A Burkholderia Type VI Effector Deamidates Rho GTPases to Activate the Pyrin Inflammasome

Burkholderia cenocepacia is an opportunistic pathogen of the cystic fibrosis lung that elicits a strong inflammatory response. B. cenocepacia employs a type VI secretion system (T6SS) to survive in macrophages by disarming Rho-type GTPases, causing actin cytoskeletal defects. Here, we identified TecA, a non-VgrG T6SS effector responsible for actin disruption. TecA and other bacterial homologs bear a cysteine protease-like catalytic triad, which inactivates Rho GTPases by deamidating a conserved asparagine in the GTPase switch-I region. RhoA deamidation induces caspase-1 inflammasome activation, which is mediated by the familial Mediterranean fever disease protein Pyrin. In mouse infection, the deamidase activity of TecA is necessary and sufficient for B. cenocepacia-triggered lung inflammation and also protects mice from lethal B. cenocepacia infection. Therefore, Burkholderia TecA is a T6SS effector that modifies a eukaryotic target through an asparagine deamidase activity, which in turn elicits host cell death and inflammation through activation of the Pyrin inflammasome.

Fatores de virulência em Aeromonas hydrophila causadora de septicémia em leitões

This work aims to contribute to determine the resistance profile to different antibiotics (ampicillin, gentamicin, penicillin G, oxytetracycline, lincomycin, neomycin, streptomycin, enrofloxacin, colistin sulfate, trimethoprim, sulfamide, tulathromycin, ceftiofur, amoxicillin/clavulanic acid), to assess genetic determinants associated to aminoglycoside antibiotics resistance, namely the presence of genes encoding acetyltransferases (AAC), phosphotransferases (APH) and nucletildiltranferases (ANT), determined by PCR studies, and to search for potentially pathogenic features as the production of extracellular lipases and proteases and the presence of genes encoding for putative virulence factors as aerolysin and related toxins, lipase proteins and type III secretion system component.

Molecular cloning and restriction endonuclease analysis of bovine adenovirus type 3

Bovine adenovirus type 3 (BAV3) is a medium size DNA virus that causes respiratory and gastrointestinal disorders in cattle. The viral genome consists of a 35,000 base pair, linear, double-stranded DNA molecule with inverted terminal repeats and a 55 kilodalton protein covalently linked to each of the 5' ends. In this study, the viral genome was cloned in the form of subgenomic restriction fragments. Five EcoRI internal fragments spanning 3.4 to 89.0 % and two Xb a I internal fragments spanning 35.7 to 82.9 % of the viral genome were cloned into the EcoRI and Xbal sites of the bacterial vector pUC19. To generate overlap between cloned fragments, ten Hi n dIll internal fragments spanning 3.9 to 84.9 and 85.5 to 96% and two BAV3 BamHI internal fragments spanning 59.8 to 84.9% of the viral genome were cloned into the HindllI and BamHI sites of pUC19. The HindlII cloning strategy also resulted in six recombinant plasmids carrying two or more Hi ndII I fragments. These fragments provided valuable information on the linear orientation of the cloned fragments within the viral genome. Cloning of the terminal fragments required the removal of the residual peptides that remain attached to the 5' ends of the genome. This was accomplished by alkaline hydrolysis of the DNA-peptide bond. BamH I restriction fragments of the peptide-free DNA were cloned into pUC19 and resulted in two plasmids carrying the BAV3 Bam HI terminal fragments spanning 0 to 53.9% and 84.9 to 100% of the viral genome.

The establishment of two novel bovine cell lines by transfection with the putative transforming region of bovine adenovirus type 3

