Úloha oxidačního stresu v jaterní kancerogenezi. / The role of oxidative stress in hepatocarcinogenesis.

Kubíčková, Kristýna

January 2020

This thesis focuses on the importance of heme catabolic pathway in hepatic carcinogenesis. Hepatocellular carcinoma (HCC) is the most common primary malignant liver tumour. It is primarily caused by hepatic cirrhosis or chronic viral hepatitis. Hepatic carcinogenesis is associated with increased oxidative stress. Thus, our study aimed to assess the expression of the genes involved in the homeostasis of oxidative stress in patients with HCC. The study was performed on patients with primary HCC (n = 29) and control subjects (n = 11), gene expressions of heme oxygenase 1 (HMOX1), biliverdin reductase A/B (BLVRA/B), endothelial growth factor (VEGFA), NADPH oxidase 2 (NOX2) and p22phox were analyzed in the liver tissue; the identical gene expressions were analyzed in peripheral blood leukocytes (PBL) in HCC patients (n = 32) and in healthy controls (n = 27). Expression of BLVRA in liver tissue and PBL was significantly increased in cancer patients, as was NOX2 expression in PBL. Expression of VEGFA in liver tissue and PBL was significantly decreased in cancer patients. The expression of the other genes studied did not differ between HCC patients and controls. These data are consistent with the results of our previous study on patients with chronic hepatitis C, in which BLVRA expression was also...

Les relations sol/plantes en forêts méditerranéennes : approche bioclimatique des déterminants de la structuration fonctionnelle des communautés microbiennes des sols et de leurs réponses à un double stress hydrique et thermique en région provençale calcaire / Soil-plant relationships in Mediterranean forests : bioclimatic assessment of the driving factors of soil microbial community functional structure and response to a water and thermic stress in limestome-based Provence area

Pailler, Alexia

18 December 2013

En contexte forestier méditerranéen au sein de la région provençale calcaire (sud de la France), les relations sol/structure fonctionnelle catabolique des communautés microbiennes/communautés végétales ont été abordées selon différentes échelles bioclimatiques : un gradient latitudinal et altitudinal, et une échelle écosystémique restreinte à différentes séries de chênes pubescents. Ces travaux ont permis d’estimer les contributions respectives (et de leurs interactions) de la structure et de la composition de la végétation et des variables abiotiques dans la détermination des propriétés fonctionnelles des communautés microbiennes des sols. Dans le contexte des changements climatiques globaux, cette même stratégie a été mise en œuvre pour estimer les incidences, sur les potentiels cataboliques et les profils fonctionnels, d’un double stress hydrique et thermique ex situ, mimétique d’une vague de chaleur. Pour les diverses échelles spatiales, nos résultats ont mis en évidence la prépondérance de la part d’interaction entre la végétation et les variables abiotiques épigées et hypogées dans la structuration fonctionnelle des communautés microbiennes. Suite au stress, une diminution globale de leurs potentiels cataboliques a pu être observée. Néanmoins, nos résultats ont révélé une robustesse différentielle des relations entre la végétation et la structure fonctionnelle des communautés microbiennes selon le stade d’évolution de la végétation et de la nature des espèces constitutives de ces formations au niveau de leur dynamique d’occupation spatiale. Ceci pourrait atténuer ou exacerber les effets du réchauffement climatique sur les écosystèmes forestiers méditerranéens. / In Mediterranean forest ecosystems in the limestome-based Provence area (south of France), soil-microbial community functional catabolic structure-vegetation relationships were assessed based on different bioclimatic scales, across a latitudinal gradient, an elevation gradient, and at a restricted ecosystemic scale focusing on Pubescent oak forest stands. The respective parts (and their interactions) of the vegetation composition and structure and the abiotic variables in their functional profiles were investigated. Furthermore, in the context of climate change, this same strategy was used to investigate the effects of an ex situ water and thermic stress, mimetic to a heatwave event on microbial community catabolic potentials and functional profiles. For all the considered scales, our results highlighted the major part of the interactions between vegetation and abiotic aboveground-belowground variables in the determination of soil microbial community functional structure. Drought induced a decrease in their potential catabolic activities. Nevertheless, our results revealed a varying robustness of the interactions between vegetation and soil microbial functional structure based on the dynamic step of the evolution of the forest stands and on the type of their constitutive species. This may mitigate or exacerbate climate change effects on Mediterranean forest ecosystems.

