Etiological and molecular profile of pathogens causing clinical mastitis, and antimicrobial use in dairy herds / Perfil etiológico e molecular de patógenos causadores de mastite clínica, e uso de antimicrobianos em rebanhos leiteiros

Tiago Tomazi

06 October 2017

The general objectives of this thesis were: (i) to determine the etiological and molecular profile of clinical mastitis (CM) in 20 dairy herds of Southeast, Brazil; and (ii) to quantify antimicrobial used for treatment of CM in the study population. To achieve this goals, four studies were performed. In the Study 1, we characterized the pathogen frequency and severity of CM in dairy herds. In addition, we determined the incidence rate of clinical mastitis (IRCM) and its association with the following herd-level descriptors: bulk milk somatic cell count (BMSCC), bulk milk total bacterial count (BMTBC), herd size (number of lactating cows), milk yield, housing system and season. The association between herd-level descriptors and IRCM were determined by two groups of mixed regression models: one based on the overall IRCM, and five based on the following specific-pathogen groups: contagious, other Gram-positive, Gram-negative, other (composed of yeast and Prototheca spp), and negative culture. A total of 5,957 quarter-cases of CM were recorded and the most frequently isolated pathogens were Escherichia coli (6.6% of total cultures), Streptococcus uberis (6.1%), and Streptococcus agalactiae (5.9%). The majority of CM cases were mild (60.3%), while 34.1% were moderate and 5.6% severe. Overall, the IRCM was 9.7 quarter-cases per 10,000 quarter-days at risk (QDAR), and the only herd-level parameter associated with overall IRCM was BMSCC, in which the highest IRCM was observed for herds with BMSCC >600.000 × 103 cells/mL. In the models evaluating the specific-pathogen groups, IRCM with isolation of major contagious pathogens was associated with BMSCC, milk yield and housing system. For the evaluation of other Gram-positive pathogens, the IRCM was higher in the rainy season of 2015 in comparison with the other seasonal categories. In addition, for the model evaluating the Gram-negative group, the IRCM was highest in herds with BMTBC >30 × 103 cfu/mL. The Study 2 aimed to characterize the treatment profile and quantify the antimicrobial consumption for treatment of CM in dairy herds; and to determine the association of antimicrobial use (AMU) and the same herd-level descriptors as described in the Study 1. Data on treatment practices and AMU were obtained from 19 dairy herds for a period of 12 months per herd. The AMU for treatment of CM was quantified monthly in units of defined daily dose (DDD) and expressed as antimicrobial treatment incidence (ATI; number of DDD per 1,000 lactating cows-day). The overall monthly mean ATI was 17.7 DDD per 1,000 lactating cow-days (15.4 for intramammary compounds, and 2.2 for systematically administered antimicrobials). Among intramammary drugs, aminoglycosides had the highest ATI (11.7 DDD per 1,000 lactating cow-days), while for systematically administrated antimicrobials, fluoroquinolones (4.2 DDD per 1,000 lactating cow-days) were the most frequently used antimicrobials. Herd size and BMSCC were positively associated with ATI. In addition, herd-level ATI was higher in freestall herds than in compost bedded-pack barns. In the Study 3, we determined the phylogeny of E. coli strains isolated from CM in dairy cows and the association of most frequent phylogroups with antimicrobial susceptibility. A total of 100 E. coli isolates recovered from CM cases described in the Study 1 were categorized according to their phylogenetic group using a quadruplex PCR method; antimicrobial susceptibility pattern was also evaluated. Most isolates were assigned to phylogenetic group A (52%), followed by B1 (38%), B2 (2%), C (4%), D (3%), and E (1%). Resistant isolates were observed for all evaluated antimicrobials. Overall, more than 96% of E. coli isolates were resistant to ampicillin, and more than 23% were resistant to cephalothin, sulphadimethoxine or tetracycline. High levels of resistance (>70%) were also found to erythromycin, oxacillin, penicillin, penicillin associated with novobiocin, and pirlimycin. In contrary, high susceptibility was observed to ceftiofur (96.8%) among E. coli isolates. Difference in the antimicrobial susceptibility among phylogenetic groups was observed only for cephalothin, in which E. coli strains belonging to the phylogroup A were inhibited at lower antimicrobial concentrations than strains assigned to the phylogroup B1. In Study 4, we evaluated the genotypic diversity among Strep. agalactiae and Strep. uberis isolates recovered from CM in dairy cows; in addition, the study evaluated the association of genotypes clustered by genetic similarity with antimicrobial susceptibility pattern. Isolates were subtyped using randomly amplified polymorphic DNA (RAPD) analysis. A great genotypic diversity was found for both Strep. agalactiae (45 subtypes out of 89 isolates) and Strep. uberis (56 subtypes out of 88 isolates). For evaluation of antimicrobial susceptibility, subtypes of Strep. agalactiae were clustered into three groups (Ia, Ib and II), while Strep. uberis subtypes were clustered into two groups (I and II) according to their genetic similarity. Overall, Strep. agalactiae isolates showed high susceptibility to most antimicrobials, except to tetracycline and erythromycin. Differences in the antimicrobial susceptibility among clusters of Strep. agalactiae were observed for ampicillin, ceftiofur, erythromycin, pirlimycin, sulphadimethoxine and tetracycline. In contrary, Strep. uberis isolates were categorized as resistant to most antimicrobials, except to cephalothin and penicillin+novobiocin. No differences were observed among clusters for all antimicrobials in the analysis of Strep. uberis. In conclusion, the results of this thesis indicated a high IRCM in the evaluated herds, and although environmental pathogens were the most common cause of CM in these herds, contagious pathogens such as Strep. agalactiae and Staph. aureus, are still a concern in some dairy herds of Brazil. Furthermore, high frequencies of AMU and off-label protocols were observed among the evaluated herds. The non-judicious use of antimicrobials can become a risk factor for the development of antimicrobial resistance, which was even observed for isolates belonging to the three most prevalent bacterial species identified from CM cases in our study (E. coli, Strep. agalactiae and Strep. uberis). Finally, because there were some herd-level descriptors associated with the IRCM and AMU in our study, there may be opportunity for management strategies aiming to improve the control of CM in dairy herds of southeastern Brazil. / Os objetivos gerais desta tese foram: (i) determinar o perfil etiológico e molecular da mastite clínica (MC) em 20 rebanhos leiteiros do Sudeste do Brasil; e, (ii) quantificar os