Global ETD Search

1	A fragment-based drug discovery approach for the development of selective inhibitors of protein kinase CK2 Mitchell, Sophie Lousie January 2018 (has links) Over the last twenty years, fragment-based drug discovery (FBDD) has emerged as a highly successful way to provide lead compounds for subsequent optimisation into drug candidates. Initial hits usually exhibit lower potency than those identified by more traditional techniques, such as High-Throughput Screening (HTS), but the optimisation phase of FBDD is highly efficient, thus providing superior lead-like compounds. The recent application of FBDD in a variety of protein kinase campaigns has successfully led to the identification of novel binding sites and highly efficient chemical ligands. This demonstrates the utility of the FBDD strategy against well-established kinase targets, where selectivity is otherwise challenging due to significant conservation of the ATP-binding site. Protein kinase CK2 is a ubiquitously expressed and constitutively active regulator of cell growth, proliferation and apoptosis. Elevated levels of CK2 protein and activity have historically been involved in human cancer, including lung, cervical and head and neck cancer types, and its overexpression is associated with worse prognosis. A number of CK2 inhibitors are currently available displaying activity against multiple cancers in vitro and in the clinic, however the majority of these candidates target the ATP-binding site and thus display poor selectivity in kinase panel assays. Here we explore the application of FBDD towards the development of potent and selective inhibitors of the catalytic α-subunit of CK2. This project exploits a novel, conserved binding site, named the αD pocket, for the generation of allosteric inhibitor molecules. Following structure-based optimisation of a potent inhibitor series, and characterisation of a previously unreported binding mode, a fragment linking strategy between the lead αD-site fragment and a low-affinity pseudosubstrate peptide is investigated. This work validates the utility of FBDD towards the discovery of new binding modes, presents a first in class CK2α allosteric inhibitor series and provides the first X-ray crystal structure of protein kinase CK2 in complex with a ligand binding in the substrate-binding channel.
2	Ligand selectivity: binding at the protein-protein interface of Keap1 and NEMO Lynch, Andrew John 13 February 2016 (has links) This dissertation comprises identifying the structural determinants of binding selectivity as demonstrated in three systems. The first system involves the structure determination of Keap1-small molecule fragment complexes to locate binding surfaces. The second system involves the structural determination of a NEMO/IKKbeta complex to serve as a platform for future fragment binding validation studies. The third system involves the structural investigation of a bacterial phosphoglycosyltransferase found in Campylobacter concisus to find the active site. Keap1 binding of Nrf2 is a regulatory mechanism to inhibit the transcription factor activity of Nrf2 to upregulate Nucleoporin p62 (p62). Nucleoporin p62 is a regulator of tau protein aggregates in Alzheimer's disease. The determination of binding hot spots in the Keap1 active site could serve as a starting point for the development of inhibitors as a treatment method for Alzheimer’s disease. To achieve this, I have developed a crystal form of Keap1 that allows for fragment-based study of binding in the active site via small molecule fragment screening and X-ray crystallography. Analysis of collected data has resulted in the solution of four structures, one containing a peptide fragment and three containing small molecule fragments that occupy a region of binding within the Keap1 active site, demonstrating the utility of the crystal form and affording information on binding hot spots. Nuclear factor κ-light-chain enhancer of activated B cells (NF-κB) is a transcription factor and has been linked to cancer, inflammation, and immune dysfunction. The enzyme complex IκB kinase (IKK) is a regulator of NF-κB and consists of three subunits: IKK-α, IKK-β, and NEMO. If NEMO activity is abrogated, IKK is unable to activate NF-κB, making it a promising therapeutic target. My research has found crystallization conditions and performed trials of phase determination on an N terminal IKKβ-binding construct of NEMO containing previously uncharacterized regions of this protein. Glycosylation is a commonly occurring post-translational modification that affects a number of processes including protein folding, trafficking, cell-cell interactions and host immune response. The phosphoglycosyl transferase PglC is an essential part of the Campylobacter glycosylation pathway and a possible antibacterial target. My research determined the crystallization conditions and has developed complexes and protein constructs for phase determination of this single-pass transmembrane protein and will in the future provide a platform for structure-based inhibition of this protein. Biochemistry Fbdd Keap1 NEMO Nrf2 Structure
