ApoFnr binds as a monomer to promoters regulating expression of enterotoxin genes of Bacillus cereus.

International audienceBacillus cereus Fnr is a member of the Crp/Fnr (cAMP-binding protein/fumarate nitrate reduction regulatory protein) family of helix-turn-helix transcriptional regulators. It is essential for the expression of Hbl and Nhe enterotoxin genes independently of the oxygen tension in the environment. We studied aerobic Fnr binding to target sites in promoters regulating the expression of enterotoxin genes. B. cereus Fnr was overexpressed and purified as either a C-terminal His-tagged (FnrHis) fusion protein or an N-terminal fusion protein tagged with the Strep-tag (IBA BioTAGnology) (StrepFnr). Both recombinant Fnr proteins were produced as apoforms (clusterless) and occured as mixtures of monomers and oligomers in solution. However, apoFnrHis was mainly monomeric, while apoStrepFnr was mainly oligomeric, suggesting that the His-tagged C-terminal extremity may interfere with oligomerization. The oligomeric state of apoStrepFnr was dithiothreitol sensitive, underlining the importance of a disulphide bridge for apoFnr oligomerization. Electrophoretic mobility shift assays showed that monomeric apoFnr, but not oligomeric apoFnr, bound to specific sequences located in the promoter regions of the enterotoxin regulators fnr, resDE and plcR and the structural genes hbl and nhe. The question of whether apoFnr binding is regulated in vivo by redox-dependent oligomerization is discussed

Proteome data to explore the impact of pBClin15 on Bacillus cereus ATCC 14579

AbstractThis data article reports changes in the cellular and exoproteome of B. cereus cured from pBClin15.Time-course changes of proteins were assessed by high-throughput nanoLC-MS/MS. We report all the peptides and proteins identified and quantified in B. cereus with and without pBClin15. Proteins were classified into functional groups using the information available in the KEGG classification and we reported their abundance in term of normalized spectral abundance factor. The repertoire of experimentally confirmed proteins of B. cereus presented here is the largest ever reported, and provides new insights into the interplay between pBClin15 and its host B. cereus ATCC 14579. The data reported here is related to a published shotgun proteomics analysis regarding the role of pBClin15, “Deciphering the interactions between the Bacillus cereus linear plasmid, pBClin15, and its host by high-throughput comparative proteomics” Madeira et al. [1]. All the associated mass spectrometry data have been deposited in the ProteomeXchange Consortium (http://proteomecentral.proteomexchange.org) via the PRIDE partner repository (http://www.ebi.ac.uk/pride/), with the dataset identifier PRIDE: PXD001568, PRIDE: PXD002788 and PRIDE: PXD002789

Yeast expressed cytochrome P450 2D6 (CYP2D6) exposed on the external face of plasma membrane is functionally competent

ABSTRACT CYP2D6, a xenobiotic metabolizing cytochrome P450 (P450), was found to be present in significant amount on the outer face of cell plasma membrane in addition to the regular microsomal location. Present work demonstrates that this external P450 is catalytically competent and that activity is supported by NADPH-P450 reductase present on the inner face of plasma membrane. Purified plasma membranes from yeast expressing CYP2D6 sustained NADPH-and cumene hydroperoxide-dependent dextromethorphan demethylation and NADPH-cytochrome c activity confirming previous observations in human hepatocytes. CYP2D6 found on the outside of plasma membrane (by differential immuno-inhibition and acidic shift assays on transformed spheroplasts) was catalytically competent at the cell surface for NADPH-supported activities. Anti-yeast P450-reductase antibodies inhibited neither CYP2D6 nor P450-reductase activities upon incubation with intact spheroplasts. In contrast, both activities were inhibited on isolated plasma membrane fragments. This highly suggested a cytosolic-orientation of the plasma membrane P450-reductase. This finding was confirmed by immunostaining in confocal microscopy. Finally, gene deletion of P450-reductase caused a complete loss of plasma membrane NADPH-supported CYP2D6 activity, which suggests that the reductase participates to some degree in the transmembrane electron transfer chain. This work illustrates that the outside-exposed plasma membrane CYP2D6 is active and may play an important metabolic role

Neuropathological and Reelin Deficiencies in the Hippocampal Formation of Rats Exposed to MAM; Differences and Similarities with Schizophrenia