antimicrobianos usados para tratamento da MC na população estudada. Para alcançar esses objetivos, quatro estudos foram realizados. No Estudo 1, foi caracterizada a frequência de patógenos causadores de MC e a gravidade das infecções nos rebanhos leiteiros. Além disso, foi determinada a taxa de incidência de mastite clínica (TIMC) e sua associação com as seguintes variáveis em nível de rebanho: contagem de células somáticas em leite de tanque (CCSLT), contagem bacteriana total em leite de tanque (CBTLT), tamanho (número de vacas em lactação), produção de leite, sistema de alojamento e estação do ano. A associação entre as variáveis em nível de rebanho e a TIMC foi determinada por dois grupos de modelos de regressão logística multivariada: um baseado na TIMC geral, e cinco baseados nos seguintes grupos específicos de patógenos: contagiosos, outros Gram-positivos, Gram-negativos, outros patógenos (composto de leveduras e Prototheca spp.), e cultura negativa. Um total de 5.957 casos de MC em nível de quarto mamário foi registrado e os patógenos mais prevalentes foram Escherichia coli (6,6% de todas as culturas), Streptococcus uberis (6,1%), e Streptococcus agalactiae (5,9%). A maioria dos casos de MC foi de gravidade leve (60,3%), enquanto 34,1% dos casos foram moderados e 5,6% foram graves. A TIMC geral foi de 9,7 casos por 10.000 quartos-dia em risco (QDR), e o único parâmetro em nível de rebanho associado com a TIMC geral foi a CCSLT, em que a TIMC mais alta foi observada em rebanhos com CCSLT >600.000 × 103 células/mL. Nos modelos que avaliaram os grupos específicos de patógenos, a TIMC de patógenos contagiosos foi associada com a CCSLT, produção de leite e sistema de alojamento. Na avaliação de outros patógenos Gram-positivos, a TIMC foi maior na estação chuvosa de 2015 em comparação com as outras categorias referentes à estação do ano. Adicionalmente, para o modelo avaliando o grupo de patógenos Gram-negativos, a TIMC foi mais alta em rebanhos com CBTLT >30.000 × 103 ufc/mL. O Estudo 2 teve como objetivo caracterizar o perfil de tratamento e o consumo de antimicrobianos em rebanhos leiteiros; e determinar a associação de uso de antimicrobianos (UAM) e as mesmas variáveis em nível de rebanho descritas no Estudo 1. Dados sobre as práticas terapêuticas e UAM foram obtidos de 19 rebanhos leiteiros durante um período de 12 meses por rebanho. A frequência de UAM para tratamento da MC foi quantificada mensalmente em unidades de doses definidas diárias (DDD) e expressa como incidência de tratamento antimicrobiano (ITA: número de DDD por 1.000 vacas em lactação-dia). A média de ITA mensal foi de 17,7 DDD por 1.000 vacas em lactação-dia (15,4 para compostos intramamários, e 2,2 para compostos sistêmicos). Entre os produtos intramamários, os aminoglicosídeos tiveram a ITA mais alta (11,7 DDD por 1.000 vacas em lactação-dia), enquanto que para os compostos administrados pela via sistêmica, as fluoroquinolonas (4,2 DDD por 1.000 vacas em lactação-dia) foram os antimicrobianos mais frequentemente usados. O tamanho do rebanho e CCSLT foram positivamente associados com a ITA. Além disso, a ITA foi mais alta em rebanhos com freestall do que em rebanhos com sistema tipo compost barn. No Estudo 3, determinou-se a filogenia de cepas de E. coli isoladas de casos de MC em vacas leiteiras, e a associação dos filogrupos mais frequentes com a susceptibilidade aos antimicrobianos. Um total de 100 isolados de E. coli identificados nos casos de MC descritos no Estudo 1 foram categorizados de acordo com os grupos filogenéticos por meio de um método de PCR quadruplex; o perfil de susceptibilidade aos antimicrobianos também foi avaliado. A maioria dos isolados pertenceram ao grupo A (52%), seguido dos grupos B1 (38%), B2 (2%), C (4%), D (3%), e E (1%). Foram encontrados isolados resistentes para todos os antimicrobianos avaliados. De forma geral, mais de 96% dos isolados de E. coli foram resistentes a ampicilina, e mais de 23% foram resistentes a cefalotina, sulfadimetoxina ou tetraciclina. Altos níveis de resistência (>70%) foram encontrados também para eritromicina, oxacilina, penicilina e penicilina associada a novobiocina. Ao contrário, foi observado alta susceptibilidade ao ceftiofur (96.8%) entre os isolados de E. coli. Diferenças na susceptibilidade entre os grupos filogenéticos foi observada apenas para a cefalotina, em que os isolados de E. coli pertencentes ao filogrupo A foram inibidos em concentrações de antimicrobianas mais baixas que isolados pertencentes ao filogrupo B1. No Estudo 4, avaliou-se a diversidade genotípica entre isolados de Strep. agalactiae e Strep. uberis identificados em casos de MC em vacas leiteiras; adicionalmente, o estudo avaliou a associação dos genótipos agrupados de acordo com a similaridade genética com o perfil de susceptibilidade aos antimicrobianos. Os isolados foram genotipados por meio do método de amplificação randômica de DNA polimórfico (RAPD). Grande diversidade genotípica foi observada tanto para o Strep. agalactiae (45 subtipos de 89 isolados) quanto para Strep. uberis (56 subtipos de 89 isolados). Para a avaliação de susceptibilidade aos antimicrobianos, os subtipos de Strep. agalactiae foram agrupados em três clusters (Ia, Ib e II), enquanto que os subtipos de Strep. uberis foram agrupados em dois clusters (I e II) de acordo com a similaridade genética. De forma geral, os isolados de Strep. agalactiae apresentaram alta susceptibilidade à maioria dos antimicrobianos, exceto para tetraciclina e eritromicina. Diferenças na susceptibilidade aos antimicrobianos entre os clusters de Strep. agalactiae foram observadas para ampicilina, ceftiofur, eritromicina, pirlimicina, sulfadimetoxina e tetraciclina. Por outro lado, os isolados de Strep. uberis foram resistentes à maioria dos antimicrobianos, exceto para cefalotina e penicilina + novobiocina. Não foram encontradas diferenças entre os clusters para todos os antimicrobianos na análise de Strep. uberis. Em conclusão, os resultados desta tese indicaram alta TIMC nos rebanhos avaliados, e apesar de os patógenos ambientais serem a causa mais comum de MC nestes rebanhos, patógenos contagiosos como Strep. agalactiae e Staph. aureus, ainda são uma preocupação em alguns rebanhos do Brasil. Além disso, observaram-se altas frequências de UAM e de terapias não recomendadas em bula entre os rebanhos avaliados. O uso não judicioso de antimicrobianos pode se tornar um fator de risco para o desenvolvimento da resistência bacteriana aos antimicrobianos, o que foi inclusive observado para isolados pertencentes as três espécies bacterianas mais prevalentes nos casos de MC no nosso estudo (E. coli, Strep. agalactiae e Strep. uberis). Finalmente, pelo fato de algumas variáveis em nível de rebanho terem sido associadas com a TIMC e com o UAM em nosso estudo, é possível que hajam oportunidades para implementação de estratégias de manejo com o objetivo de melhorar o controle da MC em rebanhos leiteiros do sudeste do Brasil.

