Global ETD Search

201	Criblage virtuel et expérimental de chimiothèques pour le développement d’inhibiteurs des cytokines TNF-alpha et IL-6 / Virtual and experimental screening of chemical libraries for the development of inhibitors of cytokines TNF-alpha and IL-6 Perrier, Julie 17 December 2014 (has links) Les biothérapies (anticorps monoclonaux, récepteurs solubles) ciblant les cytokines IL-6 etTNF-alpha pour le traitement des maladies inflammatoires chroniques ont constitué un succèsmajeur de l’industrie pharmaceutique. Elles présentent néanmoins des inconvénientsimportants : résistances, mode d’administration contraignant, coût élevé.Notre équipe travaille sur l’identification de petites molécules inhibant directement cescytokines, afin d’élargir l’offre thérapeutique existante. Administrées par voie orale, ellesconstitueraient une alternative particluièrement favorable aux patients.Durant ma thèse, j’ai réalisé le criblage expérimental (tests cellulaires et tests biochimiquesde liaison) des meilleurs composés identifiés par criblage virtuel d’un grande chimiothèque dediversité, ainsi que de composés dérivés de pyridazine issus d’une chimiothèque médicinale. J’aiainsi pu identifier plusieurs inhibiteurs directs du TNF-alpha et de l’IL-6. De plus, mon travail apermis d’affiner les procédures de criblage du Laboratoire.Ces travaux ouvrent de nouvelles pistes pour le développement de médicaments anti-cytokines. / Anti-cytokine biologics (monoclonal antibodies, soluble receptors) targeting TNF-alpha and IL-6in chronic inflammatory diseases have been a major success for pharmaceutical industry.However, they exhibit several drawbacks : resistance, difficult administration, high costs.Our team works on the discovery of small molecule inhibitors of cytokines suck as TNF-alphaand IL-6, in order to widen the range of therapeutic drugs. Orally active drugs would represent ahighly beneficial alternative for patients.During my PhD, I have performed an experimental screening (using cellular and biochemicalbinding testings) of the best compounds identified through virtual screening of a large chemicallibrary, and on pyridazine compounds of a medicinal chemical library. I have been able toidentify several small molecules inhibiting the interaction of TNF-! and IL-6 with their receptor.Moreover, my work will have an impact on the laboratory screening strategies.Overall, this work opens new avenues for anti-cytokine drug discovery. Petite molécule Inhibitor Interleukine 6 Tumor necrosis factor alpha Criblage expérimental Criblage virtuel Inflammation Drug discovery Small molecule Inhibitor Interleukine 6 Tumor necrosis factor alpha Experimental screening Virtual Screening Inflammation Drug discovery 570
202	Models and algorithms applied to metabolism : from revealing the responses to perturbations towards the design of microbial consortia / Modéliser le métabolisme : expliciter les réponses aux perturbations et composer des consortia microbiens Julien-Laferriere, Alice 08 December 2016 (has links) Lors de cette thèse, je me suis intéressée à la modélisation du métabolisme des micro-organismes. Nous nous sommes focalisé sur le métabolisme des petites molécules qui ne prend pas en compte les réactions associées aux macromolécules, telle que la synthèse des protéines.Nous avons ainsi utilisé différents formalismes de modélisation.Tout d'abord, nous avons développé TOTORO où les réseaux métaboliques sont représentés par des hypergraphes dirigés et qui permet d'identifier les réactions ayant participé à une transition métabolique. TOTORO a été utilisé sur un jeu de données sur la levure en présence de cadmium. Nous avons pu montrer que nous retrouvons les mécanismes connus de désintoxication.Ensuite, en utilisant une méthode de modélisation par contraintes, nous discutons d'un développement en cours, KOTOURA, qui propose d'utiliser les connaissances actuelles de concentrations de métabolites entre différentes conditions pour inférer de manière quantitative les possibles asynchronies des réactions lors du passage d'un état stable à un autre. Nous avons testé son implémentation sur des données simulées.Enfin, nous proposons MULTIPUS, une méthode d'extraction