Global ETD Search

601	G-CSF in Healthy Allogeneic Stem Cell Donors Hölig, Kristina 05 August 2020 (has links) Mobilization of peripheral blood stem cells (PBSC) in healthy volunteers with granulocyte colony-stimulating factor (G-CSF) is currently carried out at many institutions worldwide. This report presents the experience of the Dresden center regarding donor evaluation and mobilization schedule. Data regarding efficacy, short- and long-term safety of G-CSF treatment gained from 8290 PBSC collections in healthy donors are outlined. These results are discussed against the background of the available evidence from the literature. Although established as a standard procedure, G-CSF application to allogeneic donors will always be a very delicate procedure and requires the utmost commitment of all staff involved to ensure maximum donor safety. (PBSC) donation does not require hospitalization and is generally assumed to be less physically demanding for the donor. However, application of mobilizing agents is stringently required for successful HSC mobilization. The standard substance, which is almost exclusively used in healthy donors worldwide, is recombinant human granulocyte colony-stimulating factor (rhG-CSF). Two preparations – filgrastim and lenograstim – are available and have been approved for PBSC mobilization for about 15 years in Germany. Currently, more than 20,000 healthy donors worldwide receive rhG-CSF for PBSC mobilization every year [7]. At the Dresden University Hospital, PBSC collections have been performed since 1996. In the two collection facilities associated with the university hospital, 8,290 allogeneic PBSC collections from 8,005 donors (i.e. 285 second collections) have been documented in a database up until May 2012. This paper presents the data of our own group, and summarizes the current knowledge regarding the short- and long-term effects of G-CSF treatment in healthy stem cell donors. info:eu-repo/classification/ddc/610 ddc:610
602	Etude du rôle du récepteur à la vitamine D (VDR) dans l'hématopoïèse normale et dans les Leucémies Aiguës Myéloïde -lien avec la voie des Bone Morphogenetic Protein / Study of the Role of the Vitamin D Receptor (VDR) in Normal Hematopoiesis and in Acute Leukemias Myeloid-link with the Bone Morphogenetic Protein Pathway Zylbersztejn, Florence 23 November 2018 (has links) Une des causes d’échec les plus importantes dans la prise en charge des cancers est la rechute, reflet de la persistance de cellules souches cancéreuses. Les leucémies aiguës myéloïdes représentent la forme principale de leucémie aiguë chez l’adulte et sont caractérisées par une prolifération excessive de cellules immatures et un défaut d’apoptose. En haut de la hiérarchie clonale, les cellules souches leucémiques (CSL) au travers de leurs capacités fonctionnelles participent à l’initiation et la maintenance de la maladie. Ces cellules sont régulées à la fois de façon extrinsèque au travers du microenvironnement et de façon intrinsèque notamment les facteurs de transcription.Notre équipe travaille sur le récepteur à la vitamine D (VDR) et son ligand la vitamine D (VD) et a mis en évidence une synergie d’action entre chélation martiale et VD afin de lever le blocage de différenciation des LAM avec une toxicité réduite (Callens et al, JEM 2010). Une étude clinique rétrospective a été conduite mettant en évidence qu’un taux de vitamine D élevé chez les patients atteints de LAM avant tout traitement leur confère un meilleur pronostic (Paubelle, Zylbersztejn et al, Plos One 2013) . Nous poursuivons donc ce projet sur l’étude la voie VD/VDR dans la maintenance des cellules souches hématopoïétiques et sa dérégulation dans la LAM. Mon projet doctoral a pour objectif de déterminer l’implication du microenvironnement tumoral (voie des BMP et du VDR) dans le maintien des cellules souches leucémiques de LAM. Notre hypothèse de travail est que le récepteur à la vitamine D en plus de son rôle différenciant connu, aurait un impact sur le maintien des cellules souches hématopoïétiques normales et de LAM et que son mécanisme d’action passerait par la voie des Bone Morphogenetic Protein. Nous avons dans un premier temps démontré l’importance du VDR dans la régulation des CSH et pu tester l’intérêt de