Peuplements forestiers méditerranéens

Relations sol/plantes et plantes/sol

Activités cataboliques microbiennes

Structuration fonctionnelle

Stress hydrique et thermique

Mediterranean forest stands

Soil-plant and plant-soil relationships

Microbial catabolic activities

Functional structure

Water and thermic stress

Caractérisation et facteurs structurants des fonctions microbiennes des sédiments de la zone intertidale en Guyane française : des vasières estuariennes aux mangroves matures / Characterization and structuring factors of microbial functions of sediments from the intertidal zone in French Guiana : from estuarine mudflats to mature mangroves

Luglia, Mathieu

01 October 2014

En contexte équatorial, les sédiments intertidaux sont colonisés par un continuum écologique allant de vasières en cours de stabilisation à des sols colonisés par divers faciès de mangroves. Les fonctions microbiennes édaphiques de ces écosystèmes sont méconnues. Ces recherches ont donc eu pour objectif de définir les facteurs de contrôle et de variabilité spatio-temporelle des fonctions microbiennes des milieux estuariens et littoraux de Guyane française. Elles ont été conduites sur divers stades de colonisation biologique de ces habitats et à diverses échelles spatio-temporelles en tenant compte du rôle de l'instabilité hydro-sédimentaire et des variabilités induites par les saisons hydro-climatiques. Différents facteurs pouvant influencer les fonctions microbiennes ont été considérés : i) la qualité chimique (RMN solide du 13C) de la MOS en fonction de la composition des formations végétales et de leurs stades de développement ; ii) les caractéristiques physico-chimiques des sédiments et des eaux interstitielles en fonction de la localisation des divers faciès de mangroves. Les résultats ont mis en évidence l'importance des instabilités hydro-sédimentaires dans la mise en place et la structuration des fonctions microbiennes sédimentaires de Guyane. En outre, pour les différents modèles étudiés, les facteurs de structuration sont apparus variables. Néanmoins, la MO, en termes de quantité et de qualité, s'est révélée être un facteur prépondérant pour l'expression de ces fonctions des stades allant de la vasière nue à la jeune mangrove. En revanche, il est apparu plus difficile de discerner des facteurs structurants génériques pour les divers faciès de mangroves matures. / Under equatorial conditions, coastal sediments of intertidal mudflats form an ecological continuum, from bare mud being stabilized to soil settled by various mangrove facies. Edaphic microbial functions of terrestrial ecosystems are extensively documented; on the contrary, this is not the case with regards to sedimentary environment. This study had the main objective defining the drivers of the spatiotemporal variability of microbial functions (aerobic respiration, metabolic diversity, and enzyme activities) in coastal sediments of French Guiana. These researches were carried out according to biological colonization states (mudflats, pioneer and mature mangroves) and using various spatiotemporal scales considering the fundamental role of the hydro-sedimentary instability and potential variability due to hydro-climatic seasons. Different factors which can influence microbial functions were studied: i) the chemical quality (13C solid-state NMR) of OM with respect to vegetation presence and composition, and its development state; ii) the physicochemical characteristics of sediments and porewaters according to localization and topography of the different mangrove facies. Generally, results showed the importance of hydro-sedimentary instability for the establishment and structuring of microbial functions. Moreover, giving the different models, structuring factors were variables. However, OM, in terms of quantity and quality, was overriding for the expression of these functions and this was true for the evolution states from mudflat to young mangrove. By contrast, it appeared much more difficult discerning generalizable drivers for mature mangroves.

