PHARMACOLOGICAL TARGETING OF FGFR IN METASTATIC BREAST CANCER IS AUGMENTED BY DNMT1 INHIBITION

Mitchell G Ayers (18990533)

02 August 2024

<p dir="ltr">Metastatic breast cancer (BC) remains a dauting therapeutic challenge due to the heterogeneity and cellular plasticity that exists. Because of these, BC resistance to targeted therapies and immune checkpoint blockade (ICB) present major challenges in the clinical setting. As a result, incomplete clearance of BC during a therapeutic regimen can lead to the persistence of minimal residual disease (MRD) which greatly contributes to tumor relapse. Here we develop a powerful in vivo model of lung metastasis in which we can achieve robust pulmonary tumor regression in response to the fibroblast growth factor receptor (FGFR) inhibitor, pemigatinib.</p><p dir="ltr">To enhance the efficacy of ICB, tumors must first be converted from an immune “cold” environment to an immune “hot” environment. Using our in vivo model of lung metastasis, we demonstrated that pemigatinib can significantly increase the presence of infiltrating T-cells into the lungs while suppressing the presence of MDSCs both locally in the lungs and systemically. Taken together, pemigatinib is an ideal candidate to prime these immune “cold” tumors for combination with ICB.</p><p dir="ltr">Upon establishment of MRD by pemigatinib in our in vivo model we observe upregulation of an alternate growth factor receptor, platelet-derived growth factor receptor (PDGFR). Functionally, upon FGFR inhibition, there is increased response to pulmonary fibroblast derived PDGF ligand, fueling survival of MRD. We demonstrated that knockdown of PDGFR significantly delayed tumor growth reinitiation in an in vitro 3D culture following pemigatinib as well as delayed tumor relapse in our pulmonary metastasis model.</p><p dir="ltr">To limit cellular plasticity and reduce survival of MRD, we propose a novel dual-targeted approach utilizing pemigatinib, in conjunction with inhibition of DNMT1 using the reversible inhibitor GSK3484862. We used our in vivo model of lung metastasis after treatment with pemigatinib as a model of cellular plasticity to targeted therapy. This combination therapy prevented growth factor plasticity and delayed tumor recurrence. Through prevention of PDGFR upregulation induced by pemigatinib.</p><p dir="ltr">In the present dissertation works, our study demonstrates pemigatinib’s robust ability to increase infiltrating T-cells in addition to its strong antitumor effects on pulmonary tumors. Despite the robust effects of pemigatinib, acquired mechanism of resistance through upregulation of PDGFR allows survival of MRD and are supported by PDGF secreting fibroblasts. Using an approach of limiting cellular plasticity through DNA methylation inhibition combined with pemigatinib, we achieved a more durable therapeutic response. Our findings underscore the significance of understanding adaptive responses to targeted therapies and provide a tangible therapeutic strategy to prolong treatment response in metastatic breast cancer.</p>

Tumour immunology

Cancer cell biology

Breast Cancer biology

FGFR signaling

FGFR1 inhibitor

tumor immunology.

pharmacology

Drug Resistance

immune checkpoint inhibitor (ICKi)

Epigenetic inhibitor

Cancer associated fibroblasts (CAFs)

DNMT 1 methyltransferase

Long-term culture-expanded alveolar macrophages restore their full epigenetic identity after transfer in vivo

Subramanian, Sethuraman, Busch, Clara Jana-Lui, Molawi, Kaaweh, Geirsdottir, Laufey, Maurizio, Julien, Vargas Aguilar, Stephanie, Belahbib, Hassiba, Gimenez, Gregor, Yuda, Ridzky Anis Advent, Burkon, Michaela, Favret, Jérémy, Najjar, Sara Gholamhosseinian, de Laval, Berengère, Kandalla, Prashanth Kumar, Sarrazin, Sandrine Sarrazin Zentrum für Regenerative, Alexopoulou, Lena, Siewake, Michael H.

26 August 2022

Alveolar macrophages (AMs) are lung tissue-resident macrophages that can be expanded in culture, but it is unknown to what extent culture affects their in vivo identity. Here we show that mouse long-term ex vivo expanded AMs (exAMs) maintained a core AM gene expression program, but showed culture adaptations related to adhesion, metabolism and proliferation. Upon transplantation into the lung, exAMs reacquired full transcriptional and epigenetic AM identity, even after several months in culture and could self-maintain long-term in the alveolar niche. Changes in open chromatin regions observed in culture were fully reversible in transplanted exAMs and resulted in a gene expression profile indistinguishable from resident AMs. Our results indicate that long-term proliferation of AMs in culture did not compromise cellular identity in vivo. The robustness of exAM identity provides new opportunities for mechanistic analysis and highlights the therapeutic potential of exAMs.

info:eu-repo/classification/ddc/610

ddc:610

Funktionelle Charakterisierung linien-fremder Signalwege für Wachstum, Überleben und Reprogrammierung lymphatischer Zellen