3	Identifying selective ligands for glutaredoxin proteins with fragment based drug design approach and optimization of the bacterial selective hits Khattri, Ram Bahadur 09 June 2016 (has links) No description available. Biochemistry Chemistry
4	Etude et modulation des interactions protéine-protéine : l’activation de la petite protéine G Arf1 par son facteur d’échange Arno / Study and modulation of protein-protein interactions : Activation of the small G protein (Arf1) by its guanidine exchange factor (ARNO) Rouhana, Jad 10 April 2013 (has links) Arf1 est une petite protéine G (pG), essentiellement impliquée dans le trafic vésiculaire. Arf1 oscille entre deux conformations, l'une active liée au GTP et l'autre inactive associée au GDP. Arno est un des facteurs d'échange (GEF) capable d'activer Arf1 en stimulant l'échange GDP/GTP. Suractivée dans les cellules invasives du cancer du sein, Arf1 joue un rôle important dans la migration et la prolifération des cellules cancéreuses.Le but de ma thèse s'inscrit dans l'étude et la modulation de l'interaction pG-GEF, et plus spécifiquement, le couple Arf1-Arno. Mon travail a été planifié autour de deux axes: (1) L'étude fine de l'interaction entre Arf1 et Arno, et sa modulation avec un inhibiteur connu la Bréféldine A (BFA). (2) La mise en place d'une stratégie de conception d'inhibiteurs de l'interaction protéine-protéine du couple Arf1-Arno.Dans un premier temps, nous avons mis en place une méthode basée sur la résonance plasmonique de surface (SPR) permettant la détermination des paramètres cinétiques de l'interaction entre Arf1 et Arno. Nous avons précisé aussi les conséquences des partenaires allostériques (GDP, GTP, et Mg2+) et de la BFA sur les paramètres cinétiques de l'interaction. Ceci a permis une analyse fine de la régulation allostérique et du mode d'action de la BFA. Appliquée à d'autres inhibiteurs, cette méthode permettra d'examiner leur mécanisme d'inhibition.Dans la deuxième partie j'expose, la stratégie que nous avons utilisé pour la conception rationnelle d'inhibiteur de l'interaction entre Arf1 et Arno. Elle est basée sur le criblage virtuel de fragments au niveau des résidus clé « hotspots » de l'interaction, la validation des molécules-touches par des techniques biophysiques, et l'élimination de molécules artefacts. Les structures des complexes fragments-Arno ont été résolues, ce qui confirme la validité de cette stratégie ouvrant la voie vers l'optimisation moléculaire pour obtenir des inhibiteurs plus efficaces. / Arf1 is a small GTPases, essentially involved in the vesicular traffic. Arf1 switch between two conformations, an active form bound to GTP and an inactive form bound to GDP. Arno is one of the exchange factors (GEF) that can activate Arf1, through its catalytic Sec7 domain, promoting the exchange of GDP by GTP. Activated in breast cancer cells, Arf1 plays an important role in the migration and proliferation of cancer cells.The aim of my thesis was the study and the modulation of the interaction between small G proteins and their GEFs, more precisely the Arf1-Arno interaction. My work has been planned around two axes: (1) the study of the interaction between Arf1 and Arno, and its modulation with a known inhibitor Brefeldin A (BFA). (2) The development of a rational strategy for designing inhibitors of protein-protein interaction for the Arf1-Arno complex.In the first part of my PhD work, we set up a Surface Plasmon Resonance (SPR) method allowing to determine the kinetic parameters of the interaction between Arf1 and Arno. We also studied the effects of allosteric partners such as GDP, GTP and Mg2+ as well as the known uncompetitive inhibitor (Brefeldin A). This SPR approach allowed a very informative analysis at qualitative and quantitative levels of the various complexes taking place during the exchange reaction that should help to solve the inhibitory mechanism for the known inhibitors reported in the literature. In the second part of my thesis, we propose a strategy for targeting the interaction between Arf1and Arno. This approach is based on virtual screening of fragments at hotspot regions. Using biophysical techniques such fluorescence techniques, SPR, NMR and X-Ray crystallography, we identified and validated Hits, showing by crystallographic structural data their modes of interaction with the target protein Arno. A fluorescence polarization test was also developed to identify false positive fragments to eliminate promiscuous aggregators. Taken together, our work proposes a method based on SPR allowing the study of known inhibitors of GEFs, understanding at molecular level their mode of action. We also propose a general strategy for finding Hit fragments that designing competitive inhibitor of the interaction small G protein with its GEFs, that can be the scaffold for designing more powerful inhibitors. Fragment-based drug design Spr Interaction protéine-protéine Fbdd Spr Protein-Protein Interaction 577
