Relation structure-activité des lipopolysaccharides isolés des bactéries sulfato-réductrices de la flore intestinale chez le sujet sain et diabétique / Structure-activity relationships of lipopolysaccharides isolated from gut microbiota Sulfate-Reducing Bacteria in healthy and diabetic subjects

Zhang-Sun, Wei

02 December 2013

Des études ont récemment mis en évidence le rôle des lipopolysaccharides (LPS) des bactéries à Gram négatif de la flore intestinale dans le processus de l’inflammation conduisant à l’obésité et au diabète de type 2.Le présent travail est réalisé dans le cadre d’une collaboration entre les équipes du Dr. Caroff (U. Paris-Sud, Orsay) et du Pr. Zhao (U. Jiao Tong, Shanghai). Les expériences présentées ont été réalisées lors de séjours dans les deux laboratoires.Il a été démontré en Chine que des bactéries Sulfato-réductrices (SRB) à Gram négatif étaient présentes en plus forte proportion dans la flore intestinale chez les souris suivant un régime gras. Les mêmes résultats ont été observés chez l'homme. L’hypothèse selon laquelle des SRB seraient à l’origine de grandes quantités d’endotoxines chez les obèses et les patients diabétiques a été émise. Plusieurs souches de SRB isolées de la flore intestinale humaine d’un sujet sain et d’un sujet diabétique ont été cultivées en Chine. Des études de relation structure/activité des LPS isolés de ces bactéries ont été réalisées dans le laboratoire Français pour déterminer leur rôle dans le développement des maladies métaboliques. Les souches isolées des deux sujets ont pu être classées dans le genre Desulfovibrio. Les LPS correspondants ont été extraits et purifiés par des méthodes mises au point dans l’équipe d’Orsay. La structure chimique a été élucidée par les méthodes suivantes : Electrophorèse, Chromatographie sur couche mince, Chromatographie en phase gazeuse et Spectrométrie de masse MALDI. C’est ainsi que des spectres de masse ont été obtenus et que la structure des lipides A, principes actifs des LPS, isolés de SRB a été décrite pour la première fois. Les activités biologiques testées (TNFα, IL-6) varient en fonction du nombre d’acides gras présents. Les LPS de SRB du patient sain ont une structure variable (Smooth versus Rough) en fonction de la quantité de fer présent dans le milieu, et ceux isolés du patient diabétique présentent des structures atypiques qui ne sont pas toutes inflamogènes. Une molécule membranaire inconnue, que nous avons nommée « Glycosyl’X » était co-extraite avec les LPS. Elle joue apparemment un rôle important dans la croissance des SRB et a été étudiée après des étapes de purification complexes. Les structures et le pouvoir inflammatoire de ces molécules dont la structure varie avec les souches, et qui chélatent le fer, ont été étudiées. Elles sont de nature principalement osidique et fixées à la membrane. La proportion de ces molécules par rapport aux LPS varie avec la quantité de fer disponible dans le milieu. Un milieu riche en fer favorise la croissance des Desulfovibrio portant les Glycosyl’X qui n’ont pas de pouvoir inflammatoire eux-mêmes, mais entrent en compétition avec les LPS, modulant ainsi indirectement l’activité de ces derniers. L’augmentation du nombre de Desulfovibrio conduisant à l’augmentation des molécules Glycosyl’X pourrait aussi moduler positivement (par présentation) ou négativement (par élimination des bactéries) l’adsorption du fer dans les intestins dont l’équilibre est essentiel pour l’homéostasie métabolique.Par ailleurs, la croissance des Desulfovibrio augmente la production d’Hydrogène Sulfuré connu pour son action délétère sur les cellules. Nous favorisons l’hypothèse selon laquelle son action sur la disjonction des cellules épithéliales permettrait le passage des différents LPS relargués par la flore Gram-négative intestinale, et même des bactéries entières, vers la circulation sanguine. / Recent studies have highlighted the role of lipopolysaccharide (LPS) in the intestinal flora (gut microbiota) which could contribute to the inflammation process leading to obesity and type 2 diabetes. This thesis is part of a collaborative project between the laboratories of Dr. Caroff (U. Paris -Sud, Orsay, France) and Prof. Zhao (U. Jiao Tong , Shanghai, China). It has been shown by Pr.Zhao’s team in 2010 that the Sulfate -Reducing Bacteria (SRB) were presented in greater proportion in the intestinal mice flora following a fat diet compared to mice following a normal diet. The same results were observed in humans. The starting hypothesis was that SRB could produce a large amount of endotoxin in obese and diabetic patients and play a role in the development of metabolic diseases. Several SRB strains isolated from the human intestinal flora of a healthy subject and of a diabetic subject were grown in the Chinese laboratory. Studies of their LPS structure / activity relationships were carried out in the French laboratory. The aim of this study was to determine their roles in the development of metabolic diseases.Strains isolated from the two subjects could be classified in the Desulfovibrio genus. The corresponding LPS were extracted and purified by the methods developed in the French laboratory. The chemical structure was elucidated by the following methods: Electrophoresis, Thin layer chromatography, Gas chromatography and MALDI mass spectrometry. The mass spectra were obtained and the structure of lipid A, the active part of LPS isolated from SRB was described here for the first time. The biological activities test (TNFα, IL-6) vary depending on the number of fatty acids present in their lipid A structure. The LPS of SRB isolated from the healthy patient had a variable structure (Smooth versus Rough) depending on the amount of iron present in the medium, and those isolated from diabetic patients had atypical structures are not all inflamogenic .An unknown membrane molecule, which we named "Glycosyl'X" was co-extracted with the LPS. It apparently plays an important role in the growth of SRB was investigated after complex purification steps. The structures and the inflammatory power of these molecules variying with strains chelating iron were studied. They are mainly of glycosidic nature and linked to the bacterial membrane.The proportion of these molecules relatively to LPS varies with the amount of iron in the medium. An environment rich in iron promotes the growth of Desulfovibrio Glycosyl'X, molecules but competes with LPS and indirectly modulates the activity of the latter. The increase number of Desulfovibrio leading to increased Glycosyl'X molecules may also modulate positively (by presentation) or negatively (by killing bacteria) the absorption of iron in the intestines which balance is essential for metabolic homeostasis.Furthermore, the growth of Desulfovibrio increasing the production of Hydrogen Sulfide is known for its deleterious effects on the cells. We favor the hypothesis that its action on the separation of epithelial cells favors the passage of different LPS released by the Gram- negative of intestinal flora and even whole cell bacteria into the bloodstream.