Human adenoviruses (Ads), members of the family adenoviridae, are medium-sized DNA viruses which have been used as valuable research tools for the study of RNA processing, oncogenic transformation, and for the development of viral vectors for use in gene delivery and immunization technology. The left 12% of the linear Ad genollle codes for products which are necessary for the efficient replication of the virus, as well as being responsible for the forlllation of tumors in animallllodels. The establishlllent of the 293 cell line, by immortalization of human embryonic kidney cells with th~ E1 region of Ad type S (AdS), has facilitated extensive manipulation of the Ads and the development of recombinant Ad vectors. The study of bovine adenoviruses (BAVs), which cause mild respiratory and gastrointestinal infections in cattle has, on the other hand, been limited primarily to that of infectivity, immunology and clinicallllanifestations. As a result, any potential as gene delivery vehicles has not yet been realized. Continued research into the molecular biolo~gy of BAVs and the development of recolllbinant vectors would benefit from the development of a cell line analogous to that of the 293 cells. In an attelllpt to establish such a cell line, the recombinant plaslllid pKC-neo was constructed, containing the left 0-19.7% of the BAV type 3 (BAV3) genome, and the selectable marker for resistance to the aminoglycoside G418, a neomycin derivative. The plasmid construct was then used to transfect both the Madin-Darby bovine kidney (MDBK) -iicell line and primary bovine lung cells, after which G418-resistant foci were selected for analysis. Two cell lines, E61 (MDBK) and E24 (primary lung), were subsequently selected and analysed for DNA content, revealing the presence of the pKC-neo sequences in their respective genomes. In addition, BAV3 RNA transcripts were detected in the E61 cells. Although the presence of E1 products has yet to be confirmed in both cell lines, the E24 cells exhibit a phenotype characteristic of partial transformation by E1. The apparent immortalization of the primary lung cells will permit exploitation of their ability to take up exogenous DNA at high efficiency.

Analyse cinétique des rétinaldéhydes déshydrogénases recombinantes de type 3 et 4 de souris

Les Rétinal déshydrogénases (RALDHs) catalysent irréversiblement la déshydrogénation du Rétinal en Acide Rétinoïque (AR) qui est impliqué dans l’embryogenèse et la différenciation tissulaire. Pour comprendre le rôle dans la biosynthèse de l’AR des RALDHs type 3 et 4 de souris, nous avons déterminé leurs propriétés cinétiques ainsi que leur comportement en présence de différents inhibiteurs. Les tests enzymatiques sont effectués avec une préparation d’enzyme recombinante, tagguée avec 6 histidines, purifiée sur colonne Ni-NTA (Qiagen). L’activité enzymatique est évaluée en quantifiant la production d’AR par chromatographie liquide à haute performance (HPLC) en phase inversée. Les constantes cinétiques ont été déterminées pour les isomères du rétinal tout-trans, 9-cis et 13-cis. La RALDH4 catalyse les isomères 9-cis et 13-cis de rétinal, elle présente un faible KM (3μM) pour les deux isomères et a une efficacité catalytique élevée pour le 9-cis rétinal 3.4 fois supérieure au 13-cis rétinal. La RALDH3 est spécifique au tout-trans rétinal avec un KM de 4 μM et une efficacité élevée. β-Ionone, inhibiteur possible pour la RALDH4, inhibe l’activité avec le rétinal 9-cis et 13-cis, mais n’influence pas l’activité de la RALDH3. Le para-hydroxymercuribenzoïque (p-HMB) inhibe l’activité de deux isoenzymes. Le cation MgCl2 augmente par 3 fois l’oxydation du rétinal 13-cis par la RALDH4, diminue l’oxydation du 9-cis rétinal et influence faiblement la RALDH3. Ces données enrichissent les connaissances sur les caractéristiques cinétiques des RALDHs recombinantes de souris de types 3 et 4 et fournissent des éclaircissements sur la biogenèse de l’acide rétinoïque in vivo.

Caractérisation et surexpression des fimbriae de type chaperon-placier de Salmonella enterica sérovar Typhi

