Characterization of Histone H3 Lysine 18 deacetylation during infection with Listeria monocytogenes

Eskandarian, Haig Alexander

05 June 2013

Bacterial pathogens dramatically affect host cell transcription programs for their own profit, however the underlying mechanism in most cases remain elusive. While investigating the effects of listeria monocytogenes on histone modifications, we discovered a new transcription regulatory machanism by which the expression of genes is repressed, during infection. Upon infection by L. monocytogenes, the secret virulence factor, InlB, binds the c-Met receptor and activates signaling through PI3K/Akt. This signaling platform is necessary for causing the relocalization of the histone deacetylase, SIRT2, to the nucleus and associating to chromatin.In characterizing the mechanism governing SIRT2 nuclear relocazing during infection, our results have demonstrated that SIRT2 undergoes a post-translational modification. SIRT2 undergoes dephosphorylation at a novel N-terminal phospho-site. SIRT2 is recruiter to the transcription star sites of genes repressed during inection leading to H3K18 deacetylation and transcriptional repression.finnaly, my results demonstrate that SIRT2 is hijacked by L monocytogenes and promotes an increase in intracellular bacteria. Together, these data uncover a key role for SIRT2 mediated H3K18 deacetylation during infection and characterize a novel mechanisme imposed by a pathogenic bacteriomto reprogram the host cell.

Host-Pathogen Interactions

Listeria monocytogenes

Infection

Histone modifications

Histone H3

Histone H3 K18

Acetylation

Deacetylation

Histone Deacetylase

Sirtuin

SIRT2

Met

PI3K

Akt

Signalling

Epigenetics

Transcriptional Control

Rôle de la ghréline dans la régulation du coactivateur transcriptionnel PGC-1alpha

Keil, Sarah

12 1900

L’adaptation de l’organisme à son environnement est essentielle à sa survie. L’homéostasie énergétique permet l’équilibre entre les apports, les dépenses et le stockage d’énergie. Un surplus calorique important dérègle ce processus et mène au développement du syndrome métabolique caractérisé, entre autres, par une obésité, un diabète de type II, des maladies cardiovasculaires et des dyslipidémies. La ghréline participe au maintien de l’équilibre énergétique durant le jeûne en stimulant la production de glucose par le foie et le stockage lipidique dans le tissu adipeux. Le coactivateur transcriptionnel PGC-1alpha, surexprimé en situation de jeûne, est impliqué dans l’induction de la production de glucose par le foie et l’oxydation des acides gras. Notre hypothèse est que ces deux acteurs clés du métabolisme énergétique constituent un axe de régulation commun. Dans cette étude, nous montrons que la ghréline participe à la régulation de PGC-1alpha. Son récepteur GHS-R1a, possédant une forte activité constitutive, est également impliqué de façon indépendante au ligand. GHS-R1a réduit l’activité transcriptionnelle de PGC-1alpha tandis que l’ajout du ligand inverse modérément cette action. L’effet de GHS-R1a corrèle avec l’acétylation de PGC-1alpha qui est fortement augmentée de façon dose-dépendante. La stabilité de PGC-1alpha est également augmentée par le GHS-R1a indépendamment de l’ubiquitine. La ghréline diminue la capacité de PGC-1alpha à lier PPARbeta, un récepteur nucléaire partenaire de PGC-1alpha. De plus, la ghréline réduit, de façon ligand-dépendante, la capacité de coactivation de PGC-1alpha sur PPARbeta dans les hépatocytes. L’ensemble de ces résultats identifie PGC-1alpha comme cible du signal de la ghréline et suggère un axe de régulation ghréline/PGC-1alpha/PPARbeta.Une meilleure compréhension de cet axe de régulation va permettre la mise en évidence de nouvelles cibles thérapeutiques pour faire face aux pathologies associées au syndrome métabolique. / The adaptation of an organism to its environment is essential to its survival. Energy homeostasis is defined as the balance between intakes, expenses and storage of energy. An excess of calories disrupts this process and leads to the development of the metabolic syndrome that is characterized by obesity, type II diabetes, cardiovascular diseases and dyslipidemia. During fasting, ghrelin participates in the maintenance of energy balance by stimulating hepatic production of glucose and lipid storage in adipose tissue. The transcriptional coactivator PGC-1alpha is overexpressed in the liver during fasting and is involves in the induction of the hepatic glucose production and fatty acid oxidation. Our hypothesis is that these two key performers in the energy metabolism constitute a common axis control. In this study, we show that ghrelin plays a role in the regulation of PGC-1alpha. The ghrelin receptor GHS-R1a is also involved because of its strong constitutive activity in absence of ligand. We found that GHS-R1a inhibited PGC-1alpha transcriptional activity whereas adding ghrelin to cells moderated this effect. PGC-1alpha activation by GHS-R1a correlated with a dose-dependent increase of PGC-1alpha acetylation. The stability of PGC-1alpha was also increased by ghrelin receptor in a manner involving the ubiquitin-independent proteasome pathway. Ghrelin decreased the ability of PGC-1alpha to bind to PPARbeta, one of its nuclear receptor partners. Furthermore, ghrelin decreased the ability of PGC-1alpha to coactivate PPARbeta in a ligand-dependent manner in hepatocytes. Together, these results identify PGC-1alpha as a metabolic target of GHSR-1a signaling and defines a new regulatory axis involving ghrelin/PGC-1alpha/PPARbeta in hepatocytes. A better understanding of this regulation axis will provide novel aspects in therapeutic targeting of diseases associated with the metabolic syndrome.