5	Computational, Synthetic, Biochemical and Biological Studies and Characterization on STAT3 Inhibitors for Potential Anticancer Therapy Yu, Wenying 04 September 2013 (has links) No description available. Pharmacy Sciences STAT3 Anti-cancer therapy In silico site-directed FBDD MLSD
6	Conception et synthèse de molécules à visée anti-infectieuse selon deux stratégies : le criblage à haut débit et l’approche par fragments / Design and synthesis of anti-infectious molecules using two different strategies : high throughput screening and fragment-based drug discovery approaches Prevet, Hugues 30 September 2016 (has links) La découverte d’un candidat médicament repose sur l’identification de hits, présentant des propriétés physico-chimiques adéquates pour leur optimisation. Le criblage à haut débit et l’approche par fragments sont deux techniques couramment utilisées lors de cette étape d’identification et elles ont été mises en œuvre au cours de ma thèse dans le but de découvrir de nouveaux composés ciblant d’une part le complexe CD81/CLDN-1 pour empêcher l’entrée du virus de l’hépatite C (VHC) dans les hépatocytes et d’autre part EthR2, un régulateur transcriptionnel mycobactérien, afin de potentialiser l’activité d’un antituberculeux sur les souches résistantes de M. tuberculosis.Dans une première partie, un criblage à haut débit sur le complexe CD81/CLDN-1 a permis d’identifier des modulateurs en série thiéno[2,3-c]pyrazole. Ces composés ont été pharmacomodulés et un composé spécifique de l’étape d’entrée du VHC, non toxique et présentant une activité submicromolaire a pu être ainsi identifié. Cette sonde pharmacologique permettra de mieux comprendre les mécanismes impliqués dans le processus d’entrée virale.Dans une deuxième partie, nous nous sommes intéressés à la conception de nouveaux fragments dits privilégiés. Ainsi, le développement des voies de synthèse, sous irradiation micro-onde, de deux entités moléculaires, le noyau 1,4-benzodiazepine-2,5-dione et le noyau spirohydantoïne, nous a permis d’obtenir 34 composés originaux. Afin d’évaluer le potentiel de cette stratégie, une librairie virtuelle de fragments a été générée et son criblage in silico sur la protéine MDM2 a été effectué. La mesure in vitro de l’activité des hits identifiés permettra de valider l’intérêt de cette approche pour la découverte de nouveaux ligands ciblant les interactions protéine-protéine.Dans une troisième partie, des inhibiteurs d’un répresseur transcriptionnel mycobactérien impliqué dans la potentialisation de l’activité de l’éthionamide ont été développés. A l’issue d’un criblage de 960 fragments, l’identification d’un hit en série tropinone, et sa cocristallisation avec la protéine EthR2, a permis d’entamer une optimisation rationnelle qui a conduit à l’obtention rapide de composés présentant de meilleures activités. / The discovery of drug candidates is based on the identification of hits with appropriated physico-chemical properties for further development. High throughput screening and fragment-based drug discovery approaches are two strategies commonly used for this identification. These strategies were applied during my PhD research work for identifying not only new modulators of the CD81/CLDN-1 complex to prevent entry of the Hepatitis C virus (HCV) into hepatocytes but also inhibitors of the mycobacterial transcriptional repressor, called EthR2, to boost ethionamide antibacterial activity against resistant strains of M. tuberculosis.Firstly, a high throughput screening assay was developed to identify molecules bearing a thieno[2,3-c]pyrazole scaffold that modulate the CD81/CLDN-1 complex. The structure-activity relationships allowed us to design and synthesize one non-toxic compound that inhibits viral entry with an IC50 in the submicromolar range. This best analog will be used as pharmacological tool to understand the molecular mechanism involving the CD81/CLDN-1 interaction during virus entry.Secondary, we worked on the design and synthesis of a new generation of fragments called privileged fragments. We focused our interest on the 1,4-benzodiazepine-2,5-dione and spirohydantoin scaffolds and using microwave-assisted conditions 44 original privileged fragments have been synthesized. To further illustrate the potential of our privileged fragments, a virtual focused library has been generated and screened in silico on MDM2 protein. The in vitro evaluation of the identified hits will allow us to validate our approach and to show the potential of our privileged fragments for the discovery of new hits against protein-protein interactions.Finally, inhibitors of a new mycobacterial transcriptional repressor involved in the boosting of ethionamide activity have been developed. Screening of 960 fragments allowed us to identify a hit bearing a tropinone scaffold which was cocrystallized with EthR2. A rational design from this cocrystal structure led rapidly to more potent ligands. Virus de l'hépatite C CD81 Claudine-1 Inhibiteurs Hépatocytes HTS Frangments privilégiés 3D FBDD Chimiothèque Tuberculose Éthionamide EthR2 Potentialisation Hepatitis C virus CD81 Claudin-1 Inhibitors Hepatocytes HTS Priviliged fragments 3D FBDD Chemical library Tuberculosis Ethionamide EthR2 Boosting