Lamprecht, Björn

05 January 2011

Cytokine steuern die Kommunikation von verschiedenen Zelltypen untereinander und regulieren deren Überleben, Differenzierung und Wachstum. Kommt es zu einer Deregulation der Expression von Cytokinen oder deren Rezeptoren, kann es zu autoimmunen oder malignen Erkrankungen kommen. Ein besonderes Beispiel der aberranten Cytokinexpression ist das klassische Hodgkin Lymphom. Die malignen Hodgkin/Reed-Sternberg (HRS) Zellen des Hodgkin Lymphoms stammen ursprünglich aus Keimzentrums B-Zellen ab, haben aber ihren B-Zell Phänotyp verloren. Des Weiteren exprimieren sie eine Vielzahl von verschiedenen Cytokinen und Cytokinrezeptoren, die ursprünglich nicht in einem Genexpressionsprogramm von B-Zellen vorkommen. In dieser Arbeit wurden zwei dieser Cytokin-Rezeptorsysteme (IL-21/IL-21R und CSF-1/CSF1R) hinsichtlich ihrer Funktionen für die HRS Zellen des Hodgkin Lymphoms charakterisiert. Die Expression des T-Zell assoziierten Cytokins IL-21 konnte in dieser Arbeit erstmals in HRS Zellen nachgewiesen werden. Für die Expression des myeloiden CSF1R zeigen Ergebnisse dieser Arbeit eine neuartige Regulation durch ein Long Terminal Repeat (LTR) Element, welche zu einem bis dahin unbekannten mRNA Transkript des Protoonkogens CSF1R in den HRS Zellen führt. Sowohl für IL-21 als auch für CSF1R konnte in der Doktorarbeit die Expression und Funktionalität des jeweilig korrespondierenden Rezeptors (IL-21R) bzw. Cytokins (CSF-1) nachgewiesen werden. Die Bedeutung dieser B-Zell fremden Gene für die HRS Zellen lag hauptsächlich in der Stimulation von Wachstum und Überleben und der Induktion von wichtigen Signalwegen (z.B. STAT3). Die Ergebnisse der Dissertation können als Ausgangspunkt für neue Strategien in der Diagnostik und der spezifischeren Therapie von Hodgkin Lymphom Patienten dienen. Der außergewöhnliche Mechanismus der Genregulation des CSF1R Gens über ein endogenes LTR Element kann in anderen Tumorentitäten ebenfalls ein Grund für die Aktivierung von Onkogenen sein. / Cytokines in the human body are responsible for cell-cell communication and regulate survival, differentiation and proliferation of different cell types. Deregulation of expression levels of cytokines might contribute to autoimmune diseases or tumor growth. One of the most prominent examples of aberrant cytokine expression is the classical Hodgkin Lymphoma. The malign Hodgkin/Reed-Sternberg (HRS) cells of classical Hodgkin Lymphoma are derived from germinal centre B cells, however they lost their B cell-specific phenotype. Moreover they express a huge variety of cytokines and cytokine receptors, normally not expressed in B cells. Two of these cytokine-receptor systems (IL-21/IL-21R and CSF-1/CSF1R) and their expression and function in HRS cells are subject of this dissertation. The expression of the T cell-associated cytokine IL-21 has been shown for the first time in HRS cells. The results for the myeloid-specific proto-oncogene CSF1R identified a unique, so far unknown mRNA transcript, expressed due to activation of a long terminal repeat (LTR) element. For both, IL-21 and CSF1R, the expression and functionality of the corresponding receptor (IL-21R) or cytokine (CSF-1), respectively, was demonstrated in this dissertation. Protection from apoptosis, proliferation and stimulation of several pathways are the main functional consequences of auto- and paracrine stimulation of HRS cells with either IL-21 or CSF-1. These results might lead to new diagnostic and more specific treatment strategies for Hodgkin Lymphoma patients. Regarding the unusual expression of CSF1R via LTR activation this mechanism might also be the reason for oncogene activation in several other tumor entities.

B-Zellen

Neoplasien

Hodgkin Lymphom

Cytokine

IL-21R

IL-21

CSF1R

CSF-1

LTR

epigenetische Modifikationen

B cells

Cytokines

Neoplasia

Hodgkin Lymphoma

IL-21R

IL-21

CSF1R

CSF-1

LTR

epigenetic modifications

570 Biologie

32 Biologie

XD 3200

ddc:570

Role of HDACs in the regulation of TERT in neuroblastoma

Finkler, Sabine

24 February 2021

Hohe Telomeraseaktivität bedingt durch genomische TERT-Rearrangements definiert eine Gruppe an Hochrisiko-Neuroblastompatienten mit ungünstiger Prognose. Das Abzielen auf Telomerase ist ein hochpriorisierter Ansatzpunkt in der Therapie, für die es bislang keine klinisch erfolgreichen Inhibitoren gibt. Der Einsatz von epigenetisch wirksamen Histondeacetylase Inhibitoren (HDACi) stellt dabei eine interessante Therapieoption dar. In TERT-rearrangierten Neuroblastomzellen erzielte die Behandlung mit verschiedenen pan-, Klasse I oder spezifischen HDAC1/2 Inhibitoren eine Supprimierung der TERT mRNA Expression und der Telomeraseaktivität. RNA-Interferenz Studien bestätigten, dass HDAC1 und HDAC2 die TERT Expression positiv regulieren. Die transiente Überexpression von TERT zeigte einen partiellen Rescue des HDACi-bedingten anti-proliferativen Effekts. Der präventive und therapeutische Einsatz von HDACi Panobinostat verlangsamte das Xenografttumorwachstum, die TERT-Expression und Telomeraseaktivität in subkutanen NMRI-Foxn1nu/nu Mausmodellen des TERT-rearrangierten Neuroblastoms bei klinisch relevanten Dosen. Dies zeigt das translationale Potential und die klinische Durchführbarkeit der Panobinostat-Behandlung. ChIP Sequenzierung und Methylierungsanalyse zeigten keine bedeutenden Unterschiede der Histonmodifikationen und der Methylierung von CpG Dinukleotiden am TERT Lokus nach Panobinostatbehandlung. Die Inhibierung der de novo RNA Synthese zeigte, dass die Stabilität des TERT mRNA Transkripts nach Panobinostatbehandlung verringert war. Dies deutet darauf hin, dass die reduzierte Transkriptstabilität der zugrundeliegende molekulare Mechanismus ist. Zusammenfassend konnte gezeigt werden, dass die hohe Telomeraseaktivität in TERT-rearrangierten Neuroblastommodellen durch den Einsatz zugelassener HDACi supprimiert werden kann. / Telomerase activation by genomic TERT-rearrangements defines a subgroup of high-risk neuroblastomas with adverse outcome. Accordingly, telomerase activity presents a high-priority drug target with no currently available clinical inhibitors. It was assessed whether telomerase activity could be inhibited through histone deacetylase (HDAC) inhibition in models of TERT-rearranged neuroblastoma. Treatment with a panel of seven pan-, class I- or specific HDAC1/2 inhibitors suppressed TERT mRNA expression and telomerase activity in TERT-rearranged neuroblastoma cells at clinically achievable concentrations. RNA interference-based studies confirmed that HDAC1 and HDAC2 positively regulate TERT transcript levels. Enforced TERT expression partly rescued the anti-proliferative effect of HDAC inhibition indicating a causal role of TERT suppression in the HDAC inhibitormediated tumor-suppressive phenotype. Panobinostat treatment, in preventive and therapeutic settings, considerably attenuated tumor growth in subcutaneous TERT-rearranged neuroblastoma xenograft models in NMRI-Foxn1nu/nu mice and suppressed TERT transcript levels and telomerase activity at clinically relevant doses, thus demonstrating translational potential and clinical feasibility. ChIP sequencing detected no major differences in the chromatin context of the TERT locus between HDAC inhibitor-treated and control cells. Likewise, HDAC inhibition did not substantially alter the methylation profile in the TERT region. Blocking de novo RNA synthesis, however, reduced TERT mRNA transcript levels in HDAC inhibitor-treated cells, suggesting reduced TERT transcript stability as the underlying molecular mechanism. In summary, high-level telomerase activity caused by genomic rearrangements in neuroblastoma models is suppressed by treatment with clinically approved HDAC inhibitors, suggesting indirect druggability and a potential molecular rationale for therapeutic intervention.