PGC-1alpha

GHS-R1a

Ghréline

Coactivateur transcriptionnel

Récepteurs nucléaires

PPARbeta

PGC-1alpha

GHS-R1a

Ghrelin

Nuclear receptors

Transcriptional coactivator

Metabolic syndrome

Syndrome métabolique

PPARbeta

Functional Genetic Analysis Reveals Intricate Roles of Conserved X-box Elements in Yeast Transcriptional Regulation

Voll, Sarah

13 November 2013

Understanding the functional impact of physical interactions between proteins and DNA on gene expression is important for developing approaches to correct disease-associated gene dysregulation. I conducted a systematic, functional genetic analysis of protein-DNA interactions in the promoter region of the yeast ribonucleotide reductase subunit gene RNR3. I measured the transcriptional impact of systematically perturbing the major transcriptional regulator, Crt1, and three X-box sites on the DNA known to physically bind Crt1. This analysis revealed interactions between two of the three X-boxes in the presence of Crt1, and unexpectedly, a significant functional role of the X-boxes in the absence of Crt1. Further analysis revealed Crt1- independent regulators of RNR3 that were impacted by X-box perturbation. Taken together, these results support the notion that higher-order X-box-mediated interactions are important for RNR3 transcription, and that the X-boxes have unexpected roles in the regulation of RNR3 transcription that extend beyond their interaction with Crt1.

functional genetic analysis

transcription factor (TF)

cis-regulatory element (CRE)

binary interaction

higher order interaction

multiple linear regression

additive

multiplicative

synthetic genetic array (SGA)

green fluorescent protein (GFP)

ribonucleotide reductase (RNR)

yeast

X-box

transcriptional regulation

RNR3

Differential functions of Interleukin-10 derived from different cell types in the regulation of immune responses

Surianarayanan, Sangeetha

10 January 2012

Interleukin-10 (IL-10) is an important regulator of immune responses secreted by different cell types. Previous results from our group suggested that the biological effects of this cytokine critically depend on its cellular source. Recent studies reported IL-10 dependent immunosuppressive functions of a specialized subset of regulatory B cells and mast cells. These results relied on adoptive cell transfers, a technique which can potentially introduce artifacts. Therefore, we aimed to readdress these questions in independent models using IL-10 transcriptional reporter mice and various conditional IL-10 mutant mice. Findings in IL-10 reporter system suggested prominent IL-10 transcription in regulatory B cells upon LPS administration. Exposure of mice to contact allergen revealed robust reporter expression in CD8 T cells, moderate to mild reporter expression in CD4 T cells and dendritic cells (DC) respectively, and lack of reporter expression in B cells, mast cells and NK cells in allergen challenged ears. We generated cell-type specific IL-10 mutants by Cre/LoxP-mediated conditional gene inactivation. Efficiency and specificity of Cre-mediated recombination was demonstrated by Southern blot and PCR methods. Various immunogenic challenges in conditional IL-10 mutants did not reveal a role for B cell-derived IL-10 in restraining innate TLR or T cell-dependent inflammatory responses. Likewise, mice with selective inactivation of the il10 gene in mast cells exhibited normal CHS responses and unaltered immune response to CpG oligodeoxynucleotides. On the other hand, DC-specific IL-10 mutants developed excessive inflammatory responses to contact allergens, while innate responses to TLR ligands were not altered. This indicates a non-redundant role for DC-derived IL-10 in contact allergy. Thus, the conditional IL-10 ‘‘knockout’’ mice combined with the novel transcriptional IL-10 reporter system can serve as ideal tools to understand the cell-type specific contributions to IL-10-mediated immune regulation.