Diversidade genotípica

Epidemiologia molecular

Susceptibilidade aos antimicrobianos

Taxa de incidência de mastite clínica

Uso de antimicrobianos

Antimicrobial susceptibility

Antimicrobial use

Genotypic diversity

Incidence rate of clinical mastitis

Molecular epidemiology

Contribution à la maîtrise de la septicémie sur cathéter à Staphylococcus epidermidis

Cherifi, Soraya

28 November 2014

La septicémie associée à un cathéter de voie centrale (central line-associated bloodstream infection, CLABSI) est la cause la plus fréquente d’infection nosocomiale aux soins intensifs et entraine une morbidité significative, un allongement des durées d’hospitalisation et un accroissement des coûts. La maîtrise des CLABSI est une préoccupation permanente dans les institutions hospitalières. <p>Les staphylocoques à coagulase négative (SCN), et en particulier Staphylococcus epidermidis, colonisants de la peau, sont parmi les agents pathogènes opportunistes les plus fréquemment impliqués dans les infections de matériel étranger comme les cathéters, grâce à leur capacité à produire un biofilm. <p>Dans un travail préliminaire sur la prise en charge des septicémies sur cathéters à chambres implantables, nous avons observé qu’un tiers des septicémies dues à des SCN se solde par le retrait du cathéter et que la sévérité des présentations cliniques est très variable. Nous avons suspecté que des facteurs liés à S. epidermidis lui même pouvaient jouer un rôle dans la sévérité de la présentation clinique et le succès ou l’échec thérapeutique. <p><p>Objectifs :<p>Ce travail de thèse a pour but d’approfondir les connaissances nécessaires à la maîtrise de la septicémie sur cathéter à S. epidermidis. Il a été développé sur deux axes principaux :(1) une recherche sur les facteurs liés au pathogène, basée sur l’étude phénotypique et génotypique des différences entre les S. epidermidis provenant de trois sous-populations (volontaires sains - personnel soignant - patients avec CLABSI) et sur la compréhension de la source à l’origine de la contamination (peau du patient versus personnel soignant); (2) une approche clinique opérationnelle sur les aspects de prévention et de surveillance des CLABSI.<p><p>Méthodes :<p>Nos travaux de recherche ont porté sur l’épidémiologie moléculaire des S. epidermidis (pulsotypie, PFGE et multi-locus sequence typing, MLST), sur leur antibio-résistance (phénotypique et génotypique), sur la détermination du type de cassette mec (SCCmec typing), sur l’identification de facteurs de virulence [ACME (arginine catabolic mobile element) et ica (intercellular adhesin)] et sur la recherche de la production de biofilm in vitro dans les sous-populations étudiées. <p>Nous avons également discuté les limites des définitions des CLABSI dans une étude comparative et avons investigué, dans une étude multicentrique, la prévention des CLABSI par un programme de monitoring externe des processus de soins de cathéters et de feedback régulier au personnel soignant concernant leurs indicateurs de performance. <p><p>Résultats :<p>Facteurs liés au pathogène :<p>Les souches de S. epidermidis colonisant le personnel soignant sont résistantes à plus <p>d’antibiotiques que celles colonisant les volontaires sains (multisensibles), mais à un moins grand nombre que celles causant des CLABSI (souvent multirésistantes), à l’exception de la résistance à la méticilline. <p>La production de biofilm est sous la dépendance de l’opéron ica mais l’expression de ces gènes est variable, soumise à une régulation complexe. La majorité des S. epidermidis ayant une production importante de biofilm in vitro sont porteurs de l’opéron ica tandis que la majorité des S. epidermidis n’en produisant pas sont ica négatif. Par contre, nous avons observé que les souches de S. epidermidis formant un biofilm in vitro avec une biomasse importante étaient présentes dans les trois sous-populations étudiées. <p>Tant les S. epidermidis commensaux que ceux responsables d’infection présentent une grande diversité génétique par PFGE mais ils se révèlent, après analyse MLST, comme appartenant pour la plupart au même complexe clonal (CC).<p>Nous avons également montré que dans un tiers des cas, les souches de S. epidermidis récoltées sur les mains des soignants dans le même hôpital et au cours de la même période de temps, sont identiques à celles responsables de CLABSI, ce qui soutient l’hypothèse que les soignants peuvent servir de réservoir.<p>Cependant, les présentations cliniques les plus sévères de CLABSI sont dues à des souches de S. epidermidis appartenant à certains MLST séquences types (STs) particuliers :ST2 et SLV (single locus variant) ST54, toutes ica positives, mecA positives et multi-résistantes. Aucune souche présentant ces MLST types n’a été retrouvée sur les mains des soignants, ni chez les volontaires sains. <p><p>Surveillance et prévention :<p>Nous avons démontré que l’intensité de la documentation microbiologique et l’usage de définitions incluant des critères cliniques font varier les densités d’incidence de CLABSI mesurés et donc limitent l’intérêt des comparaisons inter-hospitalières. <p>Nous avons également démontré l’efficacité d’un programme original de prévention de type audit externe des compliances aux processus de soins des cathéters associé à un feedback régulier. En effet, nous avons observé une diminution statistiquement significative de l’incidence des CLABSI dans les unités de soins intensifs mais nous avons également identifié les limites de cette approche.<p><p>Conclusion :<p>La septicémie sur cathéter due à S. epidermidis peut être contrôlée par un programme de prévention en diminuant les risques de contamination tant endo- qu’extra-luminale. Cependant, certains clones de S. epidermidis (ST2 et ST54) particulièrement adaptés à l’environnement hospitalier, combinant virulence et multi-résistance, sont responsables de présentations cliniques sévères de CLABSI. De nouvelles approches basées sur les caractéristiques des souches pathogènes de S. epidermidis et sur la sévérité de la présentation clinique de la CLABSI pourraient permettre le développement de stratégies de prévention et de traitement plus ciblées.<p> / Doctorat en Sciences médicales / info:eu-repo/semantics/nonPublished

Médecine pathologie humaine

Staphylococcus

Septicemia

Nosocomial infections

Molecular epidemiology

Staphylocoques

Septicémie

Infections nosocomiales

Epidémiologie moléculaire

septicémie sur cathéter

épidémiologie moléculaire

Marqueurs génétiques du complexe Mycobacterium tuberculosis: études phylogénétiques et épidémiologiques de la tuberculose

Béguec, Caroline Allix

January 2006

Doctorat en Sciences médicales / info:eu-repo/semantics/nonPublished

Médecine pathologie humaine

Mycobacterium tuberculosis

Tuberculosis -- Genetic aspects

Tuberculosis -- Prevention

Tuberculosis -- Epidemiology

Molecular epidemiology

Mycobacterium tuberculosis

Tuberculose -- Aspect génétique

Tuberculose -- Prévention

Tuberculose -- Epidémiologie

Epidémiologie moléculaire

Etude translationnelle sur les interactions hôte-pathogène : étiologie des infections respiratoires aigües et impact des co-infections sur la modulation de la réponse immunitaire innée. / Translational study on host-pathogens interactions : Etiology of acute respiratory infections and impact of co-infection on the innate immune response

Hoffmann, Jonathan

16 October 2015

Les infections respiratoires et plus particulièrement la pneumonie représentent la première cause de mortalité infantile dans le monde. L’essor des technologies de diagnostic moléculaire a permis de mettre en évidence une étiologie très hétérogène des infections respiratoires ainsi qu’un taux élevé de co-infection virale et bactérienne dont l’impact clinique reste difficile à évaluer. La recherche translationnelle menée au cours de ce projet de thèse avait pour objectif de décrire l’étiologie des infections respiratoires ainsi que l’impact des co-infections sur la modulation de la réponse immunitaire innée. Nous avons développé un modèle d’étude in-vitro d’infection successive de cellules présentatrice d’antigènes (CPA) humaines par le virus Influenza (IAV) et Streptococcus pneumoniae (SP) et étudié la modulation de la réponse inflammatoire. Les résultats obtenus démontrent que la co-infection des CPA par ces deux pathogènes majeurs de la pneumonie impacte fortement sur leur viabilité et induit une dérégulation importante de la réponse inflammatoire. Au cours de la co-infection, la chémokine pro-inflammatoire IP-10 est exprimée de manière synergique suggérant un rôle jusqu’à présent non décrit de cette chémokine dans la pathogénèse de la pneumonie. Nous avons également démontré que les micro-ARNs (dont le miR-200a-3p) participent activement à la régulation de la réponse inflammatoire, en ciblant des régulateurs de la voie de signalisation JAK-STAT (SOCS-6) et indirectement la voie de synthèse d’IP-10. Récemment, nous avons évalué la réponse inflammatoire d’enfants âgés de moins de 5 ans hospitalisés pour une pneumonie, en partenariat avec les équipes médicales et scientifiques du Paraguay via le réseau GABRIEL. Ce volet d’étude confirme 1) une étiologie variée de la pneumonie chez l’enfant et 2) un taux d’IP-10 sérique significativement plus élevé chez les enfants co-infectés et présentant une pneumonie très sévère. / Respiratory infections, especially pneumonia are the leading cause of death among children under 5 years-old worldwide. Advances in molecular diagnostic have highlighted heterogeneous etiologies of respiratory infections with a high proportion of viral and bacterial co-infections whose clinical impact remain difficult to assess. The translational research conducted during this thesis aimed to describe the etiology of respiratory infections and the impact of viral and bacterial co-infections on the innate immunity.We have developed an in-vitro study model of sequential infection of antigen presenting cells (APC) by the human influenza virus and Streptococcus pneumoniae and studied the modulation of the inflammatory response. The results show that APC co-infection by those two major pathogens of pneumonia strongly impacts cells viability and induces a significant deregulation of the inflammatory response. During co-infection, pro-inflammatory chemokine IP-10 is synergistically expressed suggesting a role so far undescribed for this chemokine in the pathogenesis of pneumonia. We also demonstrated that micro-RNAs (including miR-200a-3p) actively participate in the regulation of the inflammatory response by targeting the signaling pathway regulators JAK-STAT (SOCS-6) and indirectly IP-10 signalling pathway.Recently, we evaluated the inflammatory response of children aged under 5 hospitalized for pneumonia, in partnership with medical and scientific teams of Paraguay involved in the GABRIEL network. This study confirmed 1) a varied etiology of childhood pneumonia and 2) a significant elevated IP-10 serum level among children with very severe pneumonia caused by mixed viral and bacterial co-infections.