Adult rats exposed to methylazoxymethanol (MAM) at embryonic day 17 (E17) consistently display behavioral characteristics similar to that observed in patients with schizophrenia and replicate neuropathological findings from the prefrontal cortex of psychotic individuals. However, a systematic neuropathological analysis of the hippocampal formation and the thalamus in these rats is lacking. It is also unclear if reelin, a protein consistently associated with schizophrenia and potentially involved in the mechanism of action of MAM, participates in the neuropathological effects of this compound. Therefore, a thorough assessment including cytoarchitectural and neuromorphometric measurements of eleven brain regions was conducted. Numbers of reelin positive cells and reelin expression and methylation levels were also studied.Compared to untreated rats, MAM-exposed animals showed a reduction in the volume of entorhinal cortex, hippocampus and mediodorsal thalamus associated with decreased neuronal soma. The entorhinal cortex also showed laminar disorganization and neuronal clusters. Reelin methylation in the hippocampus was decreased whereas reelin positive neurons and reelin expression were unchanged.Our results indicate that E17-MAM exposure reproduces findings from the hippocampal formation and the mediodorsal thalamus of patients with schizophrenia while providing little support for reelin's involvement. Moreover, these results strongly suggest MAM-treated animals have a diminished neuropil, which likely arises from abnormal neurite formation; this supports a recently proposed pathophysiological hypothesis for schizophrenia

A first inventory of the labile biochemicals found in Avignon groundwater: can we identify potential bacterial substrates?

Groundwater is a major source of water for irrigation of vegetables, especially in the Mediterranean basin. Contamination of aquifer by pathogens has been responsible for numerous disease outbreaks worldwide. Several studies reported that groundwater dissolved organic matter (DOM) can serve as a source of carbon and energy for heterotrophic metabolism of pathogens. In this study, we aimed to investigate the DOM composition of groundwater collected at Avignon. Six liters of groundwater were filtered (0.2 µm) and freeze-dried following appropriate cleaning procedure. The bulk analyses of powder sample were performed using 1D and 2D nuclear magnetic resonance spectroscopy and liquid chromatography coupled with mass spectroscopy. Several components were found at concentrations around 1 µM and comprise: (i) humic and fulvic acids originated from land-derived material or soils and, (ii) various acids, esters and alcohols of different sizes including acetate, lactate and formate, these may result from microbial metabolism. In conclusion, the Avignon groundwater DOM contains a heterogeneous mixture of dissolved organic components with a rather low potential bioreactivity based on the low level of labile biogeochemicals such as carbohydrates

Clinical Relevance of Tumor Cells with Stem-Like Properties in Pediatric Brain Tumors

BACKGROUND: Primitive brain tumors are the leading cause of cancer-related death in children. Tumor cells with stem-like properties (TSCs), thought to account for tumorigenesis and therapeutic resistance, have been isolated from high-grade gliomas in adults. Whether TSCs are a common component of pediatric brain tumors and are of clinical relevance remains to be determined. METHODOLOGY/PRINCIPAL FINDINGS: Tumor cells with self-renewal properties were isolated with cell biology techniques from a majority of 55 pediatric brain tumors samples, regardless of their histopathologies and grades of malignancy (57% of embryonal tumors, 57% of low-grade gliomas and neuro-glial tumors, 70% of ependymomas, 91% of high-grade gliomas). Most high-grade glioma-derived oncospheres (10/12) sustained long-term self-renewal akin to neural stem cells (>7 self-renewals), whereas cells with limited renewing abilities akin to neural progenitors dominated in all other tumors. Regardless of tumor entities, the young age group was associated with self-renewal properties akin to neural stem cells (P = 0.05, chi-square test). Survival analysis of the cohort showed an association between isolation of cells with long-term self-renewal abilities and a higher patient mortality rate (P = 0.013, log-rank test). Sampling of low- and high-grade glioma cultures showed that self-renewing cells forming oncospheres shared a molecular profile comprising embryonic and neural stem cell markers. Further characterization performed on subsets of high-grade gliomas and one low-grade glioma culture showed combination of this profile with mesenchymal markers, the radio-chemoresistance of the cells and the formation of aggressive tumors after intracerebral grafting. CONCLUSIONS/SIGNIFICANCE: In brain tumors affecting adult patients, TSCs have been isolated only from high-grade gliomas. In contrast, our data show that tumor cells with stem cell-like or progenitor-like properties can be isolated from a wide range of histological sub-types and grades of pediatric brain tumors. They suggest that cellular mechanisms fueling tumor development differ between adult and pediatric brain tumors

CD133, CD15/SSEA-1, CD34 or side populations do not resume tumor-initiating properties of long-term cultured cancer stem cells from human malignant glio-neuronal tumors