l’emploi de son ligand afin de cibler spécifiquement les cellules souches leucémiques dans des modèles pré-cliniques. Enfin nous avons pu confirmer la dérégulation de cette voie dans des cellules primaires de LAM et la régulation de ce récepteur par la voie des Bone Morphogenetic Protein. Ces travaux ouvrent de nouvelles perspectives dans la compréhension dans la biologie des CSH et de leur dérégulation dans la LAM / One of the most important causes of failure in the management of cancer is relapse, due to cancer stem cells persistence. Acute Myeloid Leukemias (AML) are the major form of acute leukemia in adults and are characterized by excessive proliferation of immature cells and apoptosis defect. At the top of the clonal hierarchy, leukemic stem cells (LSC) through their functional abilities participate in the initiation and maintenance of the disease. These cells are regulated both extrinsically mechanisms through the microenvironment and intrinsically by transcription factors.Our team is working on the Vitamin D Receptor (VDR) and its ligand Vitamin D (VD) and has demonstrated a synergistic action between iron chelation and VD in order to lift the differentiation blocking of AML with reduced toxicity (Callens et al, JEM 2010). A retrospective clinical study was conducted showing that a high vitamin D level in patients with AML before any treatment gives them a better prognosis (Paubelle, Zylbersztejn et al, Plos One 2013). We are continuing this project on the study of the VD/VDR pathway in the maintenance of hematopoietic stem cells (HSC) and its deregulation in AML. My project aims to determine the involvement of the tumor microenvironment (BMP and VDR pathway) in the maintenance of AML-LSC. Our working hypothesis is that the vitamin D receptor, in addition to its known differentiating role, would have an impact on the maintenance of normal HSC and AML and that its mechanism of action would be through the Bone Morphogenetic Protein pathway. We first demonstrated the importance of VDR in the regulation of HSCs and tested the interest of the use of its ligand to specifically target LSC in pre-clinical models. Finally we were able to confirm the deregulation of this pathway in primary AML cells and the regulation of this receptor by the Bone Morphogenetic Protein pathway. These works open up new perspectives in the understanding in CSH biology and their deregulation in AML. Cellule souche leucémique Bone morphogenetic protein Cellule souche hématopoïétique Microenvironnement Récepteur à la vitamine D Bone morphogenetic protein Microenvironnement Hematopoietic stem cell Vitamin D receptor Leukemia initiating cell
603	TP53INP1 et PLZF : acteurs du vieillissement dans l’hématopoïèse / TP53INP1 and PLZF : actors of hematopoiesis aging Zidi, Bochra 05 February 2019 (has links) Les CSH sont responsables de la production de toutes les cellules sanguines et possèdent une double capacité d'auto-renouvellement et de différenciation en progéniteurs incluant les progéniteurs lymphoïdes B. Étant donné l’importance des CSH, leur physiologie est étroitement contrôlée par une pléthore de signaux qui équilibrent quiescence, prolifération, auto-renouvellement et différenciation. La diminution de la fonction des CSH au cours du vieillissement dépend de plusieurs facteurs intrinsèques et extrinsèques, y compris l’accumulation des ROS au cours du vieillissement. Lorsque les taux de ROS intracellulaires deviennent excessifs, ils provoquent une sénescence ou une apoptose, entraînant un épuisement prématuré des CSH et un dysfonctionnement hématopoïétique. La régulation et les effets des ROS sont donc liés au destin des CSH. Notre laboratoire a dévoilé l'activité antioxydante de la protéine TP53INP1. En effet, les souris KO développent un stress oxydatif chronique. Le gène codant pour TP53INP1 est exprimé au niveau basal dans tous les types de cellules de la MO et est fortement surexprimé lorsque la moelle osseuse lors du vieillissement. L'analyse des compartiments cellulaires de la MO a montré que l'absence de TP53INP1 a un impact important sur la différenciation des cellules B, qui est étonnamment maintenue dans la moelle osseuse des souris KO âgées, et réduite chez les souris WT âgées. Ces cellules B produisent IgM et IgG et sont