. To determine whether the B cell proliferation induced by rIutA is dependent on other cell, we carried out assays with CFSE-labeled B cells cocultured separately with macrophages or dendritic cells stimulated with rIutA using transwell membranes or incubated with conditioned medium from these cells. The analysis of the results showed that rIutA indirectly induced the proliferation of B cells in a manner dependent on molecules released by accessory cells. When we analyzed the ability of rIutA in inducing proliferation of cells from mice deficient in adapter molecule MyD88, we found that this signaling molecule is crucial for signaling induced by rIutA in B cells, but not in accessory cells. A similar analysis with cells from mice deficient in Toll like receptor (TLR) 4, TLR2 or inteukin (IL-) 33 receptor revealed that these receptors were not required for rIutA signaling of any tested cells. Conversely, the pretreatment of the B cells with IL-1 receptor antagonist significantly decreased the proliferation of these cells in response to conditioned medium from cultures of IutAstimulated macrophages. Moreover, we determined that rIutA induced the expression of IL-1 in macrophages and dendritic cells stimulated with IutA. Altogether, our results suggest that IutA from E. coli induces polyclonal B-cell proliferation independently of T cells in a mechanism mediated by accessory cells such as macrophages and dendritic cells. Although the IutA-binding receptors from macrophages and dendritic cells have not been identified, we suggested that rIutA induces these cells to produce IL-1, which in turns acts on its receptor on B cells, triggering proliferation. These results open perspectives for studying IutA as a molecule that stimulates the mucosa-associated lymphoid tissue and as an immune-evasion molecule from pathogenic E. coli.

Ativação policlonal

Células B

MyD88

Receptor de IL-1

Receptor de sideróforo

B cells

IL-1 receptor

MyD88

Polyclonal activation

Siderophore receptor