Interleukin-10

Immunregulation

Cre-loxP-Rekombination

wenden Sie sich Allergien

entzündlichen Darmerkrankungen

IL-10 Transkription Reporter System

Interleukin-10

immune regulation

Cre-loxP recombination

contact allergy

inflammatory bowel disease

IL-10 transcriptional reporter system

ddc:610

rvk:YC 5300

Expression variation in lysosomal storage disorder genes

Mason, Lyndel Ann

January 2006

Metachromatic leukodystrophy (MLD) and Gaucher disease (GD) are caused by a deficiency of arylsulphatase A (ASA) and b-glucocerebrosidase (GBA), respectively. They are lysosomal storage disorders with a heterogeneous clinical spectrum encompassing visceral, skeletal and neurologic involvement resulting in high morbidity and mortality. The overall aim of this study is to elucidate the genetic component/s of high ASA and GBA enzyme activity in normal healthy individuals with the ultimate goal of using this information to produce greater protein activity from a recombinant protein. A wide variation in ASA and GBA enzyme activity levels has been observed in the normal population. The first objective of this project was to identify and characterise single nucleotide polymorphisms (SNPs) in the arylsulphatase A (ARSA) and glucocerebrosidase (GBA) genes that are responsible for determining the levels of expressed enzyme activity in the normal population. The second objective was to assess the contribution of transcriptional regulation and TCP80 mediated translational control to normal enzyme variation. TCP80, a translational control protein that interacts with the GBA coding region, is a splice variant of the interleukin binding factor 3 (ILF3) gene. Ten samples from individuals with high ASA activity and twenty samples from individuals with high GBA activity were screened for polymorphisms via denaturing high pressure liquid chromatography (dHPLC) and sequencing. The frequency of these polymorphisms in the normal population was determined using dot-blot hybridisation. Fifteen ARSA polymorphisms (4 promoter, 5 coding, 5 intronic and 1 poly(A) signal) and two GBA polymorphisms (1 intronic and 1 in 3¢-UTR) were identified. Two low frequency ASA polymorphisms (2723A > G, W193C) were found to be correlated with low activity, while another low frequency ASA polymorphism (1101+123C > T) was found to be correlated with high activity in a population of 113 individuals. Real time PCR was used to measure mRNA levels of GBA, ASA and LF3 along with enzyme activity levels of GBA and ASA in two cell types (leucocytes and skin fibroblasts) from four healthy individuals and seven cell lines (HL60, THP1, Huh7, U118, SW1353, Hep G2, and B-cells). Transcriptional control was evident for all three genes with GBA mRNA levels varying over 30 fold, ASA mRNA levels varying over seven fold and ILF3 levels varying more than 24 fold. The 5¢-flanking region of GBA was investigated for the cis-elements responsible for tissue-specific expression. However, it was not possible to demonstrate that the cis-element region was influencing GBA expression. Translational efficiency was measured using the magnitude of the mRNA:enzyme activity ratio as an indicator. GBA translational inefficiency was most pronounced in B cells which require four times more mRNA molecules than hepatocytes (Hep G2) and over 25 times more mRNA molecules than chondrocytes (SW1353) to produce one unit of GBA enzyme activity. Except in B-cells, GBA translational efficiency appears to increase as ILF3 mRNA levels decrease. The tissue-specific variation observed in the protein levels of the ILF3 splice variants, TCP80 and DRBP76, may play a role. The correlation of several low frequency SNPs with low ASA enzyme activity or high ASA activity indicates a role in determining the distribution of enzyme activity levels in the normal population. However, there do not appear to be any common high activity polymorphisms. Knowledge of the exact mechanisms responsible for the observed transcriptional and translational control of these lysosomal genes will greatly enhance the understanding of genotype-phenotype correlation and the contribution of genetic variants to natural variation.