fonctionnelles. Le traitement antioxydant inverse le phénotype observé. Enfin, nous démontrons que la maintenance des lymphocytes B chez les souris KO âgées est dépendant de la voie de signalisation IL-7Rα / pSTAT5. / HSCs are responsible for the production of all blood cells and possess the dual ability to self-renew and differentiate into progenitor including precursors of B cells which complete their differentiation in the spleen. Given their importance, their physiology is tightly controlled by a plethora of signals that balance quiescence, proliferation, self-renewal and differentiation. The decreased repopulation and differentiation capacity of HSC during aging is believed to depend on several intrinsic and extrinsic factors, including aging-associated accumulation of ROS. At physiological level, ROS can regulate various cellular functions, including HSCs and lineage precursors proliferation, differentiation and mobilization. However, when intracellular ROS levels become excessive, they cause senescence or apoptosis, resulting in a premature exhaustion of HSCs and hematopoietic dysfunction. In this condition many signaling molecules are activated. Our laboratory has previously unveiled TP53INP1; indeed, TP53INP1- KO mice develop a chronic oxidative stress. The gene encoding TP53INP1 is expressed at basal level in all BM cell types, and strongly over-expressed when the BM upon aging. Analysis of BM cell compartments showed that the absence of TP53INP1 strongly impacts on B cell differentiation, which is surprisingly maintained in old KO BM while reduced in old WT. As shown by immunization assays, these B cells produce IgM and IgG showing that they are functional. Antioxidant treatment that scavenges ROS reverses the phenotype observed in old KO BM. Finally, we demonstrate that the B cell maintenance observed in KO old BM is due to an enhanced IL-7Rα/ pSTAT5 signaling pathways. Cellules Souches Hématopoïétiques Lymphopoïèse B Vieillissement Stress oxydatif Hémopathie Tp53inp1 Plzf. Hematopoietic Stem Cells B lymphopoiesis Aging Oxidatif stress Hemopathies Tp53inp1 Plzf
604	Distinguishing autocrine and paracrine signals in hematopoietic stem cell culture using a biofunctional microcavity platform Müller, Eike, Wang, Weijia, Qiao, Wenlian, Bornhäuser, Martin, Zandstra, Peter W., Werner, Carsten, Pompe, Tilo January 2016 (has links) Homeostasis of hematopoietic stem cells (HSC) in the mammalian bone marrow stem cell niche is regulated by signals of the local microenvironment. Besides juxtacrine, endocrine and metabolic cues, paracrine and autocrine signals are involved in controlling quiescence, proliferation and differentiation of HSC with strong implications on expansion and differentiation ex vivo as well as in vivo transplantation. Towards this aim, a cell culture analysis on a polymer microcavity carrier platform was combined with a partial least square analysis of a mechanistic model of cell proliferation. We could demonstrate the discrimination of specific autocrine and paracrine signals from soluble factors as stimulating and inhibitory effectors in hematopoietic stem and progenitor cell culture. From that we hypothesize autocrine signals to be predominantly involved in maintaining the quiescent state of HSC in single-cell niches and advocate our analysis platform as an unprecedented option for untangling convoluted signaling mechanisms in complex cell systems being it of juxtacrine, paracrine or autocrine origin. info:eu-repo/classification/ddc/572 ddc:572 info:eu-repo/classification/ddc/601 ddc:601
605	New Insights into the Cell Biology of Hematopoietic Progenitors by Studying Prominin-1 (CD133) Bauer, Nicola, Fonseca, Ana-Violeta, Florek, Mareike, Freund, Daniel, Jászai, József, Bornhäuser, Martin, Fargeas, Christine A., Corbeil, Denis January 2008 (has links) Prominin-1 (alias CD133) has received considerable interest because of its expression by several stem and progenitor cells originating from various sources, including the neural and hematopoietic systems. As a cell surface marker, prominin-1 is now used for somatic stem cell isolation. Its expression in cancer stem cells has broadened its clinical value, as it might be useful to outline new prospects for more effective cancer therapies by