Neuroblastom

TERT

Telomerase

Histondeacetylase

Krebs

Niedermolekularer Inhibitor

Panobinostat

Epigenetik

Neuroblastoma

TERT

Telomerase

Histone deacetylase

Cancer

Small molecule inhibitor

Panobinostat

Epigenetic

576 Genetik und Evolution

570 Biologie

XH 8565

XH 8562

XH 8563

WD 5060

ddc:576

ddc:570

Wnt/beta-catenin signaling modulates salivary gland tumors and cancer stem cells by epigenetic mechanisms

Zhu, Qionghua

08 September 2016

Wnt/beta-Catenin-Signalgebung hat große Bedeutung für die Initiation und Progression verschiedener Krebsarten. Unser Labor hat kürzlich ein Mausmodell für Squamöse Speicheldrüsen-Karzinome etabliert, das menschliche Hals-Nasen-Ohren-Karzinome reflektiert, durch kombinierte Mutationen von beta-Catenin und dem Bmp-Rezeptor 1a. Diese Tumore enthielten hohen Level von sich selbst-erneuernden Krebs-Stammzellen. Behandlung mit den Wnt-Inhibitoren ICG-001 blockierte die Selbsterneuerung und induzierte die Differenzierung der Krebs-Stammzellen. In den Krebs-Stammzellen der Maus wurde eine globale Aufregulierung des Histonmarkers H3K4me3 beobachtet, was durch Wnt-Inhibition gehemmt werden konnte. Um die molekularen Mechnismen aufzuklären, wurden die Histon-Methyltransferasen für H3K4me3, d.h., Mitglieder der Mll-Proteinfamilie, in sphären-kultivierten Krebs-Stammzellen durch RT-PCR analysiert: Mll1 war hoch transkribiert, zusammen mit den Hoxa9- und Meis1-Zielgenen. Interessanterweise aktivierte die Expression von Mll1 durch Wnt-Signalgebung die distale Enhancer-Region von Mll1, was durch Luciferase-Reporter-Assays gemessen wurde. Immunopräzipitation zeigte weiter, dass Mll1 im beta-Catenin-Transcriptionsfaktor-Komplex involviert ist: shRNA-Behandlung von Mll1 reduzierte die Sphären-Bildung der Speicheldrüsen-Krebs-Stammzellen der Maus. In doppelt-mutanten Mäusen hat die zusätzliche genetische Ablation von Mll1 die Tumorbildung verhindert und die Selbsterneuerung der Krebs-Stammzellen reduziert. Diese Daten zeigen dass die beta-Catenin-Mll1-Achse die Selbsterneuerung der Stammzellen antreibt und deren Differenzierung verhindert, und zwar via epigenetische Mechanismen. Deshalb wird durch das Targeting von Mll1 und dessen Interaktion mit beta-Catenin und andern Komponenten den gesunden epigenetischen Zustand in den Stammzellen wieder herstellt, was eine neue und vielversprechende Möglichkeit für die Behandlung von Patienten mit Hals-Nasen-Ohren-Tumoren darstellt. / Wnt/beta-catenin signaling has been implicated in the initiation and progression of various human cancers. Our lab has recently established a mouse model of salivary gland squamous cell carcinomas (SCCs), which resembles human head and neck cancer, by combined gain- and loss-of-function mutations of beta-catenin and the Bmp receptor 1a (double mutant tumors). These tumors contained highly self-renewing cancer stem cells (CSCs) that were Wnt-dependent. Treatment with the Wnt inhibitor ICG-001 (interferes with beta-catenin-CBP-Mll1 interaction) blocked the self-renewal and induced differentiation of CSCs. In the mouse salivary gland CSCs, a global up-regulation of the histone mark H3K4me3 was observed, which could be suppressed by Wnt inhibition. To study the potential molecular mechanisms, the H3K4me3 histone methyl-transferases, i.e., members of the Mll protein family were analyzed in freshly isolated, sphere-cultured CSCs by RT-PCR: Mll1 was highly transcribed, together with its target genes Hoxa9 and Meis1. Interestingly, the expression of Mll1 was upregulated by Wnt signaling by activating its distal enhancer regions, which was seen with Luciferase reporter assays. Immuno-precipitation further showed that Mll1 is involved in the beta-catenin/Tcf4 transcription factor complex: shRNA treatment against Mll1 reduced sphere formation of mouse salivary gland CSCs. In double mutant mice, additional genetic ablation of Mll1 (triple mutant tumors) abrogated tumor formation and affected the self-renewal ability of CSCs. Collectively, the data presented in this study show that the beta-catenin-Mll1 axis drives self‐renewal and fends off differentiation of CSCs via epigenetic mechanisms. Therefore, targeting Mll1 or its interaction with beta-catenin and other components may help to restore a healthy epigenetic state in the stem cells, which represent a novel and promising therapeutic approach for the treatment of head and neck SCCs.