7	The automatic detection of small molecule binding hotspots on proteins : applying hotspots to structure-based drug design Radoux, Christopher John January 2017 (has links) Locating a ligand-binding site is an important first step in structure-guided drug discovery, but current methods typically assess the pocket as a whole, doing little to suggest which regions and interactions are the most important for binding. This thesis introduces Fragment Hotspot Maps, a grid-based method that samples atomic propensities derived from interactions in the Cambridge Structural Database (CSD) with simple molecular probes. These maps specifically highlight fragment-binding sites and their corresponding pharmacophores, offering more precision over other binding site prediction methods. The method is validated by scoring the positions of 21 fragment and lead pairs. Fragment atoms are found in the highest scoring parts of the map corresponding to their atom type, with a median percentage rank of 98%. This is reduced to 72% for lead atoms, showing that the method can differentiate between the hotspots, and the warm spots later used during fragment elaboration. For ligand-bound structures, they provide an intuitive visual guide within the binding site, directing medicinal chemists where to grow the molecule and alerting them to suboptimal interactions within the original hit. These calculations are easily accessible through a simple to use web application, which only requires an input PDB structure or code. High scoring specific interactions predicted by the Fragment Hotspot Maps can be used to guide existing computer aided drug discovery methods. The Hotspots Python API has been created to allow these work flows to be executed programmatically through a single Python script. Two of the functions use scores from the Fragment Hotspot Maps to guide virtual screening methods, docking and field-based ligand screening. Docking virtual screening performance is improved by using a constraint selected from the highest scoring polar interaction. The field-based ligand screener uses modified versions of the Fragment Hotspot Maps directly to predict and score the binding pose. This workflow gave comparable results to docking, and for one target, Glucocorticoid receptor (GCR), showed much better results, highlighting its potential as an orthogonal approach. Fragment Hotspot Maps can be used at multiple stages of the drug discovery process, and research into these applications is ongoing. Their utility in the following areas are currently being explored: to assess ligandability for both individual structures and across proteomes, to aid in library design, to assess pockets throughout a molecular dynamics trajectory, to prioritise crystallographic fragment hits and to guide hit-to-lead development.
8	NUCLEAR MAGNETIC RESONANCE SPECTROSCOPY IN THE STUDY OF PROTEIN-LIGAND INTERACTIONS Morris, Daniel L. 23 May 2018 (has links) No description available. Biochemistry Bioinformatics Biology Biophysics Cellular Biology Chemistry Medicine Microbiology Molecular Biology Molecular Chemistry Molecules Organic Chemistry Pedagogy Pharmaceuticals NMR X-ray crystallography protein FBDD glutaredoxin, mitoNEET lysozyme
9	Synthèse stéréosélective d'Hybrides de lobéline et de ligands naturels des récepteurs nicotiniques centraux à l’acétylcholine / Stereoselective synthesis of hybrids of lobeline and natural ligands of central nicotinic acetylcholine receptors Venot, Pierre-Etienne 26 March 2015 (has links) Au cours de ce travail, nous avons développé des voies de synthèses convergentes et énantiosélectives en vue de préparer des analogues pyrrolidiniques des alcaloïdes de Lobelia comme nouveaux ligands des récepteurs nicotiniques à l’acétylcholine. Deux familles de ligands ont été réalisées par des méthodes d’élongation mono- ou bi-directionnelle basées respectivement sur des stratégies de désymétrisation précoce ou tardive au départ du succinaldéhyde.La première partie de ce manuscrit aborde la conception d’hybrides de lobéline, nicotine et d’agonistes naturels. Ces structures originales ont été obtenues diastéréosélectivement grâce à un intermédiaire commun issu d’une élongation monodirectionnelle du succinaldéhyde. Cette voie exploitera la chimie des iminiums masqués. La mise au point de cette synthèse s’est enrichie par la découverte et la valorisation d’une nouvelle famille de ligands chimériques.La seconde partie étudie la voie d’élongation bidirectionnelle