<p>Abstract</p> <p>Background</p> <p>Tumor initiating cells (TICs) provide a new paradigm for developing original therapeutic strategies.</p> <p>Methods</p> <p>We screened for TICs in 47 human adult brain malignant tumors. Cells forming floating spheres in culture, and endowed with all of the features expected from tumor cells with stem-like properties were obtained from glioblastomas, medulloblastoma but not oligodendrogliomas.</p> <p>Results</p> <p>A long-term self-renewal capacity was particularly observed for cells of malignant glio-neuronal tumors (MGNTs). Cell sorting, karyotyping and proteomic analysis demonstrated cell stability throughout prolonged passages. Xenografts of fewer than 500 cells in Nude mouse brains induced a progressively growing tumor. CD133, CD15/LeX/Ssea-1, CD34 expressions, or exclusion of Hoechst dye occurred in subsets of cells forming spheres, but was not predictive of their capacity to form secondary spheres or tumors, or to resist high doses of temozolomide.</p> <p>Conclusions</p> <p>Our results further highlight the specificity of a subset of high-grade gliomas, MGNT. TICs derived from these tumors represent a new tool to screen for innovative therapies.</p

Caracterisation structurale et genetique de la ferredoxine II de Rhodobacter capsulatus. Analyse fonctionnelle de son gene de structure fdxA. Purification et proprietes de le ferredoxine codee par fdxA dans Escherichia coli

SIGLEAvailable from INIST (FR), Document Supply Service, under shelf-number : T 80577 / INIST-CNRS - Institut de l'Information Scientifique et TechniqueFRFranc

La protéine Fnr et le système à deux composants ResDE, des régulateurs majeurs de la synthèse des entérotoxines de Bacillus cereus

Bacillus cereus est un pathogène opportuniste à l'origine de deux types de toxi-infections alimentaires classées en syndrome émétique ou diarrhéique. Le syndrome diarrhéique résulte de la production d'entérotoxines (Hbl, Nhe et CytK) au niveau de l'intestin grêle de l'hôte, caractérisé par une atmosphère anaérobie et un faible potentiel d'oxydo-réduction (POR). La capacité de B. cereus à se développer et à produire des entérotoxines dans ces conditions est sous le contrôle de deux systèmes qui agissent, en partie, indépendamment du régulateur pléiotrope connu, PlcR (Phospholipase C Regulator). Il s'agit du système à deux composants ResDE et de la protéine Fnr (Fumarate Nitrate Reductase). Le but de cette étude a été de caractériser d'un point de vue fonctionnel l'implication du régulateur Fnr et du système ResDE dans la toxinogenèse de B. cereus. Les résultats ont montré que la régulation de la transcription de hbl et nhe était sous le contrôle direct et indirect de Fnr et de ResD. En aérobiose, la fixation de Fnr (forme Apo) sur les régions promotrices des gènes de structure des entérotoxines (pnhe et phbl) et des gènes de régulation (presDE, pfnr et pplcR) dépend des conditions redox. L'affinité de ResD pour pnhe, phbl, presDE, pfnr et pplcR dépend des séquences de ces régions promotrices et son affinité pour les régions promotrices presDE et pfnr dépend de son état de phosphorylation. ResD et ApoFnr sont capables de se fixer simultanément sur les régions promotrices étudiées et sont également capables d'interagir physiquement en l'absence d'ADN. Nous avons proposé un modèle de régulation de la toxinogenèse dans lequel ResDE et Fnr pourraient agir en synergie. Enfin des expériences de double hybride ont permis de mettre en évidence que la protéine PlcR pourrait interagir in vivo avec les régulateurs ResD et Fnr. La régulation de la toxinogenèse impliquerait donc la formation d'un complexe multi-moléculaireBacillus cereus is an opportunistic pathogen responsible of two types of food-borne diseases, classified as emetic and diarrhoeal syndromes. The diarrhoeal syndrome results from the production of enterotoxins (Hbl, Nhe and CytK) in the host small intestine, which constitutes a high reducing anoxic environment. The ability of B. cereus to produce enterotoxins and grow well in such environment is controlled by two global regulators that may function independently of the pleiotropic virulence regulator PlcR (Phospholipase C Regulator). These two regulators are the two-component system ResDE and the redox regulator Fnr (Fumarate Nitrate Reductase). The aim of this study was to establish the role of Fnr and ResDE in the virulence regulatory pathway of B. cereus. The results showed that transcriptional regulation of hbl and nhe was directly and indirectly controlled by Fnr and ResD. In aerobiosis, Fnr interaction (apo form) with the promoter regions of the enterotoxin structural genes (pnhe and phbl) and the enterotoxin regulator genes (presDE, pfnr and pplcR) depends on its oligomeric state. DNA binding affinity of ResD for pnhe, phbl, presDE, pfnr and pplcR depends on the promoter sequences and affinity for presDE and pfnr depends on its phosphorylation state. ResD and Fnr were found to physically interact and simultaneously bind their target DNAs. We proposed a model for regulation of enterotoxin genes expression in which ResD and Fnr could act synergically. Finally, yeast two-hybride experiments showed that PlcR could physically interact in vivo with Fnr and ResD. Enterotoxin genes expression of B. cereus could thus be controlled through a mechanism including a ternary complexAVIGNON-Bib. numérique (840079901) / SudocSudocFranceF