Pneumonie

Immunité innée

Chémokines

Épidémiologie moléculaire

Pneumonia

Viral and bacterial co-infection

Innate immunity

Chemokines

Molecular epidemiology

Epidémiologie, circulation, colonisation du parasite entérique unicellulaire Blastocystis sp. / Epidemiology, circulation and colonization of the unicellular enteric parasite Blastocystis sp.

Cian, Amandine

08 December 2016

Les protozooses digestives restent une des premières causes de morbidité, de malnutrition et de mortalité dans le monde. Cependant, la biologie de certains protozoaires entériques comme Blastocystis est mal connue et il reste négligé par les autorités sanitaires. Ce parasite colonise le tractus intestinal de l’Homme et de nombreux animaux. Son principal mode de transmission est la voie oro-fécale et sa prévalence peut dépasser 50% dans les pays en développement. Il présente une large diversité génétique avec 17 sous-types (STs) identifiés à ce jour. Un large faisceau de données récentes suggère que l’infection à Blastocystis est associée à une variété de troubles gastro-intestinaux et de l’urticaire.Dans le cadre de ma thèse, des études épidémiologiques ont été menées dans différents pays (Liban, Sénégal, France) afin de déterminer la prévalence de ce parasite dans la population humaine et identifier des facteurs de risque d’infection. En parallèle, à travers une enquête dans des zoos français, des réservoirs animaux de transmission zoonotique du parasite ont été proposés. D’autre part, les mécanismes impliqués dans la colonisation de l’hôte par Blastocystis ont été étudiés.Dans le cadre des enquêtes épidémiologiques, le parasite a été recherché dans les selles par PCR en temps réel et l’amplicon obtenu séquencé pour le sous-typage. La première étude menée au Liban a montré une prévalence de 19% dans la population générale mais cette prévalence atteint 60% dans une population d’écoliers vivant dans la même région. Une prévalence de 100% a été obtenue dans une cohorte d’enfants sénégalais. Ces fortes prévalences s’expliquent par des conditions d’hygiènes très précaires. Le ST3 était prédominant dans ces deux pays suivi des ST1 et ST2. Dans une étude multicentrique menée en France, une prévalence globale de 18,3% a été obtenue avec une prédominance du ST3 suivi des ST1, ST4 et ST2. Cette distribution est aussi celle observée dans une majorité de pays européens. Dans l’étude française, des variables (voyage récent, âge, saison) ont été identifiés comme des facteurs de risque de transmission du parasite. Le contact avec des animaux peut représenter un autre facteur de risque du fait du potentiel zoonotique du parasite. Dans une large étude épidémiologique réalisée dans deux zoos français sur plus de 160 espèces animales, la prévalence globale de Blastocystis dépasse 30% avec des variations importantes selon les groupes d’animaux. En comparant la distribution des STs entre l’Homme et les différents groupes d’animaux, les primates, les artiodactyles (bovins et cochons) et les oiseaux représenteraient les principaux réservoirs potentiels d’infection pour l’Homme.Une association entre l’infection à Blastocystis et l’appendicite a été mise en évidence chez une enfant au Maroc confirmant la pathogénie et le potentiel invasif et inflammatoire du parasite. De plus, 26 autres membres de sa famille ont présenté des symptômes digestifs suggérant une épidémie de blastocystose d’origine hydrique. L’hypothèse d’une relation entre ST de Blastocystis et pouvoir pathogène a été émise d’où l’intérêt d’une étude de génomique comparative afin d’identifier des facteurs de virulence pouvant être spécifiques d’un ST. A ce jour, aucune différence n’a pu être mise en évidence entre le génome de ST4 séquencé durant ma thèse et celui de ST7 disponible dans les bases de données alors qu’ils présentent une virulence différente in vitro. Enfin, l’impact de la colonisation par Blastocystis sur la composition du microbiote intestinal humain a été évalué. Une approche par séquençage à haut-débit a permis de comparer les compositions des microbiotes de patients infectés ou non par Blastocystis montrant une diversité bactérienne plus élevée chez les patients colonisés par le parasite. Ces données suggèrent que la colonisation par Blastocystis ne serait pas associée à une dysbiose intestinale généralement observée dans les maladies infectieuses intestinales. / Digestive protozoan infections are a major cause of morbidity, malnutrition and mortality worldwide. However, the biology of some enteric protozoa as Blastocystis is not well known and these microorganisms remain still neglected by the health authorities. Briefly, this parasite colonizes the intestinal tract of humans and various animals. Its main mode of transmission is the fecal-oral route and its prevalence can exceed 50% in developing countries. It exhibits a large genetic diversity with 17 subtypes (STs) identified to date. Recent data suggest that infection with Blastocystis is associated with a variety of gastrointestinal disorders and urticaria. As part of my thesis, epidemiological studies have been conducted in different countries (Lebanon, Senegal, France) to determine the prevalence of this parasite in the human population and identify risk factors for infection. In parallel, through a survey in French zoos, animal reservoirs of zoonotic transmission of Blastocystis have been proposed. Moreover, mechanisms involved in the colonization of the host by the parasite were studied.As part of, epidemiological, the parasite was identified in faecal samples by real-time PCR and the resulting amplicon was sequenced for subtyping. The first study conducted in Lebanon in the Tripoli area showed a prevalence of 19% in the general population but this prevalence reached 60% in a population of school children living in the same region. A prevalence of 100% was obtained in a cohort of Senegalese children. The high prevalence observed in these countries can be explained by poor hygiene conditions in connection with the faecal peril. In terms of distribution of STs, the ST3 was predominant in both countries followed by ST1 and ST2. In a multicenter study conducted in France, an overall prevalence of 18.3% was obtained with a predominance of ST3, followed by ST1, ST2 and ST4. This distribution is quite similar to that observed in most European countries. In the French study, parasite prevalence was significantly higher in summer than in winter. Other variables such as a recent trip and age have been identified as risk factors for transmission of the parasite. The contact with animals may represent another risk factor because of the zoonotic potential of the parasite. In a large epidemiological study conducted in two French zoos and including over 160 animal species, the overall prevalence of Blastocystis exceeds 30% with significant variations between animal groups. By comparing the distribution of STs between humans and different groups of animals, primates, artiodactyls (cattle and pigs) and birds represent major potential reservoirs of infection for humans.An association between infection with Blastocystis and appendicitis was demonstrated in a child in Morocco confirming the pathogenicity and invasive and inflammatory potential of the parasite. In addition, 26 other family members presented digestive symptoms suggesting waterborne outbreak of blastocystosis. The hypothesis of a relationship between Blastocystis ST and pathogenicity was suggested hence the interest of a comparative genomics study to identify virulence factors that may be present or absent for some STs. No difference was found between the ST4 genome sequenced during my thesis and the ST7 genome available in the database while these STs have different virulence in vitro. Finally, the unknown impact of colonization by Blastocystis on the composition of the human intestinal microbiota was evaluated. The compositions of the bacterial microbiota of 96 patients infected or not by Blastocystis were obtained by high-throughput sequencing and compared. A higher bacterial diversity was found in colonized patients compared to non-infected patients. These data suggest that colonization by Blastocystis would not be associated with dysbiosis generally observed in intestinal infectious diseases but rather to a healthy intestinal microbiota.

