Induction of Protection, Antibodies and Cell Mediated Immune Responses by Brucella Abortus Strain RB51, Ochrobactrum Anthropi and Recombinants Thereof

He, Yongqun

09 August 2000

Although it is known that cell-mediated immunity (CMI) plays a key role in protection against brucellosis, the exact immune mechanisms leading to protection are still not fully understood. Better understanding of the mechanisms would help in the development of a human Brucella vaccine and help in improving animal vaccines. In this research, B. abortus strain RB51 and a closely-related, nonpathogenic Ochrobactrum anthropi (strain 49237) bacterium were used to study the immune response against brucellosis in mice. Both O. anthropi strain 49237 and recombinant strain 49237 expressing Brucella protective antigen copper-zinc superoxide dismutase (Cu/Zn SOD) induced a mix of Th1 and Th2 type immune responses but failed to provide protection against virulent Brucella challenge. After changing the immune response to a predominantly Th1 type of response using CpG oligonucleotides as an adjuvant, both strains provided protection with the recombinant strain inducing significantly higher protection. It was also demonstrated that vaccination with strain RB51 induced Th1 immune responses characterized by high interferon-gamma (IFN-g) production with no interleukin-4 (IL-4) secretion as well as high IgG2a and minimal IgG1 production. A colorimetric cytotoxic T lymphocytes (CTL) assay was developed to demonstrate that strain RB51 induced an antigen-specific CTL reaction that probably plays an important role in protection. The results suggest that optimal protection against brucellosis requires IFN-g-secreting T cells and antigen-specific CTLs. Recombinant strain RB51 overexpressing Brucella Cu/Zn SOD and simultaneously expressing mycobacterial 85A antigen induced higher IFN-g production and CTL activity than the parent RB51 strain. The combined results suggest that the recombinant O. anthropi strain could be used as a human vaccine against brucellosis and that the recombinant RB51 strain could be used as an effective vaccine against both brucellosis and tuberculosis in animals. / Ph. D.

vaccine

Ochrobactrum anthropi

immune response

Brucella abortus

Adaptation et spécialisation des bactéries environnementales à l'infection humaine : étude des genres Ochrobactrum et Agrobacterium / Adaptation and specialization of environmental bacteria to human infection : study of the genus Agrobacterium and Ochrobactrum