Salmonella enterica sérovar Typhi (S. Typhi) est l’agent responsable de la fièvre typhoïde et cause environ 200 000 morts et 27 millions de cas annuellement. C’est un pathogène entérique dont le réservoir est restreint à l’Homme. Les raisons de cette restriction d’hôte sont méconnues et pourraient dépendre de l’expression de facteurs d’adhésion à des étapes importantes au cours de la pathogenèse. L’annotation bioinformatique du génome de S. Typhi identifie 12 fimbriae de type chaperon-placier (FCP), un curli ainsi qu’un pilus de type IV. L’objectif de ce projet de recherche est d’étudier ces systèmes d’adhésion peu caractérisés. D’abord, le niveau d’expression de ces gènes a été évalué dans différentes conditions de culture in vitro en utilisant une approche de gènes rapporteurs. L’expression des 14 systèmes d’adhésion a été détectée. Nos résultats indiquent qu’une carence en fer favorise l’expression des opérons bcf et csg. Indépendamment du fer, l’expression de bcf, csg, pil, sef, sta, stc, stg et sth est influencée par la richesse nutritive du milieu. L’incubation en milieu LB liquide favorise l’expression de la plupart des systèmes d’adhésion par rapport à un milieu LB liquide sans agitation ou un milieu LB solide. En somme, l’expression des systèmes d’adhésion de S. Typhi a été observée et est influencée par des conditions environnementales. Dans un second volet, nous avons tent de surexprimer les différents systèmes d’adhésion chez une souche d’E. coli ou de S. Typhi afimbriaire. Avec cette approche, nous avons été en mesure de démontrer que l’opéron tcf encode pour un fimbria fonctionnel que l’on a pu observer en microscopie électronique. L’expression de tcf chez une souche afimbriaire d’E. coli et S. Typhi a également diminué leur capacité d’adhésion à des cellules épithéliales intestinales humaines lors d’essais in vitro. Nos observations démontrent que l’expression des systèmes d’adhésion retrouvés chez S. Typhi est influencée par les conditions enviroi9onnementales. Au moins un de ces systèmes est fonctionnel. Ceci suggère une contribution des systèmes d’adhésion retrouvés chez S. Typhi lors de l’interaction de ce pathogène avec l’humain.

PtdIns(5)P activates the host cell PI3-kinase/Akt pathway during Shigella flexneri infection

The virulence factor IpgD, delivered into nonphagocytic cells by the type III secretion system of the pathogen Shigella flexneri, is a phosphoinositide 4-phosphatase generating phosphatidylinositol 5 monophosphate (PtdIns(5) P). We show that PtdIns(5) P is rapidly produced and concentrated at the entry foci of the bacteria, where it colocalises with phosphorylated Akt during the first steps of infection. Moreover, S. flexneri-induced phosphorylation of host cell Akt and its targets specifically requires IpgD. Ectopic expression of IpgD in various cell types, but not of its inactive mutant, or addition of short-chain penetrating PtdIns(5) P is sufficient to induce Akt phosphorylation. Conversely, sequestration of PtdIns(5) P or reduction of its level strongly decreases Akt phosphorylation in infected cells or in IpgD-expressing cells. Accordingly, IpgD and PtdIns(5) P production specifically activates a class IA PI 3-kinase via a mechanism involving tyrosine phosphorylations. Thus, S. flexneri parasitism is shedding light onto a new mechanism of PI 3-kinase/Akt activation via PtdIns(5) P production that plays an important role in host cell responses such as survival.

Role of NleH, a Type III Secreted Effector from Attaching and Effacing Pathogens, in Colonization of the Bovine, Ovine, and Murine Gut

The human pathogen enterohemorrhagic Escherichia coli (EHEC) O157:H7 colonizes human and animal gut via formation of attaching and effacing lesions. EHEC strains use a type III secretion system to translocate a battery of effector proteins into the mammalian host cell, which subvert diverse signal transduction pathways implicated in actin dynamics, phagocytosis, and innate immunity. The genomes of sequenced EHEC O157: H7 strains contain two copies of the effector protein gene nleH, which share 49% sequence similarity with the gene for the Shigella effector OspG, recently implicated in inhibition of migration of the transcriptional regulator NF-kappa B to the nucleus. In this study we investigated the role of NleH during EHEC O157: H7 infection of calves and lambs. We found that while EHEC Delta nleH colonized the bovine gut more efficiently than the wild-type strain, in lambs the wild-type strain exhibited a competitive advantage over the mutant during mixed infection. Using the mouse pathogen Citrobacter rodentium, which shares many virulence factors with EHEC O157: H7, including NleH, we observed that the wild-type strain exhibited a competitive advantage over the mutant during mixed infection. We found no measurable differences in T-cell infiltration or hyperplasia in colons of mice inoculated with the wild-type or the nleH mutant strain. Using NF-kappa B reporter mice carrying a transgene containing a luciferase reporter driven by three NF-kappa B response elements, we found that NleH causes an increase in NF-kappa B activity in the colonic mucosa. Consistent with this, we found that the nleH mutant triggered a significantly lower tumor necrosis factor alpha response than the wild-type strain.