d'(hyper)-arbres de Steiner dirigés qui permet de sélectionner les voies métaboliques pour la production de composés au sein d'une communauté bactérienne. Les réseaux métaboliques sont modélisés en utilisant des hypergraphes dirigés et pondérés. Nous proposons un algorithme de programmation dynamique paramétré ainsi qu'une formulation utilisant la programmation par ensemble réponse. Ces deux propositions sont ensuite comparées dans deux cas d'applications / In this PhD work, we proposed to model metabolism. Our focus was to develop generic models, that are not specific to one organism or condition, but are instead based on general assumptions that we tried to validate using data from the literature.We first present TOTORO that uses a qualitative measurement of concentrations in two steady-states to infer the reaction changes that lead to differences in metabolite pools in both conditions.TOTORO enumerates all sub-(hyper)graphs that represent a sufficient explanation for the observed differences in concentrations. We exploit a dataset of Yeast (Saccharomyces cerevisiae) exposed to cadmium and show that we manage to retrieve the known pathways used by the organisms. We then address the same issue, but using a constraint-based programming framework, called KOTOURA, that allows to infer more quantitatively the reaction changes during the perturbed state. We use in this case exact concentration measurements and the stoichiometric matrix, and show on simulated datasets that the overall variations of reaction fluxes can be captured by our formulation.Finally, we propose MULTIPUS, a method to infer microbial communities and metabolic roads to produce specific target compounds from a set of defined substrates. We use in this case a weighted directed hypergraph. We apply MULTIPUS to the production of antibiotics using a consortium composed of an archae and an actinobacteria and show hat their metabolic capacities are complementary. We then infer for another community the excretion of an inhibitory product (acetate) by a 1,3-propanediol (PDO) producer and its consumption by a methanogene archae Métabolisme des petites molécules Modélisation des réseaux métaboliques Communautés microbiennes Consortium synthétique Hypergraphes dirigés Programmation sous contraintes Hyper-histoires métaboliques Transition métabolique Small molecule metabolism Metabolic network modelling Bacterial communities Synthetic consortium Directed hypergraphs Constraint-based programming Metabolic hyperstories Metabolic shifts 570.15
203	Characterisation of Monoclonal Antibodies and Small Molecule Inhibitors as Hepatitis C Virus Entry Inhibitors Bose, Mihika January 2016 (has links) (PDF) Hepatitis C virus (HCV) represents a global health threat. HCV is a blood-borne positive-strand RNA virus belonging to the Flaviviridae family that infects ~160 million people worldwide. About 70% of infected individuals fail to clear the virus and subsequently develop chronic hepatitis, frequently leading to liver cirrhosis and in some cases hepatocellular carcinoma. Therapeutic options for HCV infection are still limited and a protective vaccine is not yet available. Currently available therapies include administration of pegylated alpha interferon in combination with ribavirin. The recently approved protease inhibitors Boceprevir and Telaprevir are also included in the treatment regimen. However, limitations to the treatment with direct-acting antivirals (DAAs) are associated with severe side effects and low sustained virological response (SVR) rates that vary depending on the virus and host genotype. The replication step of the viral life cycle is mostly targeted by majority of DAAs. Recent findings have suggested that a combination of entry inhibitors together with DAAs exhibit a synergistic effect in the treatment of HCV. Therefore, identification of efficient HCV entry inhibitors is of high priority In vitro studies have shown that HCV attachment and subsequent entry into the host cells is mediated by E1 and E2 viral envelope proteins. HCV entry requires interaction with a number of receptors which include CD81, scavenger receptor B1 (SR-B1) and the tight junction proteins, claudin 1 (CLDN1) and occludin (OCLN). Since the E2 glycoprotein is reported to interact directly with cellular receptors, it is an attractive target for neutralisation. The present study focuses on the establishment and characterisation of entry inhibitors as antivirals for HCV. The thesis is presented in three chapters: Chapter 1- ‘Introduction’, provides a brief overview on HCV genotypes, genome organisation, life cycle including details on the entry process and therapies used for the treatment of HCV. Chapter 2 describes the generation of monoclonal antibodies (mAbs) against HCV envelope proteins as potent anti-viral agents for the prevention of HCV infection. Data on the identification and characterization of the neutralizing epitopes of HCV envelope proteins have been presented. Chapter 3 includes isolation of entry inhibitors of HCV from natural sources and identification and characterization of the active components exhibiting antiviral property. A number of studies have reported the role of neutralizing antibodies in the course of HCV infection and emerging data suggest protective effect of antibodies against HCV infection. Most of the ongoing studies are based on HCV genotype 1a which is prevalent globally. However in India, the prevalent genotype is 3a. Therefore, we established a panel of mAbs against HCV-LPs comprising of core-E1-E2 derived from genotype 3a as described in chapter 2. HCV-LP based system has been used in this study since it mimics the biophysical conformation, morphology and antigenic properties of the native virion and represents a model system for studies on viral binding and entry. MAbs were characterised and analyzed for their ability to prevent viral binding and entry into host cells. Three mAbs namely E3D8, H6D3 and A10F2 were identified to recognize the E2 viral glycoprotein which significantly inhibited HCV-LP binding to Huh7 cells in vitro. The neutralizing epitopes corresponding to the mAbs were identified using overlapping truncated fragments and synthetic peptides of the E2 protein. Our experiments suggest that the epitopes recognised by the inhibitory mAbs are unique and different from those reported till now. The synergistic effect of a combination of mAbs on virus neutralization has shown promising results for treatment of viral infections. Since in the present study the epitopes recognised by the mAbs are non-overlapping, we went ahead to determine whether a combination of these mAbs would enhance the ability to block HCV-LP binding. Indeed, flow cytometry and fluorescence microscopy studies revealed that a combination of the antibodies efficiently blocked the binding of HCV-LP to human hepatoma cells. More importantly and of relevance is the observation that the mAbs in combination inhibited viral infection (JFH1 strain) and replication in permissive human hepatocytes as determined by real time RT-PCR. Phytochemicals present in plants have been considered as conducive for prevention of several viral infections and are found to be promising antiviral agents. Natural products which are biologically active disclose drug-like properties since they are small molecules and can be easily metabolised and absorbed by the body. In our study as described in chapter 3, we evaluated extracts from Indian medicinal plants and fruits which are known to have hepato-protective effect, for natural potent attachment and entry inhibitors for HCV. Flow cytometric analysis suggested that the root extract of the herb Boerhavia diffusa and fruit extract of Prunus domestica exhibited high antiviral activity by inhibiting the binding of Hepatitis C virus like particles (HCV-LPs) to the human hepatoma cells. We went on to isolate, identify and confirm the active principles to be Boeravinone H, a dehydrorotenoid, (from Boerhavia diffusa) and Rutin, a flavonoid, (from Prunus domestica) by LC-ESI-MS, NMR, UV and IR spectral analysis. Our study revealed that the compounds block the attachment as well as entry step probably by targeting the viral particle. We also assessed the efficiency of these small molecules (Boeravinone H and Rutin) to inhibit HCV negative strand synthesis post entry by real time RT-PCR. Results suggest significant inhibition of viral entry and infection in the HCV cell culture (ex vivo). To our knowledge it is the first report on Boeravinone H and Rutin as entry inhibitor for HCV. In conclusion, our findings support the potential of employing a cocktail of neutralizing mAbs and antiviral agents from natural source in the management of HCV infection. Hepatitis C Virus Monoclonal Antibodies Hepatitis C Virus Infection Hepatitis C Virus Entry HCV Small Molecule Inhibitors Hepatitis C Virus Treatment HCV Treatment Rutin Hepatitis C Virus E2 Protein Biochemistry