Blastocystis

Blastocystose

Diversité génétique

Épidémiologie moléculaire

Pathogénicité

Protozoose digestive

Transmission

Zoonose

Blastocystis sp.

Intestinal parasite

Molecular epidemiology

PCR

Subtyping

Risk factors for infection

Pathogenicity

Dynamique évolutive de Ralstonia solanacearum en réponse aux pressions de sélection de l'aubergine résistante : approche populationnelle, de génétique évolutive et fonctionnelle de la durabilité de la résistance / Evolutionnary dynamics of Ralstonia solanacearum in response to selective pressure : population, functional and evolutionnary genetic aproches of plant resistance durability

Guinard, Jérémy

14 December 2015

Ralstonia solanacearum, une béta-proteobactérie d'origine tellurique, est l'une des phytobactérioses les plus nuisibles au niveau mondial. Cette bactérie est capable d'infecter plus de 250 espèces différentes dont certaines présentent un intérêt économique majeur (tomate, pomme de terre, tabac). R. solanacearum est divisée en 4 phylotypes distincts présentant des origines géographiques différentes : I (asiatique), IIA et IIB (américain), III (africain), IV (indonésien). Parmi ces phylotypes, le phylotype I est en expansion démographique, hautement recombinogène, réparti mondialement et possède une large gamme d'hôtes. Il possède donc un fort potentiel évolutif (sensu McDonald et Linde, 2002). Afin de contrôler cette bactérie, la lutte génétique reste la méthode la plus prometteuse : elle consiste à déployer des cultivars possédant différents sources de résistance (i.e., des gènes de résistance). La variété d'aubergine AG91-25 (E6) possède un gène majeur de résistance (ERs1) lui permettant de contrôler certaines souches de R. solanacearum de phylotype I. Cependant, la gestion de cette résistance requiert d'étudier au préalable sa durabilité afin d'en éviter le contournement. Cette durabilité peut être estimée en étudiant le potentiel évolutif d'un agent pathogène face à cette source de résistance, ainsi qu'en décryptant les mécanismes moléculaires de l'interaction entre l'hôte (gène R) et le pathogène (effecteur de types trois). Afin d'étudier la dynamique évolutive de R. solanacearum sous une pression de sélection exercée par la variété résistante E6, nous avons mis en place un essai d'évolution expérimentale au champ. Cet essai est composé de trois couples de microparcelles d'aubergines résistantes E6 et d'aubergines sensibles E8, implantées deux fois par an, pendant trois ans (soit 5 cycles). Un schéma MLVA (« Multi-Locus VNTR Analysis ») composé de 8 loci minisatellites a été développé afin de caractériser les souches extraites de ces cycles de cultures. Ces VNTR sont spécifiques aux souches de R. solanacearum de phylotype I, hautement polymorphes et discriminants à toutes les échelles : mondiale, régionale et locale. Nos résultats démontrent une absence de contournement de la résistance d'E6 par les populations parcellaires de R. solanacearum, confirmant le caractère durable de cette résistance. Cette variété aurait fortement réduit les populations bactériennes du sol, ne leur permettant plus d'infecter l'hôte résistant. Parallèlement, 100% des plants d'E8 sont morts à partir du cycle 2. La maladie au sein des microparcelles semble progresser selon une dynamique de « plante-à-plante ». Une baisse de la diversité génétique a aussi été observée au cours des cycles de culture répétés d'E8, associée à l'augmentation en fréquence de deux haplotypes. Cependant, aucune structuration génétique claire n'a été observée à l'échelle de la parcelle entière ou de la microparcelle. En revanche, les données d'isolement par la distance semblent indiquer qu'une structure spatiale semble être en cours d'établissement. L'ensemble de nos résultats suggère une structure épidémique clonale de nos populations parcellaires. Nous nous sommes aussi intéressés à l'implication de 10 ET3 dans l'interaction R. solanacearum vs aubergine résistante (E6). La distribution des 10 ET3 candidats est variable au sein d'une collection de souches phylogénétiquement diverses (91 souches) : ripAJ et ripE1 sont les ET3 les plus partagés alors que ripP1 et ripP2 sont les moins fréquemment. Certains ET3 présentent peu (ripAJ) voire pas (ripE1 et ripP2) de polymorphisme de taille, alors que d'autres (ripAU) sont extrêmement polymorphes. Cependant la composition en effecteurs d'une souche ne semble pas être corrélée à un phénotype sur aubergine E6. Nous avons identifié le gène d'effecteur ripAX2 comme ayant une fonction d'avirulence sur aubergine résistante E6. Sa reconnaissance par E6 semble s'opérer au niveau de la zone hypocotylaire. / Ralstonia Solanacearum is a soilborn beta-proteobacterium responsible of bacterial wilt on Solanaceaous crops. This bacterium is considered as one of the most harmful plant disease worldwide. This bacterium possesses the ability to infect more than 250 different species, including crops with major economic importance (tomato, potato, tobacco, eucalyptus…). R. solanacearum is divided into four phylotypes originated from different areas: I (Asian), IIA and IIB (American), III (African), IV (Indonesian). Among these phylotype, phylotype I is currently in demographic expansion, is highly recombinogenic and has a wide hosts range. Thus, altogether, these characteristics demonstrated that this phylotype has a high evolutionary potential (sensu McDonald and Linde, 2002). In order to control this bacterium, genetic plant resistance seems to be the most promising method. This method consists in using cultivars with different source of resistance such as resistance genes and/or resistant QTLs. The AG91-25 (E6), an eggplant cultivar possessing a major resistance gene (ERs1), is capable to control some of phylotype I strains of R. solanacearum. However, in order to optimize the management of this resistance and to avoid its fast breakdown, we need to deeply investigate the durability of this resistant gene. Durability can be estimated by studying the evolutionary potential of our pathogen faced to E6 source of resistance and by understanding the molecular mechanisms underlying the interaction between the host (R gene) and its pathogene (Type III Effector – T3E). In order to study R. solanacearum evolutionary dynamics under selective pressure from E6 resistant cultivar, we set up an experimental evolution trial in the field. This trial consisted of three couples of resistant (E6) and susceptible eggplants (E8) microplots, implanted twice a year during three years, hence consisting of 5 cycles. A Multi-Locus VNTR Analysis (MLVA) scheme, consisting of 8 minisatellite loci, was developed in order to characterize the strains extracted from these crop cycles. These VNTRs were specific to R. solanacearum phylotype I strains, they were highly polymorphic and discriminatory at different scale: globally, regionally and locally.Our results showed no breakdown of E6 resistance by R. solanacearum populations, which confirms that this resistance is durable. It seemed that this cultivar reduced the soil bacterial population, preventing bacterial population to infest the resistant host. At the same time, 100% of the E8 plants have died, starting at cycle 2. Bacterial wilt seemed to spread with a “plant-to-plant” dynamics within each microplot. Genetic diversity reduction was also observed during the successive cycle of susceptible eggplant, associated with the increase of frequency of two main haplotypes. However, we failed to identify a clear genetic structuration, neither at the plot scale nor at the microplot scale. Nevertheless, isolation-by-distance data seemed to show that a spatial structure is currently establishing. Altogether, our results suggested that our plot populations appeared to have a clonal epidemic structure.We also looked into 10 T3Es' involvement in the interaction between R. solanacearum and the resistant eggplant (E6). Their distribution was completely different within a collection of phylogenetically diverse strains (91 strains): ripAJ and ripE1 are the most shared T3Es whereas ripP1 and ripP2 were the less common T3E whithin our collection of strains. Some T3Es showed few (ripAJ) or no length polymorphism at all (ripE1 and ripP2) whereas some other (ripAU) are extremely polymorphic. Nevertheless, the T3E effector repertoire did not seemed to be correlated to a specific phenotype on E6 eggplant. Its recognition by E6 seemed to occur in the hypocotyle region rather than in the mesophyll, highlighting a possible organ-specificity of the interaction between ERs1 and ripAX2.