gaucher disease

GD

glucocerebrosidase gene

GBA

glucocerebrosidase

GBA

metachromatic leucodystrophy

MLD

arylsulphatase A gene

ARSA

arylsulphatase A

ASA

single nucleotide polymorphism

SNP

polymerase chain reaction

PCR

promoter

transcriptional regulation

translational regulation

lysosomal storage disorders

LSDs

Towards the development of transgenic banana bunchy top virus (BBTV)-resistant banana plants : interference with replication

Tsao, Theresa Tsun-Hui

January 2008

Banana bunchy top virus (BBTV) causes one of the most devastating diseases of banana. Transgenic virus resistance is now considered one of the most promising strategies to control BBTV. Pathogen-derived resistance (PDR) strategies have been applied successfully to generate plants that are resistant to numerous different viruses, primarily against those viruses with RNA genomes. BBTV is a circular, single-stranded (css) DNA virus of the family Nanoviridae, which is closely related to the family Geminiviridae. Although there are some successful examples of PDR against geminiviruses, PDR against the nanoviruses has not been reported. Therefore, the aim of this thesis was to investigate the potential of BBTV genes to interfere with virus replication when used as transgenes for engineering banana plants resistance to BBTV. The replication initiation protein (Rep) of nanoviruses is the only viral protein essential for viral replication and represents an ideal target for PDR. Therefore, this thesis focused on the effect of wild-type or mutated Rep genes from BBTV satellite DNAs or the BBTV integral genome on the replication of BBTV in banana embryogenic cell suspensions. A new Rep-encoding satellite DNA, designated BBTV DNA-S4, was isolated from a Vietnamese BBTV isolate and characterised. When the effect of DNA-S4 on the replication of BBTV was examined, it was found that DNA-S4 enhanced the replication of BBTV. When the replicative capabilities of DNA-S4 and the previously characterised Rep-encoding BBTV satellite, DNA-S1, were compared, it was found that the amount of DNA-S4 accumulated to higher levels than DNA-S1. The interaction between BBTV and DNA-S1 was also examined. It was found that over-expression of the Rep encoded by DNA-S1 using ubi1 maize polyubiquitin promoter enhanced replication of BBTV. However, when the Rep-encoded by DNA-S1 was expressed by the native S1 promoter (in plasmid pBT1.1-S1), it suppressed the replication of BBTV. Based on this result, the use of DNA-S1 as a possible transgene to generate PDR against BBTV was investigated. The roles of the Rep-encoding and U5 genes of BBTV DNA-R, and the effects of over-expression of these two genes on BBTV replication were also investigated. Three mutants of BBTV DNA-R were constructed; plasmid pUbi-RepOnly-nos contained the ubi1 promoter driving Rep expression from DNA-R, plasmid pUbi-IntOnly-nos contained the ubi1 promoter driving expression of the DNA-R internal gene product (U5), while plasmid pUbi-R.ORF-nos contained the ubi1 promoter driving the expression of both Rep and the internal U5 gene product. The replication of BBTV was found to be significantly suppressed by pUbi-RepOnly-nos, weakly suppressed by pUbi-IntOnly-nos, but strongly enhanced by pUbi-R.ORF-nos. The effect of mutations in three conserved residues within the BBTV Rep on BBTV replication was also assessed. These mutations were all made in the regions in the ATPase motifs and resulted in changes from hydrophilic to hydrophobic residues (i.e. K187→M, D224→I and N268→L). None of these Rep mutants was able to initiate BBTV replication. However, over-expression of Reps containing the K187→M or N268→L mutations significantly suppressed the replication of BBTV. In summary, the Rep constructs that significantly suppressed replication of DNA-R and -C in banana embryogenic cell suspensions have the potential to confer resistance against BBTV by interfering with virus replication. It may be concluded that BBTV satellite DNAs are not ideal for conferring PDR because they did not suppress BBTV replication consistently. Wild-type Rep transcripts and mutated (i.e. K187→M and N248→L) Rep proteins of BBTV DNA-R, however, when over-expressed by a strong promoter, are all promising candidates for generating BBTV-resistant banana plants.