204	Single Molecule Fluorescence and Force Measurements on Non-Canonical DNA Structures Mustafa, Golam 17 March 2022 (has links) No description available. Biophysics Physics
205	Mechanistic and therapeutic evaluation of a novel antiantiogenic small molecule Sulaiman, Rania S. 24 May 2016 (has links) Indiana University-Purdue University Indianapolis (IUPUI) / Choroidal neovascularization (CNV) is the vision-threatening characteristic of wet age-related macular degeneration (AMD), a major cause of blindness affecting almost 2 million elderly Americans. The current approved treatments target the dominant angiogenic mediator, vascular endothelial growth factor (VEGF). However, repeated injections of anti-VEGF drugs can cause ocular and systemic side effects, and about 30% of wet AMD patients are non-responsive. There is thus an unmet need to develop VEGF-independent antiangiogenic molecules to complement or combine with existing medications. I studied SH-11037, a novel homoisoflavonoid with potent and selective antiangiogenic activity against human retinal endothelial cells. Intravitreal SH- 11037 dose-dependently suppressed angiogenesis in the laser-induced CNV (LCNV) mouse model. These effects were prominent as early as 7 days post-laser treatment as measured by a novel ellipsoid quantification method of optical coherence tomography images in vivo. A supratherapeutic dose of 100 μM SH- 11037 was not associated with signs of murine ocular toxicity, and did not interfere with pre-existing retinal vasculature or retinal function. SH-11037 synergized with anti-VEGF therapy in vitro and in vivo, suggesting a VEGFindependent mechanism. By photoaffinity pulldown, I identified soluble epoxide hydrolase (sEH) as an SH-11037-binding target. sEH is a key enzyme in ω-3 and ω-6 fatty acid metabolism. sEH levels were dramatically upregulated in retinal sections from L-CNV mice and a specific sEH inhibitor, t-AUCB, significantly suppressed L-CNV lesion volume. Additionally, SH-11037 inhibited sEH enzymatic activity in vitro and in vivo in L-CNV mice. Given the role of sEH in the metabolism of docosahexaenoic acids (DHA), inhibition of sEH using small molecules like SH-11037 would enhance ocular DHA levels, with beneficial antiangiogenic and anti-inflammatory effects. SH-11037 is thus a novel sEH inhibitor, which could make it an alternative or additive therapy to existing anti- VEGF drugs for treatment of neovascular diseases in the eye and other tissues. Ocular Angiogenesis Small molecule Wet age-related macular degeneration Choroidal neovascularization Ocular angiogenesis Retinal degeneration -- age factors Blindness -- age factors. Vascular endothelial growth factors Neovascularization inhibitors Eye -- diseases Drugs -- side effects Choroid -- diseases
206	Leveraging Small Molecule Activators of Protein Phosphatase 2A (PP2A) toElucidate PP2As Role in Regulating DNA Replication and Apoptosis Perl, Abbey Leigh 28 January 2020 (has links) No description available. Biomedical Research Cellular Biology Pharmacology protein phosphatase 2A PP2A DNA replication replisome DNA damage cell division cycle 45 CDC45 genome stability small molecule activator of PP2A SMAP cell cycle checkpoint apoptosis cancer cell biology