targeting tumor-initiating cells. Cell biological studies of this molecule have demonstrated that it is specifically concentrated in various membrane structures that protrude from the planar areas of the plasmalemma. Prominin-1 binds to the plasma membrane cholesterol and is associated with a particular membrane microdomain in a cholesterol-dependent manner. Although its physiological function is not yet determined, it is becoming clear that this cell surface protein, as a unique marker of both plasma membrane protrusions and membrane microdomains, might reveal new aspects of the cell biology of rare stem and cancer stem cells. The aim of this review is to outline the recent discoveries regarding the dynamic reorganization of the plasma membrane of rare CD133+ hematopoietic progenitor cells during cell migration and division. / Dieser Beitrag ist mit Zustimmung des Rechteinhabers aufgrund einer (DFG-geförderten) Allianz- bzw. Nationallizenz frei zugänglich. info:eu-repo/classification/ddc/610 ddc:610
606	Adhesion and Single Cell Tracking of Hematopoietic Stem Cells on Extracellular Matrices Franke, Katja 19 September 2011 (has links) The local microenvironment of hematopoietic stem cells (HSCs) in the bone marrow -referred to as stem cell niche- is thought to regulate the balance of stem cell maintenance and differentiation by a complex interplay of extrinsic signals including spatial constraints, extracellular matrix (ECM) components and cell-cell interactions. To dissect the role of niche ECM components, a set of well-defined matrix biomolecular coatings including fibronectin, laminin, collagen IV, tropocollagen I, heparin, heparan sulphate, hyaluronic acid and co-fibrils of collagen I with heparin or hyaluronic acid were prepared and analyzed with respect to adhesive interactions of human CD133+ HSCs in vitro. ECM molecule dependent adhesion areas as well as fractions of adherent HSCs were assessed by reflection interference contrast microscopy and differential interference contrast microscopy. HSCs, so far mostly classified as suspension cells, exhibited intense adhesive interactions with fibronectin, laminin, collagen IV, heparin, heparan sulphate, and collagen I based co-fibrils. An integrin mediated adhesion on fibronectin and a L-selectin mediated adhesion on heparin pointed to specific interactions based on different adhesion mechanisms. As a consequence of HSC adhesion to molecules of the vascular and the endosteal regions, both regions were confirmed as possible stem cell niches and adhesive signals were suggested as potential regulators of stem cell fate. Furthermore, the impact of a spatially organized ECM on the HSC behavior was analyzed by single cell tracking. These studies required the development of engineered three-dimensional, ECM coated microcavities with the option for single cell tracking. A semi-automated cell-tracking tool was established to accelerate data access from time-lapse image sequences. From this analysis it was possible to reveal the genealogy, localization, morphology and migration of single HSCs over a time period of 4 days. A decreased cycling frequency was observed depending on the HSC localization in the spatially constraining microcavities. Besides the revealed impact of spatial constraints on HSC fate, the newly engineered ECM-coated microcavity setup and the semi-automated cell tracking tool provide new options to study the cell fate in engineered microenvironments at single cell level for other cell types ex vivo. / Die lokale Mikroumgebung von Blutstammzellen (BSZ) im Knochenmark, bezeichnet als Stammzellnische, reguliert das Gleichgewicht von Stammzellerhaltung und -differenzierung durch ein komplexes Zusammenspiel von extrinsischen Signalen wie räumliche Beschränkungen, Komponenten der extrazellulären Matrix (EZM) und Zell-Zell Wechselwirkungen. Um die Rolle der EZM-Komponenten zu analysieren, wurden definierte Beschichtungen von Fibronektin, Laminin, Kollagen IV, monomerem Kollagen I, Heparin, Heparan Sulphat, Hyaluronsäure und Co-Fibrillen aus Kollagen I und Heparin oder Hyaluronsäure hergestellt und in vitro bezüglich der adhäsiven Wechselwirkungen von humanen CD133+ BSZ untersucht. Die Adhäsionsflächen und der Anteil adhärenter Zellen wurden in Abhängigkeit