Wnt/beta-Catenin-Signalgebung

Squamöse Speicheldrüsen-Karzinome

Krebs-Stammzell

Mll1

epigenetische Mechanismen

cancer stem cell

Wnt/beta-catenin signaling

salivary gland squamous cell carcinomas

Mll

epigenetic mechanism

570 Biologie

32 Biologie

XH 6904

XH 6913

ddc:570

The epigenetic regulation of the EGF-receptor ligands Amphiregulin and Epiregulin and its impact on the outcome of EGFR-targeted therapies

Bormann, Felix

06 May 2014

AREG und EREG sind Liganden des EGFR, deren Expression mit einem positiven EGFR-zielgerichtetem Therapieansprechen in Darmkrebs korreliert. Ziel dieser Arbeit war es, einen epigenetischen Einfluss auf die AREG und EREG Expression zu klären. Es wurde gezeigt, dass AREG und EREG in verschiedenen kolorektalen Krebszelllinien differenziell exprimiert sind, und dass die Expression beider Gene durch epigenetische Inhibitoren erhöht werden kann. Eine Analyse in fünf Zelllinien zeigte jedoch, dass die Promotoren beider Gene hauptsächlich unmethyliert vorlagen. Hingegen wurden kurze Regionen im Gen als differentiell methyliert identifiziert. Im AREG Gen liegt diese Region im Exon 2, was auf einen ungewöhnlichen Regulationsmechanismus hindeutet. Promotorfunktionsanalysen zeigten dann, dass diese Region eine methylierungs- und orientierungsabhängige Promotorfunktion hat, in die das MDB-Protein CTCF involviert sein könnte. Expressionsanalysen wiesen darauf hin, dass auch ZBTB33, ein anderes MDB-Protein, in die AREG Regulation involviert sein könnte. Die ZBTB33 Expression korrelierte negativ mit der AREG Expression in den Zelllinien. Eine ZBTB33-Bindungsstelle konnte ausserdem bioinformatorisch im AREG Exon 2 identifiziert werden. Des weiteren wurde gezeigt, dass die Behandlung der Zelllinie LIM1215 mit HDAC Inhibitoren in vitro zu einer Erhöhung der Sensitivität gegenüber EGFR-zielgerichteten Medikamenten führt, begleitet von einer Erhöhung der AREG und EREG Expression. Im in vivo Versuch konnte die Sensitivität von LIM1215 Zellen durch die Behandlung mit DNMT Inhibitoren erhöht werden. Begleitet wurde dies hier mit einer Verringerung der Methylierung der AREG und EREG intragenischen CpGs. Diese Ergebnisse zeigen auf, dass Patienten, die resistent gegenüber EGFR-zielgerichteten Therapien sind, möglicherweise sensitiv gemacht werden können. In dem Fall könnten AREG und EREG als prädiktive Marker eingesetzt werden, um den Effekt der epigenetischen Inhibitoren zu evaluieren. / AREG and EREG are ligands of the EGFR whose expression correlates with a positive EGFR-targeted therapy response in colorectal cancer. Aim of this work was to define the influence of epigenetic mechanisms on AREG and EREG gene expression. It could be shown that AREG and EREG are differentially expressed in a set of colorectal cancer cell lines and that the expression of both genes increases after treatment with epigenetically interfering compounds such as DNMT inhibitors and HDAC inhibitors. Methylation analysis showed that the promoters of both genes were mainly unmethylated. Nevertheless, short intragenic regions were identified to be differentially methylated. For AREG, this region is located within exon 2, indicating an uncommon epigenetic regulatory mechanism. Promoter function analyses showed that the AREG exon 2 region harbor methylation- and orientation dependent promoter function and they suggested CTCF, an MDB-protein, to be involved in this mechanism. Expression analysis experiments suggested also ZBTB33, another MDB-protein, to be involved in AREG regulation. ZBTB33 was differentially expressed in the cells and it correlated inversely with the AREG expression. Additionally, bioinformatic analyses identified a ZBTB33 binding site within AREG exon 2. It was also shown in this work that LIM1215 cells treated with HDACis were more sensitive towards EGFR inhibitors in vitro. This effect was accompanied by an increased AREG and EREG expression. In vivo, an increased sensitivity towards EGFR inhibitors was achieved in LIM1215 cells by treatment with a DNMT inhibitor. Here the effect was accompanied by a reduced methylation within the AREG and EREG intragenic CpGs. Together, the results suggested a new possibility to potentially make EGFR-targeted therapy resistant patients suitable for this therapy by epigenetic compound treatment. In that case AREG as well as EREG might be predictive markers to evaluate the effect of the epigenetic compounds during therapy.