Activité catabolique

Activité enzymatique

Diversité fonctionnelle

Estuaire

Guyane française

Mangrove

Matière organique

Rhizosphère

Sédiment

Vasière

Catabolic activity

Enzyme activity

Functional diversity

Estuary

French Guiana

Mangrove

Organic matter

Rhizosphere

Sediment

Mudflat

Control and function of two ferrochelatase isoforms in Arabidopsis thaliana

Fan, Tingting

18 March 2019

Die Tetrapyrrol-Biosynthese der Pflanzen ist ein hoch konservierter Prozess, indem sich die Häm- und Chlorophyllsynthese gemeinsame Syntheseschritte von der 5-Aminolävulinsäure (ALA)- bis hin zur Protoporphyrin IX (Proto)-Bildung teilen. Zur Hämsynthese sind in Arabidopsis thaliana zwei Isoformen der Ferrochelatase (FC) vorhanden, welche die Insertion von Eisenionen in Proto katalysieren. In dieser Arbeit wurden fc1 und fc2 Mutanten analysiert und für Komplementationsversuche mit nativen und modifizierten FC1/FC2-Sequenzen genutzt. Die in der fc1-2 Mutante gestörte Embryonalentwicklung infolge des FC1 Mangels konnte durch Expression eines pFC1::FC1 Genkonstruktes komplementiert werden. Die Expression von FC2 unter dem FC1 Promoter (pFC1::FC2) konnte die fc1-2 Mutante unter Standard-Wachstumsbedingungen vollständig komplementieren, jedoch nicht unter Salzstress. Zusätzlich zu den Komplementationsversuchen der fc1 Mutanten wurde auch eine fc2 Null-Mutante zur Expression der beiden genomischen FC Sequenzen herangezogen, um die spezifischen Funktionen der FC2-Varianten zu untersuchen. Während die pFC1FC2 (fc2/fc2) Pflanzen unter Dauerlicht eine vollständige Komplementation zeigten, konnte unter Kurztagbedingungen nur eine partielle Komplementation beobachtet werden. Versuche geben erste wichtige Hinweise, dass auch FC2 an der Regulation der ALA-Synthese infolge ihrer Interaktion mit PORB beteiligt ist. Dies deutet darauf hin, dass der Häm- und der Chlorophyllzweig eine gemeinsame Regulation der ALA-Synthese teilen, um das Gleichgewicht der TBS zu wahren. Neben der Funktion der FC2 in der Regulation der TBS konnte die vorliegende Arbeit ebenfalls die Rolle der FC2 in der Assemblierung der PSII-LHCII Superkomplexe offenlegen. Basierend auf den Ergebnissen, dieser Studie können Modelle für die funktionale Verteilung der beiden FC-Isoformen in unterschiedlichen Geweben und Entwicklungsstadien, sowie die Funktionen in verschiedenen biologischen Prozessen postuliert werden. / In plants, heme and chlorophyll synthesis share the common synthetic steps from 5- aminolevulinic acid (ALA) formation to Protoporphyrin IX (Proto) production in the conserved Tetrapyrrole biosynthesis (TBS) pathway. Arabidopsis thaliana utilizes two ferrochelatses (FC) to catalyse the insertion of ferrous iron into Proto to yield heme. In this study, the fc1 and fc2 defective mutants have been re-analysed and used for complementation tests with expression of a native or modified FC1/FC2 sequence. The pFC1FC1 (fc1/fc1) complementation plants confirmed that the defective embryo maturation in homozygous fc1-2 seeds is attributed to a lack of FC1. Expression of FC2 under the FC1 promoter contributed to a full complementation of fc1-2 under standard growth conditions, but not under salt stress. A fc2 null mutant has been used to express the two FC genomic sequences to substantiate the specific functions of FC2. Expression of FC2 under its own promoter was able to rescue fc2-2 mutants under both SD and CL conditions. However, pFC2FC1 (fc2/fc2) plants showed a partial complementation under SD condition. Via multiple interaction assays and mutant analyses, this thesis uncovered a mechanism of FC2 action on ALA synthesis regulation via interaction of FC2 and PORB. The results indicate that both branches of heme and chlorophyll synthesis share a common regulation to balance the TBS pathway. Apart from a role of FC2 involved in the regulation of TBS pathway, the presented study also revealed FC2 function in the assembly of the PSII-LHCII supercomplexes. Based on all the results obtained in this study, the functional distribution models of the two FC in different tissues and development stages, as well as diverse biological processes, have been proposed. In addition, to which extent that FC1/FC2 could compensate the function of the other isoform has been discussed.

Ferrochelatase

Embryo-Entwicklung

Salzstress

Tetrapyrrol-Biosynthese

ALA-synthese

Chlorophyll-katabolische Enzyme

PSII-LHCII Superkomplexe

ferrochelatase

embryo development

salt stress

tetrapyrrole synthesis

ALA synthesis

chlorophyll catabolic enzymes

PSII-LHCII supercomplexes

570 Biowissenschaften; Biologie

ddc:570

Harnessing the anabolic properties of dark respiration to enhance sink activity at elevated CO2 using Arabidopsis thaliana L. with partially-suppressed mitochondrial pyruvate dehydrogenase kinase