Ralstonia solanacearum

Flétrissement bactérien

Épidémiologie moléculaire

Structure génétique

Effecteur de type III

Répertoire de gènes

Mlva

Ralstonia solanacearum

Bacterial wilt

Molecular epidemiology

Genetic structure

Type III effector

Gene repertoire

Mlva

Prévalence et diversité génétique des virus respiratoires au Cameroun / Prevalence and genetic diversity of respiratory viruses in Cameroon

Kenmoe, Sebastien

13 December 2017

Contexte : Les infections respiratoires aiguës (ARI) sont reconnues comme une cause importante de morbidité, de mortalité et d'hospitalisation chez les enfants dans les pays en développement. Le virus respiratoire syncytial humain (HRSV) est l’agent étiologique principal de maladie sévère des voies respiratoires basses chez les nourrissons, les jeunes enfants et les personnes âgées. Identifié en 2001, le Metapneumovirus humain (HMPV) est un nouveau paramyxovirus. Les études ont montré la cocirculation des sous groupes de ces deux virus avec la domination de l’un des sous groupes selon les zones géographiques et selon les années. Les données restent cependant limitées dans les pays de l’Afrique subsaharienne, sur la prévalence, la saisonnalité et la caractérisation génétique de ces deux virus respiratoires. Au Cameroun, ces deux virus ont été décrits seulement une seule fois (5,7 et 5% pour HRSV et HMPV respectivement) chez des patients présentant des syndromes grippaux en 2012. Objectif : Cette étude rapporte la prévalence, la saisonnalité et la variabilité génétique des souches HRSV et HMPV chez des enfants camerounais pendant 3 saisons épidémiques consécutives (de Septembre 2011 à Octobre 2014). Par ailleurs, la diversité génétique d’autres virus respiratoires détectés au cours de ce travail est présentée comme objectif secondaire.Méthodes : Une surveillance prospective a été menée pour identifier les enfants hospitalisés et ambulatoires âgés de moins de 15 ans présentant des symptômes respiratoires ≤ 5 jours. Les échantillons nasopharyngés ont été testés pour 17 virus respiratoires en utilisant une réaction multiplex de polymérisation en chaîne. La distribution virale et les données démographiques ont été analysées statistiquement. Les échantillons positifs du HRSV et HMPV ont été amplifiés par polymérisation en chaine semi nichée puis séquencés partiellement au niveau du gène G. Des analyses phylogénétiques ont été effectuées sur les séquences nucléotidiques et protéiques partielles du gène G.Résultats : De septembre 2011 à octobre 2014, 822 enfants âgés de moins de 15 ans ont été inscrits dans l’étude. Au moins un virus a été identifié chez chacun des 72,6% (597/822) d'enfants, dont 31,7% (189/597) étaient des codétections; 28,5% (226/822) étaient positifs pour l'adénovirus humain, 21,4% (176/822) pour le virus Influenza, 15,5% (127.822) pour le rhinovirus/entérovirus, 9,4% (77/822) pour le bocavirus, 9% (74/822) pour le HRSV, 8,2% (67/822) pour les coronavirus humain, 6,2% (50/822) pour le parainfluenzavirus humain et 3,9% (32/822) pour le HMPV. L’infection HRSV était plus fréquente chez les enfants de moins de 2 ans (70,3% ; 52/74) et chez les participants hospitalisés (70,3% ; 52/74). Alors que le HRSV a montré un profil saisonnier avec une circulation de septembre à décembre, des cas sporadiques de HMPV ont été détectés tout au long de l'année. HRSV-A (19,1%, 9/47) et HRSV-B (17% ; 8/47) ont été observés relativement à la même fréquence avec (63,8% ; 30/47) de cas en codétection HRSV-A/HRSV-B alors que HMPV-A (71,4% ; 10/14) était majoritaire comparé à HMPV-B (28,6 ; 4/14). L'analyse phylogénétique a révélé que les souches HRSV de l’étude sont groupées au sein du sous groupe NA-1 (pour HRSV-A) et BA-9 (pour HRSV-B). Les souches HMPV camerounaises sont groupés parmi les membres du génotype A2b (pour HMPV-A), B1 et B2 (pour HMPV-B).Conclusion : Cette étude suggère qu’environ 70% des ARI enregistrés chez des enfants au Cameroun sont causés par des virus. La présente étude est également le premier rapport sur la variabilité génétique du gène G des souches de HRSV et HMPV dans la région. Bien que ce travail comble partiellement certaines lacunes d’informations, des études supplémentaires sont requises pour une clarification de l’épidémiologie moléculaire et du mode d’évolution des virus respiratoires présents en Afrique subsaharienne en général et plus singulièrement au Cameroun. / Background: Acute respiratory infections (ARI) are recognized as an important cause of morbidity, mortality and hospitalization among children in developing countries. Human respiratory syncytial virus (HRSV) is the main cause of severe lower respiratory tract disease in infants, young children and the elderly. Identified in 2001, Human Metapneumovirus (HMPV) is a new paramyxovirus. Studies have shown the co-circulation of the subgroups of these two viruses with domination of one of the sub-groups according to the geographical zones and according of years. These two viruses encode two major surface glycoproteins, the highly conserved fusion F protein and the highly variable attachment G protein. Data are still limited in sub-Saharan African countries on prevalence, seasonality and genetic characterization of these two respiratory viruses. In Cameroon, these two viruses have been described only once (5.7 and 5% for HRSV and HMPV respectively) in patients with influenza-like illness in 2012.Objective: This study reports the prevalence, seasonality and the genetic variability of HRSV and HMPV strains in Cameroonian children for 3 consecutive epidemic seasons (September 2011-October 2014). Moreover, the genetic diversity of other respiratory viruses detected during this work is presented as a secondary objective.Methods: A prospective surveillance was conducted to identify inpatient and outpatient children less than 15 years with respiratory symptoms ≤ 5 days. The nasopharyngeal samples were tested for 17 respiratory viruses using a multiplex polymerase chain reaction. Viral distribution and demographic data were analyzed statistically. Positive samples for HRSV and HMPV were amplified by semi-nested polymerize chain reaction and then partially sequenced at the G gene. Phylogenetic analyzes were performed on the partial nucleotide and protein sequences of the G gene.Results: From September 2011 to October 2014, 822 children under 15 years were enrolled in the study. At least one virus was identified in each of 72.6% (577/822) of children, 31.7% (189/597) of whom were co-detections; 28.5% (226/822) were positive for human adenovirus, 21.4% (176/822) for influenza virus, 15.5% (127.822) for rhinovirus/enterovirus, 9.4% (77/822) for bocavirus, 9% (74/822) for HRSV, 8.2% (67/822) for human coronavirus, 6.2% (50/822) for human parainfluenzavirus, and 3.9% (32/822) for HMPV. HRSV infection was more frequent in children under 2 years (70.3%, 52/74) and hospitalized participants (70.3%, 52/74). While HRSV showed a seasonal pattern with circulation from September to December, sporadic cases of HMPV were detected throughout the year. HRSV-A (19.1%, 9/47) and HRSV-B (17%; 8/47) were observed relatively at the same frequency with (63.8%, 30/47) codetections of HRSV-A/HRSV-B. HMPV-A (71.4%; 10/14) was predominant compared to HMPV-B (28.6; 4/14). Phylogenetic analysis revealed that the HRSV strains of the study are grouped within subgroup NA-1 (for HRSV-A) and BA-9 (for HRSV-B). Cameroonian HMPV strains are grouped among the members of genotype A2b (for HMPV-A), B1 and B2 (for HMPV-B).Conclusion: This study suggests that about 70% of ARI recorded in children in Cameroon are caused by viruses. The present study is also the first report on the genetic variability of the G gene of HRSV and HMPV strains in the region. Although this work partially fills gaps for some information, additional studies are required to clarify the molecular epidemiology and evolutionary pattern of respiratory viruses in sub-Saharan Africa in general and more particularly in Cameroon.