Epigenetik

Amphiregulin

Epiregulin

EGFR-zielgerichtete Therapie

Dickdarmkrebs

epigenetische Regulation

intragenische DNA-Methylierung

potentielle prädiktive Biomarker

epigenetics

Amphiregulin

Epiregulin

EGFR-targeted therapy

colorectal cancer

epigenetic regulation

intragenic DNA-methylation

potential predictive biomarkers

570 Biologie

32 Biologie

ddc:570

Regulation of BAP1 tumor suppressor complex by post-translational modifications

Mashtalir, Nazar

04 1900

Le régulateur transcriptionnel BAP1 est une déubiquitinase nucléaire (DUB) dont le substrat est l’histone H2A modifiée par monoubiquitination au niveau des residus lysines 118 et 119 (K118/K119). Depuis les dernières années, BAP1 emerge comme un gene suppresseur de tumeur majeur. En effet, BAP1 est inactivé dans un plethore de maladies humaines héréditaires et sporadiques. Cependant, malgré l’accumulation significative des connaissances concernant l’occurrence, la pénétrance et l’impact des défauts de BAP1 sur le développement de cancers, ses mécanismes d’action et de régulation restent très peu compris. Cette étude est dédiée à la caractérisation moléculaire et fonctionnelle du complexe multi-protéique de BAP1 et se présente parmi les premiers travaux décrivant sa régulation par des modifications post-traductionnelles. D’abord, nous avons défini la composition du corps du complexe BAP1 ainsi que ses principaux partenaires d’interaction. Ensuite, nous nous sommes spécifiquement intéressés a investiguer d’avantage deux principaux aspects de la régulation de BAP1. Nous avons d’abord décrit l’inter-régulation entre deux composantes majeures du complexe BAP1, soit HCF-1 et OGT. D’une manière très intéressante, nous avons trouvé que le cofacteur HCF-1 est un important régulateur des niveaux protéiques d’OGT. En retour, OGT est requise pour la maturation protéolytique de HCF-1 en promouvant sa protéolyse par O-GlcNAcylation, un processus de régulation très important pour le bon fonctionnement de HCF-1. D’autre part, nous avons découvert un mécanisme unique de régulation de BAP1 médiée par l’ubiquitine ligase atypique UBE2O. en effet, UBE2O se caractérise par le fait qu’il s’agit aussi bien d’une ubiquitine conjuratrice et d’une ubiquitine ligase. UBE2O, multi-monoubiquitine BAP1 au niveau de son domaine NLS et promeut son exclusion du noyau, le séquestrant ainsi dans le cytoplasme. De façon importante, nos travaux ont permis de mettre de l’emphase sur le rôle de l’activité auto-catalytique de chacune de ces enzymes, soit l’activité d’auto-déubiquitination de BAP1 qui est requise pour la maintenance de sa localisation nucléaire ainsi que l’activité d’auto-ubiquitination d’UBE2O impliquée dans son transport nucléo-cytoplasmique. De manière significative, nous avons trouvé que des défauts au niveau de l’auto-déubiquitination de BAP1 due à des mutations associées à certains cancers indiquent l’importance d’une propre regulation de cette déubiquitinase pour les processus associés à la suppression de tumeurs. / BAP1 is a nuclear deubiquitinating enzyme (DUB) that acts as a transcription regulator and a DUB of nucleosomal histone H2AK119. In the recent years, it has become clear that BAP1 is a major tumor suppressor, inactivated in a plethora of hereditary and sporadic human malignancies. Although, we now accumulated a significant body of knowledge in respect to the occurrence, penetrance and impact of BAP1 disruption in cancer, its mechanism of action and regulation remained poorly defined. This work is dedicated to the biochemical and functional characterization of the BAP1 multiprotein complex and presents one of the first cases regarding its regulation by post-translational modifications. First, we defined the initial composition of the BAP1 complex and its main interacting components. Second, we specifically focused on two aspects of BAP1 regulation. We described the cross regulation between the two major components of the complex namely HCF-1 and OGT. We found that HCF-1 is important for the maintenance of the cellular levels of OGT. OGT, in turn, is required for the proper maturation of HCF-1 by promoting O-GlcNAcylation-mediated limited proteolysis of its precursor. Third, we discovered an intricate regulatory mechanism of BAP1 mediated by the atypical ubiquitin ligase UBE2O. UBE2O multi-monoubiquitinates BAP1 on its NLS and promotes its exclusion from the nucleus. Importantly, our work emphasises the role of the autocatalytic activity of both enzymes namely the auto-deubiquitination activity of BAP1, required for the maintenance of nuclear BAP1 and the auto-ubiquitination of UBE2O implicated in its nucleocytoplasmic transport. Significantly, we found that auto-deubiquitination of BAP1 is disrupted by cancer-associated mutations, indicating the involvement of this process in tumor suppression.