von der EZM-Beschichtung mittels Reflexions- Interferenz-Kontrast-Mikroskopie und Differentieller Interferenz Kontrast Mikroskopie bestimmt. BSZ, bisher als Suspensionszellen definiert, zeigten intensive adhäsive Wechselwirkungen mit Fibronektin, Laminin, Kollagen IV, Heparin, Heparan Sulphat und den Co-Fibrillen. Eine Integrin abhängige Adhäsion auf Fibronektin und eine L-Selektin abhängige Adhäsion auf Heparin, wiesen auf spezifische Wechselwirkungen hin, die auf unterschiedlichen Mechanismen basieren. Aufgrund der Adhäsion von BSZ sowohl zu Molekülen der vaskulären als auch der endostealen Knochenmarkregion, wurden beide Bereiche als mögliche Stammzellnische bestätigt. Adhäsive Signale sind potentielle Regulatoren der Stammzellentwicklung. Im Weiteren wurde der Einfluss einer räumlich beschränkenden EZM auf das Verhalten der BSZ durch Einzelzellverfolgung untersucht. Diese Studien erforderten die Entwicklung von dreidimensionalen EZM-beschichteten Mikrokavitäten, die das Verfolgen einzelner Zellen ermöglichten. Es wurde ein halbautomatischer Algorithmus für die Zellverfolgung etabliert, um die Datengenerierung von den Zeitreihenaufnahmen zu beschleunigen. Die Analysen ermöglichten Aussagen über die Genealogie, Lokalisierung, Morphologie und Migration einzelner BSZ während einer Analysenzeit von 4 Tagen. Eine verringerte Zellteilungsaktivität wurde in Abhängigkeit von der BSZ Lokalisierung innerhalb der räumlich einschränkenden Mikrokavitäten festgestellt. Neben diesen Erkenntnissen bieten die entwickelten Mikrokavitäten und die etablierte Einzelzellverfolgung neue Möglichkeiten auch andere Zelltypen auf Einzelzellniveau ex vivo zu untersuchen. info:eu-repo/classification/ddc/620 ddc:620
607	Functional role of the TLR4 signaling pathway in the bone marrow response to sepsis Zhang, Huajia 31 March 2015 (has links) Indiana University-Purdue University Indianapolis (IUPUI) / Sepsis is a clinical syndrome due to a systemic inflammatory response to severe microbial infection. Little is known about the changes in the bone marrow (BM) and how they affect the hematopoietic response to bacterial infection. Using an animal model of severe sepsis induced by Pseudomonas aeruginosa, we have previously reported that hematopoietic stem cells (HSC) undergo a significant expansion in the BM accompanied with myeloid suppression. This bone marrow response was Toll-like Receptor 4 (TLR4)-dependent. TLR4 is activated by bacterial lipopolysaccharide (LPS) and signals through two major independent downstream molecules: TRIF and MyD88. In the present study, I found that the TLR4/TRIF and the TLR4/MyD88 pathways contribute in a distinct manner to the BM response to P. aeruginosa's LPS. TRIF plays a major role in the expansion of the HSC pool, whereas MyD88 is required for myeloid suppression. Following LPS stimulation, HSCs enter in the cell cycle, expand and exhaust when transplanted in healthy mice. Loss of TRIF rescued completely the long-term engraftment and multilineage reconstitution potential of septic HSCs, but did not affect myeloid differentiation. Conversely, MyD88 deficiency prevented completely the myeloid suppression in the myeloid progenitors, but conferred limited protective effects on the HSC function. It is of great therapeutic value to identify the downstream molecules involved in TLR4/MyD88 dependent myeloid suppression. I found miR-21, a microRNA that is involved in inflammation, was up-regulated upon LPS challenge in a MyD88-dependent manner. However, deletion of miR-21 in the BM did not rescue LPS-induced bone marrow dysfunction, demonstrating that miR-21 is not a critical regulator in these processes. Further studies are warranted to determine the precise molecular mechanisms involved in the complex pathogenesis of BM response to sepsis. Taken together, my results show for the first time that the TLR4/TRIF signaling as a key mediator of HSC damage during acute LPS exposure and that activation of the TLR4/MyD88 signaling pathway play a dominant role in myeloid suppression. These results provide novel insights into our understanding of the molecular mechanisms underlying bone marrow injury during severe sepsis and may lead to the development of new therapeutic approaches in this disease. Septicemia Septicemia -- Treatment Bone marrow -- Histopathology Nosocomial infections -- Epidemiology Transplantation immunology Bacterial cell walls Peptidoglycans Immune response -- Regulation Immunosuppresion Immune System -- Physiology