basée sur des réactions de double aza-Michael suivies de la réduction désymétrisante tardive de pyrrolidines 2,5-phénacyl méso et pseudo-méso. Cette stratégie asymétrique s’inscrit dans une démarche d’économie d’atomes et d’étapes. La perspective majeure de ce travail est l’évaluation par électrophysiologie sur différents sous-types de récepteurs à l’acétylcholine d’une sélection de ligands hybrides.Les études de RSA menées sur ces familles de composés de haute homologie structurale permettront in fine d’améliorer les modèles prédictifs décrivant les transitions allostériques des récepteurs nicotiniques à l’acétylcholine / During this PhD work, convergent and diastereoselective routes for the preparation of pyrrolidine Lobelia alkaloid analogues have been developed as novel neuronal nicotinic receptor ligands. Two families of ligands have been synthesized by a strategy of mono- or bi-directional elongation of the succinaldehyde including early or late desymmetrization process respectively.The first part of this manuscript is dedicated to the preparation of hybrids of lobeline, nicotine and other natural agonists. These original structures have been diastereoselectively obtained thanks to a common intermediate resulting of the mono-elongation of succinaldehyde. This synthetic pathway uses the chemistry of masked iminium. The development of this strategy has been enriched by the discovery and the valorisation of a new chimeric ligand family.The second part studies the “bidirectional” elongation route, based on a ring-closing double aza-Michael reaction followed by the desymmetrizing reduction of meso and pseudo-meso 2,5-diphenacyl pyrrolidines. This asymmetric strategy constitutes a step- and atom-economical approach. The major perspective of this work is the biological evaluation of selected ligands by electrophysiology made on different nAChR subtypes.The SAR studies realized on these structurally homologue ligand families could allow the improvement of the predictive molecular models describing the allosteric conformations of the nAChRs. Aza-Michael Oxazolopyrrolidine Iminium Réduction désymétrisante Alcaloïdes de Lobelia Hybrides Approche par fusion de fragments Aza-Michael Oxazolopyrrolidine Iminium Desymmetrizing reduction Lobelia alkaloids Hybrids Merging Fragment based drug design (FBDD)
10	Fragment-based approaches to targeting EthR from mycobacterium tuberculosis McConnell, Brendan Neil January 2019 (has links) Tuberculosis affects millions of people worldwide every year. The current treatment for TB is divided into a regimen of both first- and second-line drugs, where first-line treatments are more tolerated and require shorter treatment lengths. With rising levels of resistance, alternative treatment regimes are urgently needed to fight this disease. Ethionamide, a second-line drug is administered as a prodrug which is activated in vivo by the enzyme EthA, which is in turn regulated by EthR. The disruption of the action of EthR could lead to novel therapeutics which could enhance the efficacy of ethionamide, and raise it to a first-line treatment. The work reported in this thesis examines the elaboration of three chemical scaffolds using fragment-based approaches to develop novel inhibitors capable of disrupting the EthR-DNA interaction. The first scaffold, 5-(furan-2-yl)isoxazole was investigated by fragment-merging approaches and produced compounds with the best of these having a KD of 7.4 uM. The second scaffold, an aryl sulfone was elaborated using fragment-merging strategies. This led to several modifications of the fragment, leading to several variants with KDs around 20 uM. With both of these series the affinity could not be improved below 10 uM and due to the synthetic complexity a further scaffold was prioritised. The third scaffold was explored was a 4-(4-(trifluoromethyl)phenyl)piperazine using fragmentgrowing from the NH of the piperazine to probe deeper into the EthR binding pocket. In addition to this, SAR around the 4-(trifluoromethyl)phenyl group was assessed to explore the interactions with EthR. These modifications led to compounds with nanomolar IC50s. A range of compounds were then screened by REMAssay to determine the boosting effect on ethionamide, and this identified compounds with up to 30 times boosting in the ethionamide MIC. The final chapter examines a concept where compounds were designed to exploit the dimeric nature of EthR by linking two chemical warheads with a flexible linker. These compounds are examined using mass spectrometry to investigate the stoichiometry of the interaction to provide insight into the binding of these extended compounds and exploring an alternative strategy to inhibit EthR. The work in this thesis demonstrated the successful use of fragment-based approaches for development of novel EthR inhibitors which showed significant ethionamide boosting effects.

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