207	FUNCTIONAL AND STRUCTURAL STUDIES OF THE PAPAIN-LIKE PROTEASE ENCODED IN CORONAVIRUS NON-STRUCTURAL PROTEIN 3 Mackenzie E. Chapman Imhoff (15349264) 29 April 2023 (has links) <p>Coronaviruses (CoVs) are single-stranded, positive-sense RNA viruses in the Coronaviridae family. Within this family are four different genera, Alpha-, Beta-, Gamma-, and Deltacoronaviruses with human-infecting CoVs spanning the Alpha- and Beta-CoV genera. Most notably, Severe Acute Respiratory Syndrome Coronavirus-1 (SARS-CoV-1) and SARS-CoV-2 are Betacoronaviruses that spread worldwide in their outbreaks from 2002-2003 (SARS-CoV-1) and 2019-2020 (SARS-CoV-2). Human-infecting Alphacoronaviruses, NL63-CoV and 229E-CoV, have caused milder infections involving respiratory disease, gastroenteritis, and in more severe cases, death. Despite milder disease, Alphacoronaviruses are the cause of 15-30% of severe upper and lower respiratory tract infections each year. There have been recent efforts in the development of potent, small-molecule inhibitors to treat SARS-CoV-2 infection but there is an ongoing need to develop new and effective anti-coronavirus therapeutics to treat other human-infecting CoVs circulating society. Coronaviruses encode two essential proteases, the papain-like protease (PLP) and the 3C-like protease. PLPs are cysteine proteases located in non-structural protein 3 (nsp3). PLPs processes the viral polyprotein, releasing the first three nonstructural proteins encoded in the virus, and also are involved in evading the innate immune response through deubiquitinating (DUB) and deISGylating activity. </p> <p><br></p> <p>This study compares the substrate specificity and catalytic function of multiple human-infecting PLPs from both Alpha- and Beta-CoVs including NL63-CoV PLP2, 229E-CoV PLP2, Canine-CoV PLP2, FIPV-CoV PLP2, PEDV-CoV PLP2, SARS-CoV-1 PLpro, and SARS-CoV-2 PLpro. Interestingly, Alphacoronavirus PLP2s have a >400-fold greater catalytic efficiency for ubiquitin compared to Betacoronaviruses PLpro. This work also identifies a non-covalent scaffold of inhibitors that has pan-CoV inhibition; however, the IC50 values are >30-fold higher for NL63-CoV PLP2 than for SARS-CoV-1 PLpro. The X-ray structures of NL63 PLP2 and 229E PLP2 were determined to 2.1 Å and 1.8 Å, respectively, and provide structural information about the substrate and inhibitor binding region that could be the result in the differences in Alpha- and Betacoronavirus PLP function. Since PLP does not function as a single-domain in vivo, it is critical to understand the function of PLP when tethered to other domains of nsp3. This study also investigates nine different constructs of SARS-CoV-2 nsp3 with increasing domains, ranging from the single PLpro domain to Ubl1-Ydomain ΔTM1-TM2. Interestingly, the longer constructs of SARS-CoV-2 nsp3 show less catalytic efficiency for Ub-AMC and greater affinity for ISG15-AMC, with 8-fold lower Km values compared to PLpro alone. Lastly, each SARS-CoV-2 nsp3 construct was inhibited by a known PLpro inhibitor, GRL-0617, with reported IC50 values ranging from 0.91 μM to 1.9 μM. These data show that GRL-0617 still remains a lead compound to be optimized for cellular potency. </p> <p><br></p> <p>Overall, this dissertation advances the understanding of the kinetic and structural differences between Alphacoronavirus PLP2 and Betacoronavirus PLpro enzymes in the efforts of developing a pan-CoV inhibitor. Additionally, these data provide initial kinetic and biophysical characterization of PLpro within the larger context of nsp3 to elucidate the function of PLpro in its most native context during coronaviral infection.</p> Enzymes coronavirus Papain-like protease (PLpro) papain-like protease 2 enzyme kinetics assays protein purification methods deubiquitinating enzyme activity deISGylase Activity Small-Molecule Inhibitors Targeting covalent fragment library non-structural protein 3
208	Synthese intramolekularer Frustrierter Lewis-Paare mit aluminiumbasierten Akzeptoreinheiten und ihre Reaktivität gegenüber kleinen Molekülen Federmann, Patrick 28 February 2023 (has links) Frustrierte Lewis-Paare (FLPs) bestehen aus einer Lewis-Säure und -Base, die an der gegenseitigen Neutralisierung gehindert werden und so erfolgreich zur Aktivierung kleiner Moleküle eingesetzt werden konnten. Als Elektronenpaarakzeptoren wurden bislang vorwiegend Borane erforscht. Aluminiumbasierte Systeme, insbesondere intramolekularer Art, sind trotz ihrer ausgeprägten Lewis-Acidität unterrepräsentiert. In der vorliegenden Dissertation wurde untersucht, welche Syntheserouten sich zur Darstellung intramolekularer Phosphor/Aluminium-FLPs