Μορφολογική εκτίμηση της έκφρασης του μεταγραφικού παράγοντα PPARγ και της συνομιλίας του (cross-talk) με το μεταγραφικό παράγοντα AP-1 κατά τη διαδικασία της καρκινογένεσης στα νεοπλάσματα εκ μεταβατικού επιθηλίου της ουροδόχου κύστης / Μorphological assessment of the expression of the transcriptional factor PPARγ and its cross-talk with the transcriptional factor AP-1 during the process of carcinogenesis in urothelial carcinomas

Πέττα, Ευρυδίκη

04 May 2011

Ο καρκίνος της ουροδόχου κύστης είναι η τέταρτη συχνότερη κακοήθεια στους άνδρες και η δέκατη στις γυναίκες και η ετήσια επίπτωσή του αυξάνει συνεχώς στις ανεπτυγμένες χώρες. Oι προγνωστικοί παράγοντες που χρησιμοποιούνται σήμερα δεν μπορούν να προβλέψουν με βεβαιότητα την μακροπρόθεσμη έκβαση του ουροθηλιακού καρκίνου και έτσι προκύπτει η ανάγκη αναγνώρισης δεικτών με δυνατότητα πρόγνωσης της συμπεριφοράς των καρκινωμάτων. Επιπλέον, δεδομένων των περιορισμένων δυνατοτήτων των σημερινών θεραπευτικών επιλογών (χειρουργική αντιμετώπιση, χημειοθεραπεία ή ανοσοθεραπεία και ακτινοθεραπεία), απαιτούνται νέες θεραπευτικές στρατηγικές. Μία τέτοια στρατηγική είναι η στόχευση σε μεταγραφικούς παράγοντες όπως οι πυρηνικοί υποδοχείς και οι upstream ενεργοποιητές τους. Η διαταραχή αυτών των μεταγραφικών παραγόντων είναι κομβικό σημείο της έναρξης και διατήρησης του κακοήθους φαινοτύπου. O πυρηνικός υποδοχέας PPARγ εμπλέκεται στον έλεγχο του μεταβολισμού, την κυτταρική ανάπτυξη, την αγγειογένεση και την ανοσολογική και φλεγμονώδη απάντηση. Επιπρόσθετα, υπάρχουν ενδείξεις ότι ρυθμίζει τους μηχανισμούς καταστολής αλλά και προαγωγής της καρκινογένεσης. Ο RXRα είναι επίσης μέλος της υπεροικογένειας των πυρηνικών υποδοχέων και ετεροδιμερίζεται με τον PPARγ προς σχηματισμό του συμπλόκου που αλληλεπιδρά με το DNA. Οι προσδέτες των RXR υποδοχέων έχουν ήδη χρησιμοποιηθεί στη χημειοπρόληψη διαφόρων μορφών καρκίνου. Ο μεταγραφικός παράγoντας AP-1, απαρτίζεται από διμερή των Fos και Jun πρωτεϊνών και η δράση του σχετίζεται με την πρόοδο της καρκινογένεσης. Υπάρχουν πάντως και ενδείξεις για προ-αποπτωτική δράση του. Η CBP είναι ένας απ’ τους σημαντικότερους ολοκληρωτές σημάτων της μεταγραφής. Ο ανταγωνισμός μεταξύ των PPARγ και AP-1 για τη CBP είναι ένας απ’ τους μηχανισμούς που εξηγούν την αρνητική «συνομιλία» (cross-talk) μεταξύ των PPARγ και AP-1. Στην παρούσα μελέτη εξετάσαμε τόσο ξεχωριστά όσο και σε συνδυασμό μεταξύ τους, την έκφραση των πέντε μοριακών παραγόντων (PPARγ, RXRα, p-c-Jun, c-Fos, CBP) στο φυσιολογικό ουροθήλιο, τις προκαρκινικές αλλοιώσεις και τα ουροθηλιακά καρκινώματα (ΟΚ). Τα ιστικά δείγματα προήλθαν από 88 ασθενείς οι οποίοι υπέστησαν διαγνωστική βιοψία ή θεραπευτική κυστεκτομή, νεφρεκτομή ή ουρητηρεκτομή. Εφαρμόστηκε η ανοσοϊστοχημική μέθοδος σε τομές παραφίνης και εκτιμήθηκε η σχετική έκφραση των μελετώμενων παραγόντων στα ενδοκυττάρια διαμερίσματα, τις ενδοεπιθηλιακές στιβάδες και τις φυσιολογικές ή παθολογικές ιστολογικές βαθμίδες. Όλοι