Interaction of enterohemorrhagic Escherichia coli O157 : H7 with mouse intestinal mucosa

In this study, we used mouse ileal loops to investigate the interaction of enterohemorrhagic Escherichia coli (EHEC) O157:H7 with the mouse intestinal mucosa. With a dose of 10(9) and 3 h incubation, EHEC O157 was detected in the lumen and to a lesser extent associated with the epithelium. Typical attaching and effacing (A/E) lesions were seen, albeit infrequently. While the effector protein Tir was essential for A/E lesion formation, the bacterial type III secretion system adaptor protein TccP was dispensable. These results suggest that A/E lesions on mouse intestinal mucosa can be formed independently of robust actin polymerization.

EspJ is a prophage-carried type III effector protein of attaching and effacing pathogens that modulates infection dynamics

Enterohemorrhagic Escherichia coli, enteropathogenic E. coli, and Citrobacter rodentium are highly adapted enteropathogens that successfully colonize their host's gastrointestinal tract via the formation of attaching and effacing (A/E) lesions. These pathogens utilize a type III secretion system (TTSS) apparatus, encoded by the locus of enterocyte effacement, to translocate bacterial effector proteins into epithelial cells. Here, we report the identification of EspJ (E. coli-secreted protein J), a translocated TTSS effector that is carried on the 5' end of the cryptic prophage CP-933U. Infection of epithelial cells in culture revealed that EspJ is not required for A/E lesion activity in vivo and ex vivo. However, in vivo studies performed with mice demonstrated that EspJ possesses properties that influence the dynamics of clearance of the pathogen from the host's intestinal tract, suggesting a role in host survival and pathogen transmission.

Characterization of two non-locus of enterocyte effacement-encoded type III-translocated effectors, NleC and NleD, in attaching and effacing pathogens

Intestinal colonization by enteropathogenic and enterohemorrhagic Escherichia coli requires the locus of enterocyte effacement-encoded type III secretion system. We report that NleC and NleD are translocated into host cells via this system. Deletion mutants induced attaching and effacing lesions in vitro, while infection of calves or lambs showed that neither gene was required for colonization.

Phylogeography and evolutionary history of dengue virus type 3

In this study, we revisited the phylogeography of the three of major DENV-3 genotypes and estimated its rate of evolution, based on the analysis of the envelope (E) gene of 200 strains isolated from 31 different countries around the world over a time period of 50 years (1956-2006). Our phylogenetic analysis revealed a geographical subdivision of DENV-3 population in several country-specific clades. Migration patterns of the main DENV-3 genotypes showed that genotype I was mainly circumspect to the maritime portion of Southeast-Asia and South Pacific, genotype 11 stayed within continental areas in South-East Asia, while genotype III spread across Asia, East Africa and into the Americas. No evidence for rampant co-circulation of distinct genotypes in a single locality was found, suggesting that some factors, other than geographic proximity, may limit the continual dispersion and reintroduction of new DENV-3 variants. Estimates of the evolutionary rate revealed no significant differences among major DENV-3 genotypes. The mean evolutionary rate of DENV-3 in areas with long-term endemic transmissions (i.e., Indonesia and Thailand) was similar to that observed in the Americas, which have been experiencing a more recent dengue spread. We estimated the origin of DENV-3 virus around 1890, and the emergence of current diversity of main DENV-3 genotypes between the middle 1960s and the middle 1970s, coinciding with human population growth, urbanization, and massive human movement, and with the description of the first cases of DENV-3 hemorrhagic fever in Asia. (C) 2008 Elsevier B.V. All rights reserved.

Thermoluminescence, structural and magnetic properties of a Li(2)O-B(2)O(3)-Al(2)O(3) glass system doped with LiF and TiO(2)

A Li(2)O-B(2)O(3)-Al(2)O(3) glass system, un-doped and doped with LiF, and/or TiO(2) was synthesized by the fusion method and its physical properties were investigated by thermoluminescence (TL), X-ray diffraction (XRD), electron paramagnetic resonance (EPR), atomic force microscopy (AFM) and differential thermal analysis (DTA). The samples were subjected to gamma-rays from a colbalt-60 ((60)Co) source. These techniques provided evidence of LiF and LiF doped with Ti crystal formation in the glass system. A TL glow peak at about 433 K was sensitive to (60)Co gamma-rays and showed good linearity with doses and consequently could be used to quantify radiation doses. Crown Copyright (C) 2011 Published by Elsevier B.V. All rights reserved.