mit großer räumlicher Trennung der Lewis-Funktionen eignen und welche Reaktivität diese aufweisen. An einem Xanthenrückgrat mit Diphenylphosphineinheit konnten durch Lithiierung und Metathese Dimesityl- und Bis(pentafluorphenyl)alaneinheiten eingeführt werden und die resultierenden P/Al-FLPs sind in der Lage, Tetrahydrofuran zu öffnen. Das perfluorierte Derivat wies dabei eine zehnfach höhere Geschwindigkeitskonstante der Ringöffnungsreaktion auf. Mittels quantenchemischer Rechnungen konnte dies auf die gesteigerte Lewis-Acidität des Aluminiumzentrums zurückgeführt werden. Durch den Zinn-Aluminium-Austausch eines trimethylstannylierten Xanthenvorläufers mit Methylaluminiumverbindungen konnten P/Al-FLPs aufgebaut werden, die durch ein weiteres Äquivalent des Alanpräkursors stabilisiert werden. Die Verbindungen sind imstande, Kohlenstoffdioxid zu aktivieren, wobei die CO2-Addukte der verschiedenen Derivate mit zunehmender Anzahl elektronegativer Substituenten an den Aluminiumzentren eine zunehmende thermodynamische Stabilisierung erfahren. Die neuartige Syntheseroute konnte auch zur Darstellung eines biphenylengebundenen P/Al-FLPs genutzt werden. In diesem Fall ist das Aluminiumzentrum durch die Wechselwirkung mit dem Phosphandonor ausreichend gesättigt, um die Isolierung der gespannten Verbindungen in monomerer Form zu ermöglichen. Dennoch weist das Alan eine hohe Lewis-Acidität auf und der FLP reagiert mit CO2 und Propadien. / Frustrated Lewis pairs (FLPs) consist of a Lewis acid and base, which are prevented from neutralising each other and in turn could be successfully used to activate small molecules. Boranes have been predominantly explored as electron pair acceptors. In contrast, aluminium-based systems, in particular intramolecular ones, are underrepresented despite their pronounced Lewis acidity. The aim of the present dissertation was to fathom which synthetic route is suitable for the preparation of intramolecular phosphorus/aluminium FLPs with large spatial separation of the Lewis functions and to investigate their reactivity. On a xanthene backbone bearing a diphenylphosphine moiety, dimesityl and bis(pentafluorophenyl)alane units could be introduced by lithiation and metathesis, and the resulting P/Al-FLPs are able to open tetrahydrofuran. The perfluorinated derivative exhibited a tenfold higher rate constant of the ring opening reaction. Using quantum chemical calculations, this could be attributed to the increased Lewis acidity of the aluminium centre. Using a tin-aluminum exchange on a trimethylstannylated xanthene precursor with methylaluminium compounds, P/Al-FLPs could be constructed, which are stabilised by another equivalent of the aluminium precursor. The compounds are capable of activating carbon dioxide, and the CO2 adducts of the various derivatives become increasingly stabilised as the number of electronegative substituents at the aluminium centres increases. The novel synthetic route could also be applied for the synthesis of a P/Al-FLP on the biphenylene linker. In this case, the aluminium centre is sufficiently saturated by an interaction with the phosphane donor to permit the isolation of the strained compounds in monomeric form. Nevertheless, the alane exhibits high Lewis acidity and the FLP reacts with CO2 and propadiene. Frustrierte Lewis-Paare FLP Aluminium Aluminiumorganyle Organoaluminiumverbindungen Aktivierung kleiner Moleküle Zinn-Aluminium-Austausch frustrated Lewis pairs FLP aluminium aluminum organoaluminum small molecule activation tin-aluminum exchange 546 Anorganische Chemie VH 9707 VH 8042 VE 6357 ddc:546
209	FRAGMENT BASED DRUG DEVELOPMENT BASED ON 6,7 DIMETHOXYQUINAZOLINE AS A CORE SCAFFOLD Orahoske, Cody M. 11 July 2023 (has links) No description available. Cellular Biology Chemistry Biology Biochemistry Pharmacology Oncology Drug discovery Pharmacophore 6,7-dimethoxyquinazoline Small molecule drugs Molecular mechanism of action Structure-activity relationship Lead optimization
210	Role of HDACs in the regulation of TERT in neuroblastoma Finkler, Sabine 24 February 2021 (has links) 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

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