Infections respiratoires aiguës

Gène G

Afrique subsaharienne

Metapneumovirus

Acute respiratory infections

Respiratory viruses

Genetic variability

Molecular epidemiology

G gene

Sub-Saharan Africa

Cameroon

Metapneumovirus

Host adaptation of aquatic Streptococcus agalactiae

Delannoy, Christian M. J.

January 2013

Streptococcus agalactiae is a pathogen of multiple hosts. The bacterium, an aetiological agent of septicaemia and meningo-encephalitis in freshwater and saltwater fish species, is considered a major threat to the aquaculture industry, particularly for tilapia. Cattle and humans are however the main known reservoirs for S. agalactiae. In humans, the bacterium (commonly referred to as Group B Streptococcus or GBS) is a member of the commensal microflora of the intestinal and genito-urinary tracts, but it is also a major cause of neonatal invasive disease and an emerging pathogen in adults. In cattle, S. agalactiae is a well-recognized causative agent of mastitis. Numerous studies focusing on S. agalactiae from human and bovine origins have provided insight into the population structure of the bacterium, as well as the genome content and pathogenic mechanisms through identification of virulence determinants. Concerning S. agalactiae from aquatic origins, scientific information mainly focused on case reporting and/or experimental challenges, with a limited or absence of information in terms of pathogenesis, virulence determinants and genotypes of the strains involved. The objective of this study was to enhance our understanding of the molecular epidemiology, host-adaptation and pathogenicity of S. agalactiae in aquatic species, with particular emphasis on tilapia. Firstly, a collection of 33 piscine, amphibian and sea mammal isolates originating from several countries and continents was assembled, with the aim of exploring the population structure and potential host specificity of aquatic S. agalactiae. Isolates were characterised using pulsed-field gel electrophoresis (PFGE), multi-locus sequence typing (MLST), and a standardised 3-set genotyping system comprising molecular serotypes, surface protein gene profiles and mobile genetic element profiles. Two major subpopulations were identified in fish. The first subpopulation consisted of non-haemolytic isolates that belonged to sequence type (ST) 260 or 261, which are STs that have been reported only from teleosts. These isolates exhibited a low level of genetic diversity by PFGE and clustered with other STs that have been reported only in fish. Another common feature was the absence of all surface protein genes or mobile genetic elements targeted as part of the 3-set genotyping and that are usually found in human or bovine isolates. The second subpopulation consisted of β-haemolytic isolates recovered from fish, frogs and sea mammals, and that exhibited medium to high genetic diversity by PFGE. STs identified among these isolates have previously been identified from strains associated with asymptomatic carriage and invasive disease in humans. The human pathogenic strain ST7 serotype Ia was detected in fish from Asia. Moreover, ST283 serotype III-4 and its novel single locus variant ST491 detected in fish from Southeast Asia shared a 3-set genotype identical to that of an emerging ST283 clone associated with invasive disease of adult humans in Asia. These observations suggested that some strains of aquatic S. agalactiae may present a zoonotic or anthroponotic hazard. STs found among the seal isolates (ST23) have also been reported from humans and numerous other host species, but never from teleosts. This work provided an excellent basis for exploration of the virulence of selected strains in experimental challenges. The virulence of two strains of S. agalactiae was experimentally investigated by intra-peritoneal infection of Nile tilapia (Oreochromis niloticus), using an isolate originally recovered from fish and belonging to ST260, and an isolate originating from a grey seal and belonging to ST23. The clinical signs, the in vivo distribution of viable bacteria and bacterial antigens, and the gross and histopathological lesions that developed during the time course of the infection were investigated. The ST260 strain was highly virulent, whereas no major clinical sign or mortalities occurred in the fish challenged with the ST23 strain. After injection, both strains however gained access to the bloodstream and viable bacteria were recovered from all organs under investigation. During the early stages of infection, bacteria were mostly found within the reticulo-endothelial system of the spleen and kidney. Thereafter, the ST260 demonstrated a particular tropism for the brain and the heart, but granulomatous inflammation and associated necrotic lesions were observed in all organs. ST23 was responsible for a mixed inflammatory response associated with the presence of bacteria in the choroid rete and in the pancreatic tissue only. After 7 days post-challenge and for both strain, the formation or containment of bacteria within granulomata or other encapsulated structures appeared to be a major component of the fish response. However, the load of viable bacteria remained high within organs of fish infected with ST260, suggesting that, unlike ST23, this strain is able to survive within macrophages and/or to evade the immune system of the fish. This work demonstrates that the lack of report of ST23 strains in fish is possibly not due to a lack of exposure but to a lack of virulence in this host. The two strains, which differ in prevalence and virulence in fish, provide an excellent basis to investigate genomic differences underlying the host-association of distinct S. agalactiae subpopulations. The genome of the ST260 strain used in challenge studies was sequenced. We therefore provided the first description for the genome sequence of a non-haemolytic S. agalactiae isolated from tilapia (strain STIR-CD-17) and that belongs by multi-locus sequence typing (MLST) to clonal complex (CC) 552, which corresponds to a presumptive fish-adapted subgroup of S. agalactiae. The genome was compared to 13 S. agalactiae genomes of human (n=7), bovine (n=2), fish (n=3) and unknown (n=1) origins. Phylogenetic analysis based on the core genome identified isolates of CC552 as the most diverged of all S. agalactiae studied. Conversely, genomes from β-haemolytic isolates of CC7 recovered from fish were found to cluster with human isolates of CC7, further supporting the possibility that some strains may represent a zoonotic or anthroponotic hazard. Comparative analysis of the accessory genome enabled the identification of a cluster of genes uniquely shared between CC7 and CC552, which encode proteins that may provide enhanced fitness in specific niches. Other genes identified were specific to STIR-CD-17 or to CC552 based on genomic comparisons; however the extension of this analysis through the PCR screening of a larger population of S. agalactiae suggested that some of these genes may occasionally be present in isolates belonging to CC7. Some of these genes, occurring in clusters, exhibited typical signatures of mobile genetic elements, suggesting their acquisition through horizontal gene transfer. It is not possible to date to determine whether these genes were acquired through intraspecies transfer or through interspecies transfer from the aquatic environment. Finally, general features of STIR-CD-17 highlighted a distinctive genome characterised by an absence of well conserved insertion sequences, an abundance of pseudogenes, a smaller genomic size than normally observed among human or bovine S. agalactiae, and an apparent loss of metabolic functions considered conserved within the bacterial species, indicating that the fish-adapted subgroup of isolates (CC552) has undergone niche restriction. Finally, genes encoding recognised virulence factors in human S. agalactiae were selected and their presence and structural conservation was evaluated within the genome of STIR-CD-17.