Aujoulat, Fabien

16 January 2012

Les bactéries pathogènes opportunistes (BPO) sont responsables d'une grande part de la pathologie infectieuse bactérienne. Les BPO d'origine environnementale doivent subir des changements profonds de mode de vie pour s'adapter et coloniser l'homme. Comprendre les conditions de cette adaptation permettra de préciser la notion d'opportunisme infectieux et le rôle des BPO environnementales dans l'émergence des pathogènes.Les genres Ochrobactrum et Agrobacterium regroupent des bactéries présentant une grande variété de modes de vie et établissant différentes relations avec la cellule eucaryote. Ces bactéries connues pour vivre dans l'environnement sont par ailleurs des pathogènes opportunistes de l'homme principalement responsables d'infections chez les individus immunodéprimés. Dans le cadre de ce travail nous avons entrepris une étude populationnelle par une approche de génétique multilocus sur des collections de souches cliniques et environnementales de différentes origines géographiques. Les structures de population obtenues ont été confrontées à divers caractères phénotypiques reliés à la virulence et/ou l'adaptation chez l'homme, la température de croissance, la formation de biofilm et la virulence vis-à-vis des modèles Caenorhabditis elegans et macrophages humains.Ochrobactrum anthropi et Ochrobactrum intermedium sont les deux principales espèces d'intérêt médical du genre Ochrobactrum. La population d'O. anthropi est de type épidémique qui s'organise en deux complexes clonaux (CCs). Si le CC1 regroupe à la fois des souches de diverses origines, le CC4 ne contient que des souches cliniques. Cette sous-population apparait associée à l'homme même si les caractères phénotypiques étudiés ne révèlent pas de différences entre ces deux sous populations. De la même façon, ces deux CCs ne se distinguent pas par leur comportement en modèle macrophage ou par leur diversité génomique. O. intermedium, tout comme O. anthropi, présente une forte diversité génétique toutefois, aucun regroupement des souches en fonction de leur origine n'est mis en évidence pour cette espèce. La diversité des souches cliniques apparait aussi importante que celle de l'ensemble de la population. Plusieurs arguments suggèrent une niche étroite pour cette espèce, notamment une faible diversité génomique. Par ailleurs, le faible nombre de souches environnementales associé à une meilleure croissance planctonique à 37°C qu'à 25°C et 30°C suggèrent que l'homme pourrait constituer cette niche. L'étude de la virulence d'O. intermedium en modèle macrophage ou C. elegans met en évidence différents comportements, pour autant ceux-ci ne semblent pas liés à la structure de population. Certaines souches sont capables de se multiplier dans le modèle macrophage.L'étude du genre Agrobacterium par une approche multilocus sur une collection représentative des différents modes de vie de ces bactéries met en évidence, tout comme pour O. anthropi, une sous population clinique qui regroupe près de 80% des souches de cette origine. D'autres arguments tels que la croissance à 42°C confirment que le génovar A7 peut correspondre à une sous-population associée à l'homme. Les données obtenues seront confrontées aux connaissances sur d'autres bactéries pathogènes opportunistes d'origine environnementale comme Pseudomonas aeruginosa, Stenotrophomonas maltophilia et les bactéries du complexe Burkholderia cepacia qui présentent également des sous populations associées à l'homme et/ou à certaines pathologies humaines. L'existence de ces sous populations suggère une spécialisation qui sera discutée dans le contexte de la spéciation des bactéries pathogènes afin de revisiter le concept d'opportunisme infectieux. / The opportunistic bacterial pathogens (OBP) cause the main part of bacterial infectious diseases. Environmental-borne OBP should encounter dramatic changes in lifestyle in order to colonize human beings. The conditions of this adaptation should precise concepts about OBP and emerging pathogens.The genera Ochrobactrum and Agrobacterium groups bacteria with versatile lifestyles that establish diverse relationships with the eukaryotic cells. These environmental-borne OBP caused diverse infectious diseases in immune-compromised patients. In this study, we undertook an approach of multilocus genetic on large population of environmental and clinical strains of Ochrobactrum and Agrobacterium. The population structures were compared to phenotypic traits related to adaptation and virulence in man, such as growth temperature, biofilm formation and virulence tested in Caenorhabditis elegans and human macrophages models.Ochrobactrum anthropi and Ochrobactrum intermedium are the two main Ochrobactrum species to be involved in human diseases. O. anthropi displays an epidemic population structure organized in two large clonal complexes (CCs). CC4 groups only human associated strains whereas CC1 contain environmental and clinical strains. Population genetics suggested that CC4 is a human-associated clone although phenotypic, genomic and virulence traits do not differ between CC1 and CC4 strains.As O. anthropi, O. intermedium displays a high genetic diversity without correlation between the genetic structure and the origin of strains. The level of genetic diversity among clinical strains appears as high as observed in the whole population. Several data such as a low level of genomic diversity suggested that O. intermedium is associated to a narrow ecological niche. The low number of environmental strains described for this species as well as an optimal growth at 37°C suggested that human beings could be the main niche for O. intermedium. Virulence in macrophage and C. elegans models showed diverse behaviour whereas some strains are able to survive and multiply in macrophages model.Multilocus genetics in a population of Agrobacterium spp. that displays diverse lifestyles, revealed a human associated population as observed for O. anthropi. The clinical genovar A7 groups 80% of the clinical strains included in the study, this strains growing at 42°C. Data obtained in this study will be confronted to the knowledge about other environmental-borne OBP such as Pseudomonas aeruginosa, Stenotrophomonas maltophilia and bacteria belonging to the species complex Burkholderia cepacia. All these bacteria displayed sub-populations associated to man or to a particular human disease. These sub-populations suggest a specialization process that will be described in the context of the speciation of bacterial pathogen in order to revisite the concept of « opportunisme infectieux ».