Weraduwage, Sarathi

17 May 2013

Sink limitations in plants reduce the potential for photosynthesis and yield, particularly under conditions that favour enhanced source activity such as elevated CO2 (EC). Dark respiration, considered catabolic, has rarely been exploited to enhance sink activity in plants. Arabidopsis thaliana L. lines with partially-suppressed mitochondrial pyruvate dehydrogenase (mtPDH) kinase (mtPDHK), a negative post-translational regulator of the mtPDH complex, was shown previously to have both elevated mtPDH complex activity and increased seed weight and oil content at ambient CO2 (AC), suggesting an enhancement of sink activity. The mtPDH links glycolysis with the tricarboxylic acid (TCA) cycle. It was hypothesized that Arabidopsis having suppressed mtPDHK will display their greatest plant productivity at EC through a combined enhancement of source and sink activities. Control and transgenic Arabidopsis having either constitutive or seed-specific expression of antisense mtPDHK were grown at either AC or EC. Expression of mtPDHK and mtPDH complex activity in rosette leaves and reproductive tissues were measured, which required the development of an assay to quantify mtPDH activity. Vegetative and reproductive growth over time, seed oil parameters, and leaf net C exchange were also quantified. A parabolic relationship was found between mtPDHK expression and mtPDH activity, reflecting a role for mtPDH in balancing photosynthetic and respiratory processes. A number of growth and seed oil parameters were improved in transgenic lines, particularly at EC; many of these parameters showed a significant linear or quadratic correlation with mtPDHK expression and mtPDH activity. The proportion of very long chain fatty acids was increased in transgenic lines. Leaf net C exchange was enhanced at AC and EC, and particularly in lines showing repression of mtPDHK. The greatest enhancement in total seed and oil productivity was found for the constitutive lines 104 and 31 at EC (up to 2.8 times). These two lines exhibited a significant increase in inflorescence size, an increase in leaf water use efficiency, the lowest rate of mtPDH complex inactivation by ATP, and an intermediary enhancement of mtPDH complex activity in seeds. Thus, it is concluded that the mtPDH plays a key role in regulating sink and source activities in plants. / Natural Sciences and Engineering Research Council (NSERC) through the Green Crop Networks Research Network; Ontario Graduate Scholarship; Syngenta Graduate Scholarship; Ball Farm Services and Agrico Canada Ltd. Scholarship; Mrs. Fred Ball Scholarship; Arthur D. Latornell Scholarship; Hoskins Scholarship; Robb Travel Grant; Registrars and the Deans Scholarship and travel awards and bursaries from the University of Guelph, and the Ontario Agricultural College.

Anabolic

Catabolic

Sink activity

Source activity

Mitochondrial pyruvate dehydrogenase

Elevated CO2

Dark respiration

TCA cycle

Arabidopsis thaliana

Oil synthesis

Fatty acid synthesis

Photosynthesis

Harvest index

Katabolická dráha hemu u chronické hepatitidy C / The Heme Catabolic Pathway in Chronic Hepatitis C

Subhanová, Iva

January 2013

This thesis focuses on the importance of the heme catabolic pathway in chronic hepatitis C (HCV). The aim is mainly to investigate, whether expresion/activity of key enzymes of the heme catabolic pathway, heme oxygenase (HMOX) and biliverdin reductase (BLVRA) in the liver and blood (study A) or promoter variations of HMOX1 and UDP- glucuronosyltransferase (UGT1A1) (study B) may be associated with the progression of fibrosis and may also predict antiviral treatment outcome in patients chronically infected with HCV. We set up a new sensitive method to quantify HMOX activity by reduction gas chromatography. We developed and extensively validated RealTime PCR assay for HMOX and BLVRA expression in the liver and peripheral blood leucocytes (PBL). The (GT)n and (TA)n dinucleotide variations in HMOX1 and UGT1A1 gene promoters, respectively, were determined by fragment analysis. No association was detected between either expression of HMOX/BLVRA or the HMOX1/ UGT1A1 promoter variants and the individual histological stages of liver disease in the HCV positive patients. A marked difference in BLVRA expression in PBL between the sustained responders (SVR) and patients with treatment failure (NVR) was detected before antiviral treatment and during the follow-up. Our data suggests, that BLVRA basal expression...

Studies on the Evolution of Aromatic Beta-Glucoside Catabolic Systems under Different Stress Conditions in Escherichia coli