579.3

Analysis and application of evolutionary markers in the epidemiology of Mycobacterium tuberculosis

Van der Spuy, Gian Dreyer

12 1900

Thesis (PhD (Biomedical Sciences. Molecular Biology and Human Genetics))--Stellenbosch University, 2008. / This series of studies includes both methodological analyses, aimed at furthering our understanding of, and improving the tools used in molecular epidemiology, and investigative projects which have used these tools to add to our knowledge of the M. tuberculosis epidemic. Using serial isolates from tuberculosis patients, we have investigated the evolutionary rate of the IS6110 RFLP pattern. In accordance with other studies, we determined a ½-life for this epidemiological marker of 10.69 years, confirming its appropriateness for this purpose. We also identified an initial, much higher apparent rate which we proposed was the result of pre-diagnostic evolution. In support of this, our investigations in the context of household transmission of M. tuberculosis revealed that IS6110-based evolution is closely associated with transmission of the organism, resulting in a strain population rate of change of 2.9% per annum. To accommodate evolution within estimates of transmission, we proposed that calculations incorporate the concept of Nearest Genetic Distance (cases most similar in RFLP pattern and most closely associated in time). We used this to create transmission chains which allowed for limited evolution of the IS6110 marker. As a result, in our study community, the estimated level of disease attributable to ongoing transmission was increased to between 73 and 88% depending on the Genetic Distance allowed. We identified the duration of a study as a further source of under-estimation of transmission. This results from the artefactual abridgement of transmission chains caused by the loss of cases at the temporal boundaries of a study. Using both real and simulated data, we showed that viewing a 12-year study through shorter window periods dramatically lowered estimates of transmission. This effect was negatively correlated with the size of a cluster. Various combinations of MIRU-VNTR loci have been proposed as an alternative epidemiological marker. Our investigations showed that, while this method yielded estimates of transmission similar to those of IS6110, there was discordance between the two markers in the epidemiological linking of cases as a result of their independent evolution. Attempting to compensate for this by allowing for evolution during transmission improved the performance of IS6110, but generally had a deleterious effect of that of MIRU-VNTR. However, this marker remains a valuable tool for higher phylogenetic analysis and we used it to demonstrate a correlation between sublineages of the Beijing clade and the regions in which they are found. We proposed that, either the host population had selected for a particular sublineage, or that specific sublineages had adapted to be more successful in particular human populations. We further explored the dynamics of the epidemic over a 12-year period in terms of the five predominant M. tuberculosis clades. We found that, while four of these clades remained relatively stable, the incidence of cases from the Beijing clade increased exponentially. This growth was attributed to drug-sensitive cases although drug-resistant Beijing cases also appeared to be more successful than their non-Beijing counterparts. Possible factors contributing to this clade’s success were a greater proportion of positive sputum smears and a lower rate of successful treatment.

Mycobacterium tuberculosis -- Prevention

Molecular epidemiology -- Research

Dissertations -- Medical biochemistry

Theses -- Medical biochemistry

Campylobacter dans différents environnements aquatiques : quantification et génotypage afin de mieux évaluer les risques potentiels d’infection pour l’être humain

Gosselin-Théberge, Maxime

05 1900

Campylobacter est l’agent pathogène zoonotique responsable de la majorité des gastro-entérites d’origine bactérienne chez l’homme. Les produits de volaille représentent la principale source d’infection; toutefois, l’exposition peut également découler de contacts directs avec les animaux ou avec l’eau. Une forte variation saisonnière est présente dans les cas rapportés, qui n’est toujours pas élucidée : les eaux environnementales, sources d’infection connues, sont soupçonnées. Cette étude transversale a été réalisée dans la région Sud-Est du Québec (Canada) où Campylobacter fut quantifié et génotypé à partir de différentes sources d’eau (eaux de captage, récréatives et usées) et de cas cliniques afin d’évaluer les risques potentiels posé par l’eau environnementale. Différents essais PCR en temps réel furent appliqués à l’eau environnementale et comparés: 2 ont été sélectionnés pour leur spécificité et sensibilité de quantification. Les courbes standards ont été calibrées en utilisant la PCR digitale pour déterminer précisément les concentrations. Les isolats environnementaux et cliniques furent comparés génétiquement en utilisant le CGF (« comparative genomic fingerprinting »). Les eaux usées étaient plus contaminées que les eaux de captage et récréatives (3.9Log, 1.7Log et 1.0Log cellules/L en moyenne, respectivement). Six pour cent des isolats d’eaux environnementales étaient génétiquement similaires (100 % homologie) aux isolats cliniques. Les cas cliniques de campylobactériose d’été montraient des isolats avec davantage de similarités génétiques avec les isolats retrouvés dans l’eau environnementale comparativement aux autres saisons (p<0.01). Les faibles concentrations et similarités génétiques entre les isolats d’eau et cliniques suggèrent un risque de transmission possible, mais faible. / Campylobacter is a zoonotic pathogen that is responsible for the majority of cases of bacterial gastroenteritis. Among the numerous Campylobacter transmission routes including direct contact, food and water, poultry consumption has been recognized as the major route. A strong seasonal variation in campylobacteriosis cases exists for reasons that are not well understood; environmental water is suspected to be involved. This cross-sectional study was conducted in the Southeastern region of Quebec (Canada), wherein Campylobacter from different waters (drinking water source, recreational and sewage) and clinical sources was quantified and genotyped in order to evaluate the potential risks posed by environmental water. Several real-time PCR assays were compared for specific application to environmental water: two were selected for their specificity and sensitivity of quantification. Standard curves were calibrated using digital PCR to accurately determine concentrations. Campylobacter isolates from clinical and water sources were genetically compared using CGF (comparative genomic fingerprinting). Sewage waters showed the highest Campylobacter concentrations, while drinking water source and recreational waters showed the lowest (average of 3.9Log, 1.7Log and 1.0Log cells/L, respectively). CGF revealed that 6% of water isolates were genetically similar (100% homology) to clinical isolates. Summer cases of campylobacteriosis revealed isolates showing more genetic similarities with environmental water isolates compared to other seasons (p<0.01). The low Campylobacter concentrations and genetic similarities between water and clinical isolates from the same region, suggests that these environmental waters pose a real, but low risk of transmission.

Campylobacter

Eaux environnementales

PCR en temps réel

PCR digitale

Comparaison d’empreintes génomiques

Épidémiologie moléculaire

Isolats environnementaux

Isolats cliniques

Environment waters

Real-time PCR

Digital PCR

Comparative genomic fingerprinting

Molecular epidemiology

Environmental isolates

Clinical isolates