SRB

LPS

Flore intestinale

Diabète

Obésité

Microdiversité

Endotoxines

ERIC-PCR

ARNr 16S

SDS-PAGE

IL-6/TNFα

MALDI

Lipide A

AraN

DHB

Kdo

Glycosyl'Xn

Fer

SRB

LPS

Gut microbiota

Diabetes

Obesity

Microdiversity

Endotoxin

ERIC-PCR fingerprinting

16S rRNA gene

SDS-PAGE

IL-6/TNFα

MALDI

Lipid A

AraN

DHB

Kdo

Glycosyl’Xn

Iron

Ταυτοποίηση ψευδομονάδων που απομονώνονται από το υδάτινο περιβάλλον με βιοχημικές, ηλεκτροφορητικές και μοριακές τεχνικές / Identification of pseudomonas isolated from the aquatic environment using biochemical, electrophoretic and molecular methods

Σαζακλή, Ελένη

28 June 2007

Τρεις ευρέως χρησιμοποιούμενες μέθοδοι τυποποίησης, μια βιοχημική (API20NE), μια φαινοτυπική (SDS-PAGE) και μια μοριακή (RAPD) χρησιμοποιήθηκαν για την ταυτοποίηση και ταξινόμηση 160 περιβαλλοντικών ψευδομονάδων που απομονώθηκαν από το υδάτινο περιβάλλον της Νοτιοδυτικής Ελλάδας και συγκεκριμένα από εμφιαλωμένα νερά (46%), νερά δικτύου ύδρευσης (16%), κολυμβητικών δεξαμενών (9%) και θαλασσών (29%). Οι ψευδομονάδες ταυτοποιήθηκαν με βάση το βιοχημικό τους αποτύπωμα δια μέσου του συστήματος ΑΡΙ20ΝΕ, και στη συνέχεια υποβλήθηκαν σε ηλεκτροφόρηση των ολικών πρωτεϊνών τους (SDS-PAGE) και σε ανάλυση του γενετικού τους υλικού με τη μέθοδο RAPD (Random Amplified Polymorphic DNAs) με χρήση δύο διαφορετικών δεκαμερών εκκινητών (primers). Το σύστημα API20NE ταυτοποίησε το 88% των στελεχών διακρίνοντας 14 ομάδες-είδη, ενώ η SDS-PAGE ταξινόμησε το 98.1% σε 20 ομάδες και η RAPD το 94% των στελεχών σε 22 και 34 ομάδες, με εκκινητή τον OPA-13 και τον OPD-13 αντίστοιχα. Η ταξινόμηση προέκυψε με εφαρμογή της ανάλυσης κατά συστάδες (cluster analysis) των αποτυπωμάτων (πρωτεϊνικών και γενετικών) που παρήγαγαν τα στελέχη. Τα 20 στελέχη που δεν ταυτοποιήθηκαν σε επίπεδο είδους με το API20NE, ταξινομήθηκαν με την SDS-PAGE σε ποσοστό 100%, ενώ με την RAPD σε ποσοστό 90%. Οι τρεις μέθοδοι συγκρίθηκαν ως προς την επαναληψιμότητα (reproducibility), την ικανότητα τυποποίησης (typeability) και τη διακριτική ικανότητα (discriminatory power). Την μεγαλύτερη επαναληψιμότητα έδωσαν το API20NE και η RAPD με τον εκκινητή OPA-13, την μεγαλύτερη ικανότητα τυποποίησης η SDS-PAGE, ενώ τη μεγαλύτερη διακριτική ικανότητα έδωσε η RAPD με τον εκκινητή OPD-13. Η πλέον σωστή ταξινόμηση, όπως προέκυψε από τη διακριτή ανάλυση, επιτεύχθη με τη μέθοδο SDS-PAGE. Η παρούσα εργασία αποδεικνύει ότι τα βιοχημικά συστήματα ταυτοποίησης (όπως το API20NE) μπορούν να χρησιμοποιηθούν με αξιοπιστία μόνο για αδρή αναγνώριση των περιβαλλοντικών ψευδομονάδων. Πληροφορίες σε βάθος για την ταυτότητα και τη φύση τους μπορούν να εξαχθούν με τη περαιτέρω εφαρμογή ηλεκτροφορητικών και μοριακών μεθόδων. Δεδομένης της ευρείας διασποράς, της ετερογένειας και της, έστω