Chromatine

Marque épigénctique

O-GlcNAcylation

Régulation protéolytique

Ubiquitination

Déubiquitinase

Ubiquitine ligase atypique

Activité auto-catalytique

Cancer

Chromatin

Epigenetic mark

Proteolytic processing

Ubiquitination

Deubiquitinase

Atypical ubiquitin ligase

Autocatalytic activity

Host cell factor 1

BRCA1-associated protein 1

UBE2O

Molecular determinants of congenital hypothyroidism due to thyroid dysgenesis

Abu-Khudir, Rasha

04 1900

L’hypothyroïdie congénitale par dysgénésie thyroïdienne (HCDT) est la condition endocrinienne néonatale la plus fréquemment rencontrée, avec une incidence d’un cas sur 4000 naissances vivantes. L’HCDT comprend toutes les anomalies du développement de la thyroïde. Parmi ces anomalies, le diagnostic le plus fréquent est l’ectopie thyroïdienne (~ 50% des cas). L’HCDT est fréquemment associée à un déficit sévère en hormones thyroïdiennes (hypothyroïdisme) pouvant conduire à un retard mental sévère si non traitée. Le programme de dépistage néonatal assure un diagnostic et un traitement précoce par hormones thyroïdiennes. Cependant, même avec un traitement précoce (en moyenne à 9 jours de vie), un retard de développement est toujours observé, surtout dans les cas les plus sévères (c.-à-d., perte de 10 points de QI). Bien que des cas familiaux soient rapportés (2% des cas), l’HCTD est essentiellement considérée comme une entité sporadique. De plus, plus de 92% des jumeaux monozygotiques sont discordants pour les dysgénésies thyroïdiennes et une prédominance féminine est rapportée (spécialement dans le cas d’ectopies thyroïdiennes), ces deux observations étant clairement incompatible avec un mode de transmission héréditaire mendélien. Il est donc cohérent de constater que des mutations germinales dans les facteurs de transcription thyroïdiens connus (NKX2.1, PAX8, FOXE1, and NKX2.5) ont été identifiées dans seulement 3% des cas sporadiques testés et furent, de plus, exclues lors d’analyse d’association dans certaines familles multiplex. Collectivement, ces données suggèrent que des mécanismes non mendéliens sont à l’origine de la majorité des cas de dysgénésie thyroïdienne. Parmi ces mécanismes, nous devons considérer des modifications épigénétiques, des mutations somatiques précoces (au stade du bourgeon thyroïdien lors des premiers stades de l’embryogenèse) ou des défauts développementaux stochastiques (c.-à-d., accumulation aléatoire de mutations germinales ou somatiques). Voilà pourquoi nous proposons un modèle «2 hits » combinant des mutations (épi)génétiques germinales et somatiques; ce modèle étant compatible avec le manque de transmission familial observé dans la majorité des cas d’HCDT. Dans cette thèse, nous avons déterminé si des variations somatiques (épi)génétiques sont associées à l’HCTD via une approche génomique et une approche gène candidat. Notre approche génomique a révélé que les thyroïdes ectopiques ont un profil d’expression différent des thyroïdes eutopiques (contrôles) et que ce profil d’expression est enrichi en gènes de la voie de signalisation Wnt. La voie des Wnt est cruciale pour la migration cellulaire et pour le développement de plusieurs organes dérivés de l’endoderme (p.ex. le pancréas). De plus, le rôle de la voie des Wnt dans la morphogénèse thyroïdienne est supporté par de récentes études sur le poisson-zèbre qui montrent des anomalies du développement thyroïdien lors de la perturbation de la voie des Wnt durant différentes étapes de l’organogénèse. Par conséquent, l’implication de la voie des Wnt dans l’étiologie de la dysgénésie thyroïdienne est biologiquement plausible. Une trouvaille inattendue de notre approche génomique fut de constater que la calcitonine était exprimée autant dans les thyroïdes ectopiques que dans les thyroïdes eutopiques (contrôles). Cette trouvaille remet en doute un dogme de l’embryologie de la thyroïde voulant que les cellules sécrétant la calcitonine (cellules C) proviennent exclusivement d’une structure extrathyroïdienne (les corps ultimobranchiaux) fusionnant seulement avec la thyroïde en fin de développement, lorsque la thyroïde a atteint son emplacement anatomique définitif. Notre approche gène candidat ne démontra aucune différence épigénétique (c.-à-d. de profil de méthylation) entre thyroïdes ectopiques et eutopiques, mais elle révéla la présence d’une région différentiellement méthylée (RDM) entre thyroïdes et leucocytes dans le promoteur de FOXE1. Le rôle crucial de FOXE1 dans la migration thyroïdienne lors du développement est connu et démontré dans le modèle murin. Nous avons démontré in vivo et in vitro que le statut de méthylation de cette RDM est corrélé avec l’expression de FOXE1 dans les tissus non tumoraux (c.-à-d., thyroïdes et leucocytes). Fort de ces résultats et sachant que les RDMs sont de potentiels points chauds de variations (épi)génétiques, nous avons lancé une étude cas-contrôles afin de déterminer si des variants génétiques rares localisés dans cette RDM sont associés à la dysgénésie thyroïdienne. Tous ces résultats générés lors de mes études doctorales ont dévoilé de nouveaux mécanismes pouvant expliquer la pathogenèse de la dysgénésie thyroïdienne, condition dont l’étiologie reste toujours une énigme. Ces résultats ouvrent aussi plusieurs champs de recherche prometteurs et vont aider à mieux comprendre tant les causes des dysgénésies thyroïdiennes que le développement embryonnaire normal de la thyroïde chez l’homme. / Congenital hypothyroidism from thyroid dysgenesis (CHTD) is the most common congenital endocrine disorder with an incidence of 1 in 4,000 live births. CHTD includes multiple abnormalities in thyroid gland development. Among them, the most common diagnostic category is thyroid ectopy (~ 50 % of cases). CHTD is frequently associated with a severe deficiency in thyroid hormones (hypothyroidism), which can lead to severe mental retardation if left untreated. The newborn biochemical screening program insures the rapid institution of thyroid hormone replacement therapy. Even with early treatment (on average at 9 d), subtle developmental delay is still be observed in severe cases (i.e., IQ loss of 10 points). Although there have been some reports of familial occurrence (in 2% of the cases), CHTD is mainly considered as a sporadic entity. Furthermore, monozygotic (MZ) twins show a high discordance rate (92%) for thyroid dysgenesis and female predominance is observed in thyroid dysgenesis (especially thyroid ectopy), these two observations being incompatible with simple Mendelian inheritance. In addition, germline mutations in the thyroid related transcription factors NKX2.1, PAX8, FOXE1, and NKX2.5 have been identified in only 3% of sporadic cases and linkage analysis has excluded these genes in some multiplex families with CHTD. Collectively, these data point to the involvement of non-Mendelian mechanisms in the etiology of the majority of cases of thyroid dysgenesis. Among the plausible mechanisms are epigenetic modifications, somatic mutations occurring in the thyroid bud early during embryogenesis, or stochastic developmental events. Hence, we proposed a two-hit model combining germline and somatic (epi)genetic variations that can explain the lack of clear familial transmission of CTHD. In this present thesis, we assessed the role of somatic (epi)genetic variations in the pathogenesis of thyroid dysgenesis via a genome-wide as well as a candidate gene approach. Our genome wide approach revealed that ectopic thyroids show a differential gene expression compared to that of normal thyroids, with enrichment for the Wnt signalling pathway. The Wnt signalling pathway is crucial for cell migration and for the development of several endoderm-derived organs (e.g., pancreas). Moreover, a role of Wnt signalling in thyroid organogenesis was further supported by recent zebrafish studies which showed thyroid abnormalities resulting from the disruption of the Wnt pathway during different steps of organogenesis. Thus, Wnt pathway involvement in the etiology of thyroid ectopy is biologically plausible. An unexpected finding of our genome-wide gene expression analysis of ectopic thyroids was that they express calcitonin similar to normally located (orthotopic) thyroids. Such a finding, although in contradiction with our current knowledge of the embryological development of the thyroid attributes C cell origins to extrathyroidal structures (ultimobrachial bodies) upon fusion with a fully-formed, normally situated gland. Using a candidate gene approach, we were unable to demonstrate any differences in the methylation profile between ectopic and eutopic thyroids, but nevertheless we documented the presence of a differentially methylated region (DMR) between thyroids and leukocytes in the promoter of FOXE1, a gene encoding the only thyroid related transcription factor known to play a crucial role in regulating the migration of the thyroid precursors during development as shown by animal studies. We demonstrated by in vivo and in vitro studies that the methylation status of this DMR is correlated with differential expression of FOXE1 in non-tumoral tissues (thyroids and leukocytes). Knowing that DMRs are hotspots for epi(genetic) variations, its screening among CTHD patients is justifiable in our search for a molecular basis of thyroid dysgenesis, currently underway in a case-control study. The results generated during my graduate studies represent unique and novel mechanisms underlying the pathogenesis of CHTD, the etiology of which is still an enigma. They also paved the way for many future studies that will aid in better understanding both the normal and pathogenic development of the thyroid gland.