οι παράγοντες παρουσίασαν κυρίως πυρηνική εντόπιση. Η έκφραση του p-c-Jun ελαττώνεται στους ασθενείς άνω των 70 ετών σε σχέση με τους νεώτερους, ενώ κανένα άλλο απ’ τα μελετώμενα μόρια δε φαίνεται να επηρεάζεται από την ηλικία. Η έκφραση των PPARγ, CBP, p-c-Jun και c-Fos σημειώνει αύξηση κατά την πορεία προς τον καρκίνο. Όσο αφορά στα ΟΚ, οι PPARγ και CBP παρουσιάζουν αρνητική συσχέτιση με την αποδιαφοροποίηση. Επιπλέον ο PPARγ συσχετίζεται αρνητικά με την απόκτηση χαρακτήρων διήθησης στα ΟΚ. Αντιθέτως, η έκφραση του RXRα δεν διακυμαίνεται στατιστικώς σημαντικά σε όλη την πορεία της καρκινογένεσης. Η ανάλυση της συνδυασμένης έκφρασης των πέντε παραγόντων έγινε με σκοπό την αποκάλυψη ενδεχόμενων αλληλεπιδράσεων μεταξύ τους. Η προστατευτική δράση του PPARγ στο ουροθήλιο συνοδεύεται από ταυτόχρονη μέτρια ή ισχυρή έκφραση των RXRα, p-c-Jun και c-Fos. Αναλυτικά, η αυξανόμενη έκφραση του p-c-Jun συμπίπτει με ενίσχυση της θετικής συσχέτισης του PPARγ με καλύτερα διαφοροποιημένους, λιγότερο διηθητικούς όγκους, ενώ ο c-Fos φαίνεται να εξασθενίζει ήπια την ευνοϊκή δράση του PPARγ στη διαφοροποίηση του ουροθηλίου. Η αυξανόμενη έκφραση της CBP έδειξε να εξασθενίζει και τελικά να εκμηδενίζει τη στατιστικά σημαντική αύξηση του PPARγ στην πορεία προς τον καρκίνο και την επαγωγή του στους μη διηθητικούς όγκους σε σύγκριση με τους διηθητικούς. Ταυτόχρονα, η αρνητική σχέση της CBP με την αποδιαφοροποίηση και την αύξηση της κακοήθειας των ΟΚ επηρεάζεται από την παρουσία των PPARγ και AP-1, επιβεβαιώνοντας την υπόθεση της συνομιλίας αυτών των μοριακών παραγόντων. Ενδιαφέρουσα είναι η παρατήρηση ότι οι περισσότερες από τις αναφερθείσες πιο πάνω συσχτίσεις μεταξύ των μοριακών παραγόντων ίσχυαν για μεγαλύτερους των 70 ετών αλλά όχι πάντα για τους νεώτερους ασθενείς. Τα αποτελέσματα της παρούσας μελέτης μπορούν πιθανόν να οδηγήσουν σε συμπεράσματα με εφαρμογή σε χημειοπροληπτικές και θεραπευτικές στρατηγικές για τον ουροθηλιακό καρκίνο. / Bladder cancer is the fourth and tenth most common malignancy in men and women, respectively, and its incidence is increasing annually in the developed countries. Current prognostic parameters cannot predict with certainty the long-term outcome of bladder cancer and as a result there is a need to identify markers that may predict tumor behavior. Furthermore, given the limitations of current therapeutic options (surgery, chemotherapy or immunotherapy and radiotherapy), novel treatment strategies are very much needed. One such strategy targets transcription factors such as nuclear receptors and their upstream activators. Disruption of these transcription factors is a key element in the initiation and maintenance of a malignant phenotype. The nuclear receptor PPARγ is involved in controlling metabolism, cell growth, angiogenesis, and immune and inflammatory responses. In addition, it has also been suggested that it regulates tumor suppression as well as tumor promotion. RXRα