και δυνητικής, παθογόνου δράσης των ψευδομονάδων, είναι σημαντικό, από πλευράς δημόσιας υγείας, ο προσδιορισμός της ταυτότητάς τους να γίνεται με συνδυασμένη εφαρμογή βιοχημικών, ηλεκτροφορητικών και μοριακών μεθόδων ώστε να καθίσταται δυνατή η αναγνώριση στελεχών που μπορούν να αποτελέσουν αιτιολογικούς παράγοντες ασθενειών, ιδιαίτερα σε ομάδες υψηλού κινδύνου. / Three broadly used typing techniques, one biochemical (API20NE), one phenotypic (SDS-PAGE) and one molecular (RAPD), were employed for the identification and taxonomy of 160 environmental pseudomonas isolated from the aquatic environment in Southwestern Greece. In particular, the isolates were obtained from bottled waters (46%), potable waters (16%), waters from swimming pools (9%) and seawaters (29%). The isolates were identified by the system API20NE and then subjected to whole-cell protein electrophoresis (SDS-PAGE) and Random Amplified Polymorphic DNAs (RAPD) using two 10-mer primers. The API20NE system identified 88% of the whole bacterial population and classified them in 14 species, while SDS-PAGE classified 98.1% of the isolates in 20 groups and RAPD classified 94% of the strains in 22 groups using the primer OPA-13 and 34 groups using the primer OPD-13. The classification was achieved by applying cluster analysis in the protein or RAPD fingerprints of the isolates. Twenty isolates that could not be identified by the API20NE system, at least to the species level, were classified by the SDS-PAGE and the RAPD in a percentage of 100% and 90%, respectively. The reproducibility, typeability and discriminatory power of the three methods were compared to evaluate their application. The API20NE and the RAPD assay with primer OPA-13 showed better reproducibility in comparison with the other methods; the higher typeability was achieved by the SDS-PAGE assay while the higher discriminatory power was that obtained by the RAPD method with the primer OPD-13. The SDS-PAGE gave the higher percentage of “correctly classified” isolates, as it was assessed by discriminant analysis. This study shows that the rapid identification systems, such as the API20NE, may be reliable only for a rough characterization of environmental Pseudomonas. In order to acquire further information about their identities, other phenotypic and molecular techniques have to be applied. Given the ubiquity, heterogeneity and pathogenicity, either established or potential, of the environmental pseudomonas it is important, from a public health point of view, to monitor the identities of environmental Pseudomonas isolates using the combination of specific methods, so as to be possible for strains, which can serve as causative agents of diseases, especially in high risk population, to be recognizable.