Ochrobactrum

Agrobacterium

Ecp

Mlst

Nosocomial

Environnement mode de vie

Ochrobactrum

Agrobacterium

Pfge

Mlst

Nosocomial

Environment

Lifestyle

Outbreak of Ochrobactrum anthropi endophthalmitis following cataract surgery

Mattos, Fellipe Berno

11 November 2013

Made available in DSpace on 2016-08-29T15:38:41Z (GMT). No. of bitstreams: 1 tese_7206_Outbreak of Ochrobactrum anthropi endophthalmites following cataract surgery.pdf: 114449 bytes, checksum: c89d6abc157b93a9d71ed933dca2014c (MD5) Previous issue date: 2013-11-11 / Endoftalmite infecciosa após cirurgia muitas vezes progride para deficiência visual significativa e irreversível. A tese descreve um surto de endoftalmite por Ochrobactrum anthropi ocorrido após cirurgia de catarata e propõe um novo protocolo de esterilização para minimizar o risco de novos casos. Prontuários de pacientes com diagnóstiico firmado de O. anthropi por cultura ou com achados clínicos sugestivos durante o surto foram revisados. Sete casos de endoftalmite por O. anthropi foram confirmados entre 24 de Julho e 10 de novembro de 2010. A causa mais provável do surto foi a contaminação da tubulação da máquina de facoemulsificação. Após a introdução do novo protocolo de esterilização, não houve mais casos de endoftalmite, independente da causa, em mais de 1000 procedimentos subsequentes.

Medicina

Ochrobactrum anthropi

Cataract extraction

Endophthalmitis

Anti-bacterial agents

Biofilms

Sterilization

Isolation and characterization of bacterial endophytes for growth promotion of Phaseolus vulgaris under salinity stress

Thompson, Biosha

January 2020

>Magister Scientiae - MSc / As the global human population grows, so does the demand for faster food production rates. Owing to this, agricultural practices have had to expand and move into semi-arid and arid regions, too, where frequent irrigation is essential. However, irrigated ground water contains many salt ions (mainly Na+ and Cl-) which contribute to soil salinization on croplands. Soil salinity negatively impacts crop growth and yield and thus, strategies for the alleviation of salt stress on crop plants have had to be developed. This study assessed the use of plant growth promoting bacteria (PGPB). The aim of this study was to isolate, identify and characterize bacterial endophytes isolated from the halophyte, Arctotheca calendula. Endophytes were identified using 16S rDNA and were screened for plant growth promoting properties including nitrogen fixation, phosphate and zinc solubilization, siderophore, ammonia and indole-3-acetic acid (IAA) when exposed to 0 mM, 300 mM and 600 mM NaCl. The endophytes had been identified as Erwinia persicina NBRC 102418T, Bacillus marisflavi JCM 11544T, Ochrobactrum rhizosphaerae PR17T, Microbacterium gubbeenense DSM 15944T and Bacillus zhangzhouensis DW5-4T and all of which had demonstrated some plant growth promoting characteristics. Thereafter, we aimed to demonstrate plant growth promotion of P. vulgaris cv. Star 2000 inoculated with PGPB under salinity stress. P. vulgaris cv. Star 2000 seeds were inoculated with the PGPB and exposed to 0 mM and 100 mM NaCl. Post-harvest, plants were assessed for their dry mass, cell death, superoxide concentration and nutrient content. It was discovered that salinity negatively impacted P. vulgaris cv. Star 2000’s dry mass, NaCl-induced cell death, and differentially influenced superoxide concentration, nutrient uptake and content of the leaf and root material in the inoculated and control treatments. However, the isolated PGPB had been able to mitigate the negative effects of soil salinity on P. vulgaris cv. Star 2000.