L’hypothyroïdie congénitale

Dysgénésie thyroïdienne

L’ectopie thyroïdienne

Variations somatiques

La voie de signalisation Wnt

La variabilité du nombre de copies

FOXE1

Régulation épigénétique

Congenital hypothyroidism

Thyroid dysgenesis

Ectopic thyroid

Somatic variations

Wnt signalling pathway

Copy number variants (CNVs)

Calcitonin-producing C cells

Epigenetic regulation

Differentially methylated region (DMR)

Molekulární mechanismy regulace signální dráhy WNT / Regulatory mechanisms of WNT signalling

Pospíchalová, Vendula

January 2012

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Identificação de fatores epigenéticos associados às complicações crônicas em portadores de diabetes mellitus tipo1 / Identification of epigenetic factors associated with chronic complications in patients with type 1 diabetes mellitus

Bezerra, Daniele Pereira dos Santos

26 April 2018

INTRODUÇÃO: Fatores associados à etiopatogenia das complicações diabéticas, incluindo hiperglicemia e estresse oxidativo, podem causar alterações epigenéticas que modificam a expressão de genes em células-alvo, sem alterar sua sequência de DNA. São considerados mecanismos epigenéticos: (1) as modificações pós-traducionais das histonas; (2) a metilação do DNA e (3) a ação dos micro-RNAs (miRNAs); todos já foram reconhecidos na patogênese da \"memória metabólica\", situação na qual a hiperglicemia continua a exercer efeitos deletérios prolongados mesmo depois de ser normalizada. A sirtuína-1 é uma enzima que causa modificações pós-traducionais das histonas por sua atividade de histona desacetilase, silenciando a transcrição gênica. O silenciamento gênico também pode ocorrer pela ação da DNA metiltransferase 1 (DNMT1), enzima que adiciona um grupamento metil (CH3) na posição 5 de resíduos de citosina localizadas em ilhas CpG presentes nas regiões promotoras dos genes. Os miRNAs constituem uma classe de pequenos RNAs não codificadores com cerca de 19 a 25 nucleotídeos que controlam a expressão gênica por meio da repressão da tradução ou da degradação do RNA mensageiro-alvo. As hipóteses do presente estudo são (1) que exista um perfil sérico de miRNAs associado à presença ou ausência de complicações crônicas e (2) que existam variantes em genes relacionados à desacetilação das histonas e à metilação de citosinas que poderiam predispor ao aparecimento das complicações diabéticas, o que se constituiria na \"genética da epigenética\". OBJETIVOS: (1) caracterizar e comparar o perfil de miRNAs sérico de pacientes com diabetes mellitus tipo 1 (DM1) sem nenhuma complicação microvascular versus aqueles com três complicações microvasculares: retinopatia diabética (RD), doença renal diabética (DRD) e neuropatia diabética, para identificar vias epigeneticamente moduladas nesses dois grupos de pacientes e (2) avaliar a frequência de polimorfismos de um único nucleotídeo nos genes que codificam as enzimas DNMT1 e sirtuína-1 e suas associações com cada uma das complicações microvasculares em pacientes com DM1. MÉTODOS: O perfil sérico de 381 miRNAs foi avaliado com o uso do estojo comercial Taqman® Human MicroRNA Array A em 10 pacientes bem caracterizados clínica e laboratorialmente divididos em dois grupos: Pacientes com DM1 sem complicações [sem DRD (Clearance de creatinina > 90 ml/min/1,73 m2 e excreção urinária de albumina < 20 mg/g de creatinina), sem polineuropatia sensitivo-motora distal (ausência de sintomas sugestivos de neuropatia, sensibilidade térmica e dolorosa e reflexo aquileu normais), sem neuropatia autonômica cardiovascular (NAC) e sem RD] e Pacientes com DM1 com complicações [DRD (Clearance de creatinina < 60 ml/min/1,73 m2 e excreção urinária de albumina > 200 mg/g de creatinina), com polineuropatia sensitiva-motora distal, com NAC instalada e RD moderada ou grave]. Os cinco miRNAs mais diferencialmente expressos foram validados em uma casuística bem caracterizada de 20 pacientes com DM1 sem nenhuma complicação e 27 com todas as complicações microvasculares, com o emprego do estojo comercial TaqMan(TM) Advanced miRNA cDNA Synthesis. A avaliação da frequência de polimorfismos de um único nucleotídeo nos genes que codificam as enzimas DNMT1 (rs8112895, rs7254567, rs11085721, rs17291414, rs10854076) e sirtuína-1 (rs10997870; rs12766485) foi realizada após a genotipagem por reação em cadeia da polimerase em tempo real, em uma casuística composta por 466 pacientes com DM1. RESULTADOS: Do total de 377 miRNAs-alvo avaliados no soro dos pacientes com DM1, um total de 21 miRNAs estava superexpresso no grupo com complicações. Dos 5 miRNAs para os quais foi realizada a validação na casuística de 47 pacientes com DM1, dois foram confirmados como superexpressos na população com complicações (hsa-miR-518d-3p e hsa-miR-618). O polimorfismo rs11085721 no gene que codifica a DNMT1 associou-se à presença de NAC no sexo feminino, sendo o alelo raro C considerado de risco e conferindo um odds ratio (intervalo de confiança de 95%) de 2,44 (1,26-5,28). Nenhum polimorfismo da sirtuína-1 associou-se às complicações microvasculares avaliadas. CONCLUSÃO: o perfil de miRNAs séricos difere entre pacientes com DM1 com e sem complicações. O achado de uma variante em um gene que codifica a enzima de uma via epigenética conferir suscetibilidade a uma complicação crônica sugere que também exista a \"genética da epigenética\" modulando o desenvolvimento das complicações / INTRODUCTION: Factors associated with the etiopathogenesis of diabetic complications, including hyperglycemia and oxidative stress, may cause epigenetic changes that modify the expression of genes in target cells without altering their DNA sequence. The following mechanisms are considered epigenetics: (1) post-translational modifications of histones; (2) methylation of DNA and (3) action of micro-RNAs (miRNAs); all have already been recognized in the pathogenesis of \"metabolic memory\", a situation in which hyperglycemia exerts prolonged deleterious effects even after its normalization. Sirtuin-1 is an enzyme that causes post-translational modifications of histones by their histone deacetylase activity, silencing gene transcription. Gene silencing may also occur through the action of DNA methyltransferase 1 (DNMT1), an enzyme that adds a methyl group (CH3) at position 5 of cytosine residues located in CpG islands from gene-promoter regions. miRNAs are a class of small non-coding RNAs with about 19 to 25 nucleotides that control gene expression by promoting translation repression or degradation of target messenger RNAs. The hypotheses of the present study are (1) there is a serum profile of miRNAs associated with the presence or absence of chronic complications and (2) there are variants in genes related to histone deacetylation and cytosine methylation that could predispose to diabetes complications, which would constitute the \"genetics of epigenetics\". OBJECTIVES: (1) to characterize and compare the serum miRNA profile of patients with type 1 diabetes mellitus (T1D) without any microvascular complications versus those with three microvascular complications: diabetic retinopathy (DR), diabetic kidney disease (DKD) and diabetic neuropathy to identify signaling pathways epigenetically modulated in these two groups of patients and (2) to assess the frequency of single nucleotide polymorphisms in the genes encoding DNMT1 and sirtuin-1 and their associations with each of the microvascular complications in T1D patients. METHODS: The serum profile of 381 miRNAs was evaluated using the Taqman® Human MicroRNA Array A kit in 10 clinical and laboratory well-characterized patients divided into two groups: Patients without microvascular complications: without DKD (creatinine clearance> 90 ml/min/1.73 m2 and urinary albumin excretion < 20 mg / g creatinine), without distal sensory-motor polyneuropathy (absence of symptoms suggestive of neuropathy and normal thermal and pain sensitivity and Achilles reflex), without cardiovascular autonomic neuropathy (CAN) and without DR; and T1D patients with complications: with DKD (creatinine clearance < 60 ml / min / 1.73 m2 and urinary albumin excretion> 200 mg / g creatinine), with distal sensory-motor polyneuropathy, with CAN and with DR moderate or severe. The five most differentially expressed miRNAs were validated in a well-characterized case series of 20 patients with no complications and 27 patients with all microvascular complications using the TaqMan (TM) Advanced miRNA cDNA Synthesis kit. The evaluation of the frequency of single nucleotide polymorphisms in genes encoding the DNMT1 (rs8112895, rs7254567, rs11085721, rs1729414, rs10854076) and sirtuin-1 (rs10997870; rs12766485) was performed by genotyping using real-time polymerase chain reaction in a sample of 466 T1D patients. RESULTS: Of the total of 377 target miRNAs evaluated in the serum of T1D patients, 21 miRNAs were overexpressed in the group with complications. Of the 5 miRNAs for which validation was performed in 47 patients, two were confirmed as overexpressed in the group with complications (hsa-miR-518d-3p and hsa-miR-618). The polymorphism rs11085721 in the gene encoding DNMT1 was associated with the presence of CAN in female patients, with the minor allele C being considered of risk and conferring an odds ratio (95% confidence interval) of 2.44 (1.26 - 5.28). Polymorphisms in the gene encoding Sirtuin-1 did not associate with microvascular complications. CONCLUSION: the serum miRNA profile differs between patients with and without microvascular complications. A variant in a gene encoding a enzyme of an epigenetic pathway conferring susceptibility to a chronic complication suggests that there is also the \"genetics of epigenetics\" modulating the development of complications

Diabetes mellitus tipo 1

Diabetes mellitus type 1

Diabetic nephropathies

Diabetic neuropathies

Diabetic retinopathy

DNA (Citosina-5-) metiltransferase

DNA (cytosine-5-)-methyltransferase

Epigenetic repression

microRNAs

microRNAs

Nefropatias diabéticas

Neuropatias diabéticas

Polimorfismo de nucleotídeo único

Polymorphism single nucleotide

Repressão epigenética

Retinopatia diabética

Sirtuin 1

Sirtuína 1