Ψευδομονάδες

Μέθοδοι τυποποίησης

Ταυτοποίηση

Μοριακή μέθοδος (RAPD)

Ανάλυση κατά συστάδες

579.332

Pseudomonas

Environmental strains

Typing methods

Identification

Cluster analysis

Cryo-EM analysis of the pore form of CDC mitilysin

Halawi, Mira

January 2022

Cell cycle regulation is an important part for the detection and destruction of mutated and dysregulated cells as it is a natural protection against degenerative diseases and cancer. The ability of the body to detect and destroy these cells is a vital part in maintaining homeostasis in the body. Once cells have circumvented this line of defence, dismantling these cells would become very difficult.  Research into new ways to target and destroy mutated cells are constantly evolving in hopes of being able to control and direct lysis of target cells using therapeutic drugs. One of the possibilities for such a method are Cholesterol Dependent Cytolysins (CDC), specific proteins found in bacteria. These proteins are dependent on the ability to bind to cholesterol in cell-walls to form pores that lyse and effectively destroy cells.   This project aims to study the structure and mechanistic details of pore formation by CDC mitilysin using cryogenic electron microscopy (cryo-EM). Mitilysin was purified by affinity chromatography and its pore formation ability was confirmed by calcein release assay and hemolysis assay. The pore structures of mitilysin were observed by transmission electron microscopy (TEM) using liposomes composed of both 1,2-dioleoyl-sn-glycero-3-phosphocholine (DOPC) and cholesterol as model membranes. Detergent screening directed separation of pores from liposomes; so that they could be visualized by cryo-EM. While these steps were optimized and proven successful, they were time-consuming. An initial 3D-model of pore-structures was rendered, but no molecular characteristics could be determined at the end of the allotted time. The study does lay the ground steps for obtaining the complete structure of mitilysin pores.