608	Genetic Associations in Acute Leukemia Patients after Matched Unrelated Donor Allogeneic Hematopoietic Stem Cell Transplantation Rizvi, Abbas Ali 03 July 2019 (has links) No description available. Genetics Pharmaceuticals Statistics Bioinformatics Biostatistics Epidemiology
609	Hypoxia and hematopoietic stem cell control with the substance Adaptaquin : An evaluation of hematopoietic stem cell’s proliferation and differentiation in artificially induced hypoxia Christiansen, Jens January 2023 (has links) Hematopoietic stem cells (HSCs) have historically been difficult to maintain ex vivo with many attempts to culture them in vitro by mimicking their natural biological environment. Providing a hypoxic environment is one way to achieve this goal and can be performed by using hypoxia stimulating compounds that inhibits the degradation of HIF1a which plays an important role in regulating hypoxia. For each sample 50 murine HSCs were isolated with fluorescence-activated cell sorting (FACS) and cultured with different concentrations of the hypoxia inducible compound Adaptaquin for 13 days followed by analysing with flow cytometry. The results showed an increase in proliferation of treated cells with the highest average total viable cell count for cells treated with 100 nM Adaptaquin of 4,70 ± 1,12 x 105 cells compared to the control which had 2,39 ± 0,76 x 105 cells. The HSC frequency was highest in the control samples with an average of 1,91 ± 0,42 % compared to the 5 mM treated samples with the highest average HSC frequency which was 1,52 ± 0,82 %. The biggest noticeable difference between the control and treated samples was seen when observing the total cell count. The difference in proliferation was on the other hand too small to see significant difference between the samples. The conclusion is that Adaptaquin did not have any significant impact on keeping the cells undifferentiated but could have a potential to be used as a compliment to other factors to maintain HSCs in vitro and to mimic its hypoxic biological environment. / Hematopoetiska stamceller (HSCs) har historiskt sett varit svåra att odla ex vivo och många försök har genomförts in vitro genom att efterlikna deras naturliga biologiska miljö. Att tillhandahålla en hypoxisk miljö är en metod för att uppnå detta och kan göras med användning hypoxi-stimulerande substanser som hämmar nedbrytningen av HIF1a som spelar en viktig roll i regleringen av hypoxi. För varje prov isolerades 50 murina HSCs med fluorescence-activated cell sorting (FACS) och odlades med olika koncentrationer av det hypoxi-inducerande ämnet Adaptaquin under 13 dagar följt av analys med flödescytometri. Resultaten visade en ökning i avseende på proliferationen hos behandlade celler där det högsta genomsnittliga totala antalet levande celler behandlade med 100 nM Adaptaquin som var 4,70 ± 1,12 x 105 celler jämfört med kontrollen som hade 2,39 ± 0,76 x 105 celler. HSC-frekvensen var högst i kontrollproverna med ett genomsnitt på 1,91 ± 0,42 % jämfört med proverna behandlade med 5 mM Adaptaquin som hade den högsta genomsnittliga HSC-frekvensen som låg på 1,52 ± 0,82 %. Den största synliga skillnaden mellan kontroll- och behandlingsprover var synlig när det observerade totala antalet celler jämfördes mellan behandlade prover som i genomsnitt hade fler totala celler. Skillnaden i proliferation var å andra sidan för liten för att se en signifikant skillnad mellan proverna. Slutsatsen är att Adaptaquin inte hade någon signifikant påverkan på att hålla HSCs odifferentierade men kan ha potential att användas som ett komplement till andra faktorer för att odla HSCs in vitro och efterlikna dess hypoxiska biologiska miljö. Adaptaquin Flow cytometry Hematopoietic stem cells Hypoxia Hypoxia inducible factor Prolyl hydroxylase Adaptaquin Flödescytometri Hematopoetiska stamceller Hypoxi Hypoxi inducerande faktor Prolylhydroxylas Hematology Hematologi