Salinity stress

16S rDNA

PGPB

IAA

Phaseolus vulgaris

Arctotheca calendula

Erwinia

Bacillus

Ochrobactrum,

Microbacterium

Dynamique des populations et communautés bactériennes au cours de l’hospitalisation et des infections associées aux soins : cas particulier de la chirurgie cardiaque / Bacterial populations and communities’ dynamic during the hospitalization and in the occurrence of the health-care associated infections : the particular case of cardiac surgery

Romano, Sara

09 January 2015

Les microbiotes humains sont considérés comme des organes supplémentaires impliqués dans des pathologies diverses, y compris infectieuses. Les déséquilibres des microbiotes, ou dysbioses, créent des niches écologiques pathologiques ou pathobiomes. Ce nouveau paradigme de l'infection s'applique tout particulièrement aux infections opportunistes. Dans ce travail, nous considérons des infections associées aux soins (IAS), les infections du site opératoire en chirurgie cardiaque, comme le résultat d'une pathologie de niche et nous étudions la dynamique des communautés et des populations microbiennes comme conditions d'émergence et de succès de l'agent infectieux. La diversité et la dynamique du microbiote chirurgical superficiel et profond de patients opérés pour pontage aorto-coronarien montrent un remplacement partiel du microbiote pré-opératoire par un microbiote spécifique avec une résilience partielle lors de la cicatrisation. Un lien significatif est observé entre la composition microbiotique et les marqueurs de risque infectieux. Le suivi de la structure de population d'un agent pathogène reconnu en chirurgie cardiaque, Propionibacterium acnes, montre des fréquences différentielles de phylotypes selon les phases opératoires. La spécificité du microbiote opératoire consiste en une forte diversité de bactéries à Gram négatif dont certaines ont été décrites dans le microbiote de la peau saine. Nous avons réalisé une identification au niveau de l'espèce de ces bactéries de la peau saine qui s'avèrent atypiques parmi les bactéries humaines connues car elles évoquent une origine environnementale. Le réservoir cutané et non environnemental d'un pathogène opportuniste, Roseomonas mucosa, est démontré et trois populations de pathogène opportuniste à réservoir environnemental et/ou humain (Pseudomonas aeruginosa, Ochrobactrum antropi, O. intermedium) sont étudiés en termes de structure de population pour préciser les conditions de leur transmission et leur succès infectieux dans le contexte général du pathobiome et des niches écologiques perturbées. Ce contexte général permet d'organiser les résultats obtenus à diverses échelles (communauté, populations, espèces, phylotypes) pour proposer une vision intégrée et originale de la microbiologie des IAS. / Human microbiota are now considered as supplementary organs involved in diseases such as infections. Microbiota disequilibrium named dysbiosis creates impaired ecological niches (pathobiomes). This new paradigm of infection is particularly relevant for opportunistic infections. In this study, we consider one major type of healthcare associated infection (HAI), the surgical site infections after cardiothoracic surgery as a pathology of niche. We study the dynamics of microbial communities and populations as conditions for emergence and success of infectious agents.The diversity and dynamics of superficial and deep surgical microbiota in patients undergoing coronary artery bypass grafting show a partial replacement of the pre-operative microbiota by a specific surgical microbiota with partial resilience during healing. Significant links are found between microbiota composition and scores for infectious risk. The population structure of Propionibacterium acnes, a pathogen complicating cardiac surgery, shows variable frequencies of phylotypes according to operative stages. Surgical microbiota appears specific with high diversity of Gram-negative bacteria, some of them being previously described in healthy skin microbiota. At the species-level, these bacteria appear atypical among known human bacteria because they are related to environmental bacteria. We demonstrate the cutaneous reservoir of the opportunistic pathogen Roseomonas mucosa deemed, until now, to be environmental. Three populations of opportunistic pathogens (Pseudomonas aeruginosa, Ochrobactrum anthropi, O. intermedium) are structured in order to precise their transmission and their infectivity in the general context of impaired ecological niche and pathobiome.The results obtained at various microbiological scale (community, population, species, phylotype) are organized in this general context in order to delineate an original integrative vision of HAI.