Cryo-Em

CDC

cholesterol

mitilysin

cholesterol-dependent-cytolysin

SDS-Page

Liposome

hemolysis

Calcein

pores

lysis

protein

structure

Cryo-EM

mitilysin

kolesterol

struktur

protein

porer

kolesterol-beroende

seperation

mikroskopi

Natural Sciences

Naturvetenskap

Biological Sciences

Biologiska vetenskaper

Receptor mediated catabolism of plasminogen activators

Grimsley, Philip George, Medical Sciences, Faculty of Medicine, UNSW

January 2009

Humans have two plasminogen activators (PAs), tissue-type plasminogen activator (tPA) and urokinase-type plasminogen activator (uPA), which generate plasmin to breakdown fibrin and other barriers to cell migration. Both PAs are used as pharmaceuticals but their efficacies are limited by their rapid clearance from the circulation, predominantly by parenchymal cells of the liver. At the commencement of the work presented here, the hepatic receptors responsible for mediating the catabolism of the PAs were little understood. tPA degradation by hepatic cell lines was known to depend on the formation of binary complexes with the major PA inhibitor, plasminogen activator inhibitor type-1 (PAI-1). Initial studies presented here established that uPA was catabolised in a fashion similar to tPA by the hepatoma cell line, HepG2. Other laboratories around this time found that the major receptor mediating the binding and endocytosis of the PAs is Low Density Lipoprotein Receptor-related Protein (LRP1). LRP1 is a giant 600 kDa protein that binds a range of structurally and functionally diverse ligands including, activated α2 macroglobulin, apolipoproteins, β amyloid precursor protein, and a number of serpin-enzymes complexes, including PA??PAI-1 complexes. Further studies for the work presented here centred on this receptor. By using radiolabelled binding assays, ligand blots, and Western blots on cultured cells, the major findings are that: (1) basal LRP1 expression on HepG2 is low compared to a clone termed, HepG2a16, but appears to increase in long term culture; (2) a soluble form of LRP1, which retains ligand-binding capacity, is present in human circulation; (3) soluble LRP1 is also present in cerebral spinal fluid where its role in neurological disorders such as Alzheimer??s disease is a developing area of interest; and (4) the release of LRP1 is a mechanism conserved in evolution, possibly as distantly as molluscs. The discovery, identification, and characterisation of soluble LRP1 introduces this protein in the human circulation, and presents a possible further level of regulation for its associated receptor system.

LRP1

Soluble receptor

Soluble LRP1

Radioisotopes

Western blotting

Tissue-type plasminogen activator

Monoclonal antibodies

Recombinant protein production

SDS-PAGE electrophoresis

Flow cytometry

Ligand blotting

tPA

Urokinase-type plasminogen activator

Alzheimer's disease

uPA

Clearance

Endocytosis

Degradation

Evolutionary conservation

HepG2 hepatoma cell line

Plasminogen activator inhibitor type-1

PAI-1

Serpin enzyme complexes

Fibrinolysis

Atherosclerosis

Vascular biology

Design, expression and purification of virus-like particles derived from metagenomic studies : Virus-like Particles (VLP) of novel Partitiviridae species, Hubei.PLV 11, and novel Soutern pygmy squid flavilike virus were designed, expressed using the bac-to-bac expression system and then pruified using various methods