is another member of the nuclear receptor superfamily, that partners PPARγ to form the DNA-binding complex. RXR ligands are already being used as chemopreventive agents in various types of cancer. The transcription factor AP-1 is formed by dimerization of Jun and Fos proteins and its activity is often associated with tumor progression. On the other hand, there is also evidence that AP-1 may enhance apoptosis. CBP is one of the most important transcriptional integrators. The competition of PPARγ and AP-1 for CBP is one of the multiple mechanisms that explain the negative PPARγ/AP-1 cross-talk. In the present study, we assessed separate and concurrent expression of the five factors (PPARγ, RXRα, p-c-Jun, c-Fos, CBP) in normal urothelium, precancerous lesions and urothelial carcinomas (UC). Clinical samples were derived from 88 patients who had undergone diagnostic biopsy or therapeutic excision of the bladder, the kidney or the ureter. Parafin section immunohistochemistry was utilized and relative expression was estimated in intracellular compartments, intraepithelial layers and histologic categories of urothelium. All five factors had mainly nuclear pattern of expression. P-c-jun was downregulated in patients older than 70 years old compared to younger ones, whereas age did not affect the expression of the rest four factors. PPARγ, CBP, p-c-Jun and c-Fos were upregulated towards tumorigenesis. PPARγ and CBP showed an inverse relationship with carcinoma level of differentiation. Moreover, PPARγ expression downregulated significantly in invasive tumors compared to non-invasive ones. On the contrary, RXRα expression did not vary significantly along the carcinogenesis course. The following correlations were based on coexpression analysis to reveal molecular interactions between the five factors. The established protective effect of PPARγ on urothelium was accompanied by concomitant RXRα, p-c-Jun and c-Fos moderate or strong expression. In detail, p-c-Jun’s increasing expression strengthened the positive relation of PPARγ with better differentiated, less invasive tumors, whereas c-Fos seemed to mildly lessen PPARγ’s favourable effect in urothelium differentiation. Statistically significant PPARγ upregulation in malignant tissues compared to normal urothelium and in non-invasive tumors compared to invasive ones is suppressed and finally cancelled by CBP’s increasing expression. PPARγ and AP-1 seemed to influence the negative relation of CBP with loss of differentiation and increase of malignant potential in UC, an observation that denotes a cross-talk between these molecular factors. Interestingly, most of the aforementioned correlations were noticed in patients older than 70 years old, but not all of them were plausible in younger patients. The results from the present study could lead to conclusions possibly applicable in chemoprevention and therapy strategies for urothelial carcinomas.