Zangoui Nejad Chahkootahi, Parisa

January 2014

The genetic systems involved in the utilisation of aromatic β-glucosides in E. coli consist of the bgl, asc, and chb operons and the locus bglA encoding phospho-β-glucosidase A. The bgl and asc operons are known as cryptic or silent systems since their expression is not sufficient for utilisation of these sugars in wild type strains of E. coli. Their transcriptional activation by different classes of mutations confers a Bgl+ phenotype to the mutant. The maintenance of cryptic genes without accumulating deleterious mutation in spite of being silent is an evolutionary puzzle. Several observations have suggested the possibility that these genes may be expressed under specific physiological conditions conferring a fitness advantage to the organism. The main aim of this study was to investigate the possible role of aromatic β-glucoside catabolic systems of E. coli in combating nutrient stress and microaerobic growth conditions. The results presented in Chapter 2 address the evolution of aromatic β-glucoside catabolic systems when exposed to a novel β-glucoside as the sole substrate. The results indicate that the bgl opeon, the primary system involved in the utilisation of the aromatic β-glucosides arbutin and salicin, is also involved in esculin utilisation. In the absence of bglB encoding the enzyme phospho-β-glucosidase B, activation of the silent asc operon enables esculin utilisation. The bglA gene encoding phospho-β-glucosidase A specific for arbutin, can undergo successive mutations to evolve the ability to hydrolyse esculin and salicin sequentially when bglB and ascB are absent. The Esc+ and Sal+ mutants retain their arbutin+ phenotype, indicating that the mutations enhance the promiscuity of the enzyme. Sequencing data indicate that the first step Esc+ mutant carries a four base insertion within the promoter of the bglA gene that results in enhanced transcription of bglA. RT-PCR studies confirm that both the steady-state levels as well as the half-life of the bglA mRNA are enhanced in the mutant. This is further corroborated by the observation that overexpression of wild type bglA in the parent strain using a multicopy plasmid confers an Esc+ phenotype. The second step Sal+ mutant carries a point mutation within bglA ORF, a thymine to guanine transversion at position 583 (T583G) of the bglA gene, resulting in an amino acid change from cysteine to glycine at position 195 (C195G) of the BglA ORF close to the active site. Presence of a plasmid carrying the T583G mutation, introduced by site-directed mutagenesis, results in a Sal+ phenotype, confirming the role of the transversion in conferring the Sal+ phenotype. Based on docking studies, the positioning of salicin into the substrate binding site of the mutant BglA enzyme is different compared to wild type BglA due to the loss of stearic hindrance for the binding of salicin when C195 is replaced by the smaller amino acid glycine in the mutant protein. These observations indicate that under conditions of nutrient deprivation, exposure to novel substrates can result in the evolution of new metabolic capabilities by the sequential modification of a pre-existing genetic system. In the case of one novel substrate, the mutation results in the overexpression of the hydrolytic enzyme, while in the case of the second substrate, a mutation close to its active site increases its substrate specificity. Results presented in Chapter 3 specifically deal with the involvement of the bgl operon under low levels of oxygen. Earlier observations have shown that there is a 22 fold enhancement in the expression of the bgl operon under anaerobic condition. The present results provide evidence that bgl expression has a physiological role under low levels of oxygen and in addition suggest a possible mechanism for the overexpression of the bgl operon that involves the ArcAB two component system known to mediate regulation under microaerobic and static conditions. Transcription studies using a lacZ reporter fused to the wild type bgl promoter show that there is enhanced transcription from the bgl promoter under microaerobic and static conditions in the presence of arcA encoding the response regulator compared to that in its absence. The positive effect of arcA on the expression of the bgl operon is dispensable in the absence of H-NS since presence or absence of arcA does not change the expression of the bgl operon in an hns-null background, implying that the involvement of ArcA is via antagonizing H-NS. Competition experiments indicate that there is growth advantage associated with the activated allele of the bgl operon under low levels of oxygen since Bgl+ strains carrying the activated allele of the bgl operon as well as strains expressing BglG constitutively can out-compete wild-type strains. Presence of the wild type arcA allele results in a strong growth advantage compared to its absence under static conditions but not aerobic condition. The bgl operon seems to be one of the possible downstream targets of ArcA under static condition since absence of the bgl operon results in a modest reduction of the growth advantage (GASP) phenotype conferred by arcA. The up-regulation of the bgl operon is likely to enable the cells to scavenge available nutrients from their niche more efficiently. These experiments also show that the GASP phenotype associated with BglG constitutive strains under static conditions involves downstream genes that are different from oppA known to be one of the downstream targets during aerobic growth. It is possible that under low level of oxygen, the bgl operon is regulating a different set of downstream genes involving a different mechanism. In summary, the results of this investigation show that the aromatic β-glucoside catabolic systems in E. coli play a role in the generation of new metabolic capabilities via mutations in pre-existing genetic systems as well as through changes in gene expression patterns. The mechanisms outlined in this study are likely to be of broader significance applicable to microbial evolution under stress in general.

Microorganisms - Evolution

Beta-Glucosides

Escherichia Coli - Bgl Operons

Bacteria - Evolution

Bacterial Genetics

β-glucosides

bgl Operon

asc Operon

chb Operon

bglA Gene

ArcA

gcvA

Bacteriology