Microbiotes cutané et chirurgical

Chirurgie cardiaque

Propiobacterium acnes

Roseomonas et Ochrobactrum

Pathobionte et pathobiome

Skin and surgical microbiota

Cardiac surgery

Propionibacterium acnes

Roseomonas and Ochrobactrum

Pathobionte and pathobiome

579

Ochrobactrum anthropi: a soil bacterium for the study of Brucella virulence

Seleem, Mohamed N.

01 November 2006

The species of Brucella were isolated and characterized almost 120 years ago and their genomes sequenced for almost 4 years. Compared to other bacterial pathogens relatively, little is known about the factors contributing to their persistence in hosts and multiplication within phagocytic cells. Also, many aspects of the interactions between Brucella and its host remain unclear. Molecular characterization of intracellular survival processes of Brucella will provide guidance for additional prevention and control measures. One of the features that distinguishes Brucella is that they do not express classic virulence factors. Thus identification of virulence factors has been elusive and some of the identified virulence genes are putative. Disruption of putative virulence genes and studying the consequent effect on attenuation in cell lines or mouse models is a widely used method. However, in most cases it is not apparent whether the mutated genes encode virulence factors or merely affect normal metabolic or biological functions. Some mutations in Brucella can be compensated by redundancy or backup mechanisms. One method for identifying putative virulence genes involved in pathogenesis is to express these genes in a nonpathogenic host and isolate recombinants with increased virulence or survival ability either in cell culture or animal model. We hypothesize that over-expression of Brucella putative virulence genes in the non-pathogenic and close phylogenic relative Ochrobactrum anthropi should enhance its survival in infection models in vivo. O. anthropi is one of the closest Brucella relatives based on DNA, rRNA, and protein analyses but it is unable to establish chronic infection and considered as opportunistic pathogen that, under certain circumstances, may produce disease in immunocompromised humans. Therefore, we established enhanced expression system in Brucella and Ochrobactrum to identify B. suis virulence genes. We created an enhanced expression system that can be used for cloning and expression of heterologous genes in Brucella and Ochrobactrum. We studied the transcriptional activity of several promoters and created some tools to enhance the expression, detection and purification of Brucella recombinant protein in Ochrobactrum. The presumable importance of alkyl hydroperoxide reductases encoded by ahpC and ahpD genes and their contribution to intracellular survival of Brucella were studied by over-expressing them. The recombinant O. anthropi expressing B. suis ahpC and ahpD genes were able to resist in vitro killing by H2O2 and or cumene hydroperoxide and survived longer in the macrophage J774 A.1 cell line. The control O. anthropi was cleared from BALB/c mice in five days while the recombinants were recovered from spleens, livers and lungs of infected mice up to eight days post-infection. We tested the contribution of B. suis cyclic glucan synthetase gene (cgs) to virulence by over-expressing it in O. anthropi. We studied the ability of the recombinant O. anthropi to resist killing in vitro and in vivo. We generated evidence that B. suis cgs when over-expressed in O. anthropi increased the amount of cyclic glucans synthesized and accumulated in the periplasmic space. This accumulation changed the virulence of the microorganism from a soil bacterium that cleared from mice in less than five days into a pathogenic organism that could survive up to 9 days and at higher doses killed the mice. In summary, several vectors have been constructed for gene expression and protein purification in Brucella and Ochrobactrum. Novel useful tools for enhancement of heterologous gene expression were created and demonstrated to work in Brucella and Ochrobactrum. Brucella putative virulence genes were studied in Ochrobactrum using the newly constructed vectors and tools. Ochrobactrum as a gain of function model for studying putative virulence genes of intracellular pathogens in general and for Brucella in particular proved to be a very useful model. / Ph. D.

virulence genes

cyclic glucan synthase

expression vectors

ahpC

UP element

RNA stem loop

Ochrobactrum anthropi

Brucella suis