Ουροθήλιο

Ουροδόχος κύστη

Προκαρκινικές βλάβες

616.994 62

PPARγ

RXRα

AP-1

CBP

p-c-Jun

c-Fos

Transcriptional factors

Urothelium

Urothelial carcinomas

Bladder

Precancerous lesions

Conception, synthèse et dévelopement d'inhibiteurs du répresseur transcriptionnel mycobactérien ETHR selon une approche par fragments. Une nouvelle approche dans la lutte contre la tuberculose / Use of fragment-based approaches for the design, synthesis and development of new ethr inhibitors as a new strategy to fight tuberculosis

Villemagne, Baptiste

28 September 2012

Avec plus d’un million et demi de morts chaque année, la tuberculose reste aujourd’hui la seconde cause de mortalité liée à un agent infectieux. De plus l’organisation mondiale de la santé (OMS) a estimé en 2011 qu’un tiers de la population mondiale était porteuse du bacille Mycobacterium tuberculosis responsable de la maladie. Depuis la fin des années 1980, une recrudescence du nombre de cas de tuberculose est observée à l’échelle mondiale. Cette recrudescence est due à la fois à l’apparition de souches résistantes, mais également à l’épidémie de VIH qui est un facteur de prédisposition au déclenchement de la maladie.En 2000, le répresseur transcriptionnel mycobactérien EthR a été identifié comme étant un régulateur clé dans la bioactivation de l’éthionamide (ETH), un antituberculeux utilisé pour le traitement de seconde intention. En 2009, l’inhibition de ce répresseur par le développement de molécules « drug-like » a permis de potentialiser l’activité de l’éthionamide d’un facteur 3 chez la souris infectée et a permis de valider cette cible pour une future approche thérapeutique.Ce travail repose sur la découverte et l’optimisation de nouveaux inhibiteurs de ce répresseur transcriptionnel mycobactérien, à partir d’une petite molécule appelée « fragment » qui a été cocristallisée avec la protéine. Par la combinaison d’un criblage in silico, d’un criblage in vitro des touches identifiées, de l’étude des structures radiocristallographiques des complexes ligands/protéines et de la chimie médicinale, le développement de trois approches complémentaires dites « fragmentgrowing », « fragment-merging » et « fragment-linking » a permis de développer des composés présentant de fortes activités. Ces résultats permettront très prochainement de sélectionner une nouvelle molécule issue de ce travail dans la perspective de nouveaux essais sur le modèle murin. / Tuberculosis (TB) remains the leading cause of death due to a single infective agent with more than 1.5 million people killed each year. In 2011, the world health organization (WHO) estimated that one third of the world’s population is infected with Mycobacterium tuberculosis, the pathogen responsible for the disease. This phenomenon may be due to an explosive escalation of TB incidence that occurred in the 1980s due to the emergence of both resistant strains and HIV epidemic.In 2000, EthR, a mycobacterial transcriptional repressor, was identified as a key modulator of ethionamide (ETH) bioactivation. ETH is one of the main second-line drugs used to treat drug resistant strains. In 2009, it was shown that co-administration of ETH and drug-like inhibitors of EthR was able to boost ETH activity threefold in a mouse-model of TB-infection, thus validating the target for a new therapeutic strategy.This work deals with the discovery and optimisation of new EthR inhibitors, based on a small molecule, called a “fragment”, co-crystallized with the protein. We combined in silico screening, in vitro evaluation of the hit compounds, study of co-crystal structures and medicinal chemistry to develop three complementary approaches called “fragment growing”, “fragment merging” and “fragment linking” that led to the discovery of very potent inhibitors. Based on these results, we are currently selecting a potential candidate for new in vivo experiments.

Inhibiteur d'EthR

Criblage in silico

Approche par fragments

Tuberculose

Mycobacterium tuberculosis

Éthionamide

Potentialisation

Répresseur transcriptionnel

Conception rationnelle

FBDD

Tuberculosis

Mycobacterium tuberculosis,

EthR

Ethionamide

Boosting strategy

Transcriptional repressor,

Fragment-based approaches

In silico screening,

Structure-based drug design

Frameworks for reprogramming early diverging land plants

Pollak Williamson, Bernardo

January 2018

Plant form is a product of emergent processes of cell division, patterning and morphogenesis. These fundamental processes remain poorly characterised in plants. However, engineering approaches can provide new tools and frameworks for the study and manipulation of plant development. This dissertation describes the development of engineering frameworks for reprogramming of the early diverging land plant Marchantia polymorpha (Marchantia). I describe the generation of genomic and transcriptomic datasets for Marchantia, which has provided the basis for the compilation of a gene-centric registry of DNA parts for engineering (MarpoDB). I describe the development of Loop assembly, an efficient and standardised DNA assembly system based on Type IIS restriction enzymes for recursive fabrication of DNA circuits with high efficiency. MarpoDB was used to mine new DNA parts compatible with Loop assembly which were used to generate plant transformation vectors for labelling of cellular features to study aspects of growth and development. I performed image analysis of genetic markers for segmentation and quantification of cellular properties in germinating gemmae. I implemented high-efficiency Cas9-mediated mutagenesis in Marchantia for use in functional molecular genetics studies. Furthermore, I produced inducible systems for expression of heterologous elements by transactivation which showed negligible levels of basal activity. It was possible to use this system for induction of gene expression in single cells. Finally, these new frameworks were applied to study the gametophytic meristem in Marchantia gemmae. I mapped the expression of several putative candidate homologues for higher plant meristem regulators, performed overexpression and loss-of-function studies for homologues of WUSCHEL, CLAVATA3 and SHOOT MERISTEMLESS. A strategy for misregulation of endogenous genes was developed using inducible transactivation, and was used with cellular markers for WUSCHEL and CLAVATA3 homologues in Marchantia.

Identification et caractérisation des cibles transcriptionnelles de ETV6, un facteur de transcription impliqué dans la leucémie de l’enfant

Malouf, Camille

02 1900

No description available.

cancer pédiatrique

leucémie lymphoblastique aiguë

oncogenèse

facteur de transcription ETV6

régulation transcriptionnelle

études fonctionnelles

paediatric cancer

acute lymphoblastic leukemia

oncogenesis

ETV6 transcription factor

transcriptional regulation

functional studies