610	Synthèse de composés outils permettant l’approfondissement des connaissances biologiques dans le domaine oncologique Dicaire-Leduc, Cédric 02 1900 (has links) Le corps humain est composé de plus de 100 000 protéines qui interagissent entre elles afin d’assurer son bon fonctionnement. Néanmoins, il peut arriver que certaines de ces protéines subissent une mutation changeant l’équilibre de fonctions du corps telles que la réplication cellulaire. Ces mutations affectant la réplication cellulaire peuvent mener à des cancers, une maladie qui touche de plus en plus de gens à travers le monde. Afin de développer des médicaments efficaces contre cette maladie, il est nécessaire de bien comprendre les mécanismes biologiques impliqués pour établir une approche thérapeutique. Cette compréhension repose notamment sur l’utilisation d’outils moléculaires, de petites molécules possédant des fonctions chimiques versatiles pouvant donner des informations critiques dans le développement de médicaments. Ce présent mémoire se consacre sur le développement d’outils moléculaires à travers deux projets ayant des objectifs distincts. Le premier projet avait comme principal objectif d’approfondir les connaissances sur l’inhibition de la protéine RAS, une GTPase responsable de plus de 30% des cancers. À cet effet, l’approche privilégiée a été celle de la synthèse de macrocycles peptidiques se liant à la cystéine 118 de RAS d’après la structure du monobody NS1. Les structures cristallines et les données protéomiques obtenues ont permis d’identifier les interactions clés entre la protéine RAS et une série d’inhibiteurs cherchant à émuler les effets biologiques de NS1. Le second projet s’intéresse quant à lui aux effets du composé UM171 sur les cellules souches. En effet, cette petite molécule possède la capacité d’empêcher la différenciation des cellules souches hématopoïétiques et permet donc leur multiplication. Cette propriété est une source d’espoir dans le traitement des leucémies et des transplantions. Cependant, la cible biologique de ce composé reste un mystère à ce jour. Ainsi la seconde partie de ce mémoire mettra de l’avant la synthèse d’outils moléculaire à base de diazirines pour tenter de venir identifier la cible d’intérêt en utilisant la protéomique. / The human body is made up of more than 100 000 proteins which interact with each other to keep it functioning properly. However, it can happen that some of these proteins undergo a mutation which changes the balance of body functions such as cell proliferation. These mutations affecting cell proliferation can lead to cancer, a disease that is affecting more and more people around the world. To develop effective drugs against this disease, it is necessary to understand the biological mechanisms involved in order to establish a therapeutic approach. This understanding is particularly based on the use of molecular tools, small molecules with versatile chemical functions that can provide critical information for drug development. This thesis is devoted to the development of molecular tools through two projects with distinct objectives. The main objective of the first project was to deepen knowledge about the inhibition of the RAS protein, a GTPase responsible for more than 30% of cancers. To this end, the preferred approach has been the synthesis of peptide macrocycles binding to RAS cysteine 118 based on the structure of NS1 monobody. The crystal structures and proteomic data obtained have made it possible to identify key interactions between the RAS protein and a series of inhibitors seeking to emulate the biological effects of NS1. The second project focuses on the effects of compound UM171 on stem cells. Indeed, this small molecule can prevent the differentiation of hematopoietic stem cells and therefore allows their multiplication. This property is a source of hope in the treatment of leukemia and transplants. However, the biological target of this compound remains a mystery to this day. Thus, the second part of this thesis will focus on the synthesis of molecular tools based on diazirines in an attempt to identify the target of interest using proteomics. Outils moléculaires RAS Macrocycles peptidiques Chimio-protéomique Cellules souches hématopoïétiques Oncologie Molecular tools Peptide macrocycles Chemoproteomic Hematopoietic stem cells Oncology

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