Ayranci, Diyar

January 2021

Viruses are entities which are made of a few genes and are reliant on obligate parasitism to propagate. Due to the obligate connection to their hosts, virus evolution is constrained to the type of host. Viruses however do transmit to evolutionary distinct hosts; in these cases, the phylogenetic relationship of the hosts usually are close. In some instances, RNA-viruses have made host jumps between evolutionary distant hosts, such as the host jump from invertebrates to vertebrates, and fungi to arthropod. Partitiviruses are double stranded RNA viruses which mainly infect fungi and plants. The defining characteristic of these double stranded RNA viruses are the double layered capsids which are formed by a single open reading frame (ORF). The capsid proteins form icosahedral virus particles which are in the magnitude of 30-40 nm. Metagenomic studies have discovered partitiviruses originating from an insect in the Odanata family, a finding which contradicts the fungal host specificity of partitiviruses. The finding of the Hubei.PLV 11 thus implies the existence of a partitiviruses containing structural elements in their capsids which could be involved in the infection of arthropods. Thus, this virus could be used as a model for a structural comparison with its fungi infecting relatives with hopes to identify common viral structural factors necessary for the infection of arthropods. For this purpose, the Hubei.PLV ORF was cloned and then transfected into insect Spodoptera frugiperda (Sf-9) cells using a baculovirus expression system, “bac-to-bac” expression system. The FLAG-tagged capsid proteins were expressed by the Sf-9 cells to be approximately 60 kDa. After ultra-centrifugation in a sucrose gradient, some spontaneous assembly into the expected ~40 nm icosahedral virus-like particles were observed using low resolution scanning electron microscopy. The observed particles were also confirmed by a dynamic light scattering experiment (DLS) and a higher resolution cryo-EM microscope. Thus, the bac-to-bac expression system can be used to produce VLPs from this genus of viruses, and this metagenomically derived virus genome. However, for future success in defining a high-resolution model of this virus, it is recommended that the Sf-9 culture volume is sufficiently high for enough particle production which is necessary for a high-resolution map. The other virus, the Southern pygmy squid Flavilike virus (SpSFV) has been suggested to be the oldest relative of the land based flaviviruses. The SpSFV was found to be the most divergent of the flaviviruses, and to infect invertebrates. Solving for the structure of the SpSFV and comparing it to vertebrate infecting flaviviruses could therefore lead to the identification of factors necessary for the adaptation to vertebrates and thus the humoral immunity by flaviviruses. The soluble E-protein was expressed using the bac-to-bac expression system. The protein was indicated to be multiglycosylated and approximately 50 kDa which is in line with other strains in the genus. Affinity chromatography did not elute this protein, likely due to the His-tag not being spatially available. Cation exchange could elute some protein, but not much from the small ~30 mL culture. To conclude, VLP assembly was confirmed by the Hubei.PLV, thus, solving for the structure is a distinct possibility when a larger Sf-9 culture is used to produce the VLPs. For the SpSFV soluble E-protein, the protein is secreted into the supernatant of the Sf-9 cultures, making purification a possibility. For this, a large Sf-9 culture can be used to produce this protein and then purify it with a cat-ion exchange chromatography.

Virus

virus-like particles

VLP. Western Blot

SDS-PAGE

Chromatography

partitivrus

partitiviridae

flaviviridae

flavivirus

Hubei partitilike virus

Southern Pygmy Squid flavilike virus

protein purification

protein characterization

PCR

Cloning

metagenomic

strucutral biology

cryo-em

bac-to-bac expression system

vaccines

arbovirus

arthropod-borne virus

Immunology

Immunologi

Structural Biology

Strukturbiologi

Biophysics

Biofysik

Microbiology

Mikrobiologi

Other Biological Topics

Annan biologi

Proteomická identifikace enzymů degradující rostlinnou biomasu / Proteomics based approach for identification of enzymes degrading the plant biomass

Romanová, Kristýna

January 2011

The theoretical part of work is focused on the issue of biomass which can be used for energy purposes, inparticular agricultural waste, as well as can serve as a substrate for biogas station. It also deals with proteomics, its goals and approaches, separation methods. The aim of this work was to measure each sample of enzyme activity of biomass, which are used as a raw materials for biogas plants and their proteomic identification.

Studium deficitu lidské F1Fo-ATPsyntázy / Human F1Fo-ATPsynthase deficiency

Suldovská, Sabina

January 2010

F1FO-ATPsynthase is a key enzyme in energy metabolism of the cell. Its deficit is caused usually by mutations in two structural genes MT-ATP6 and MT-ATP8 encoded by the mitochondrial DNA or in nuclear genes ATPAF2 and TMEM70 encoding the biogenesis factors and structural gene ATP5E. Deficiency of the F1FO-ATPsynthase leads to progressive and serious phenotype affecting organs with high energy demands. The first symptoms usually occurs in neonatal age and prognosis of the disease is fatal. Mutations in these genes result in both qualitative and quantitative defects of the F1FO-ATPsynthase. The study of molecular bases of mitochondrial disorders including F1FO-ATPsynthase deficiency uses large number of biochemical and molecular-genetic methods to determine a proper diagnosis which is essential for the symptomatic therapy and genetic counselling in affected families. The aim of the diploma thesis was to characterise the F1FO-ATPsynthase deficiency in isolated mitochondria from the lines of cultured cells by the determination oligomycin- sensitive ATP-hydrolytic activity of the F1FO-ATPsynthase, enzymatic activities of the respiratory chain complexes and to analyse changes in the steady-state levels of the representative subunits and whole complex of the F1FO-ATPsynthase in comparison with controls. 3...