Global ETD Search

1	Design and synthesis of multifunctional adamantane-based dendrons for biological applications / Conception et synthèse de dendrons multifonctionnels à base d'adamantane pour des applications biologiques Grillaud, Maxime 29 September 2014 (has links) Les polymères synthétiques tels que les dendrons ou les dendrimères possèdent des propriétés structurales intéressantes. Leur monodispersité et leur synthèse étape par étape permet de contrôler et de caractériser totalement leur structure. De plus, la multivalence offre aux vecteurs une meilleure affinité d’interactions entre plusieurs copies d’un ligand lié au dendron/dendrimère et le récepteur désiré en comparaison au ligand seul. L’adamantane est une molécule rigide et stable dont plusieurs dérivés ont été commercialisés pour des applications thérapeutiques, principalement comme agents antiviraux. De plus, il est possible de le fonctionnaliser sur 4 positions symétriques via des synthèses organiques. Sa conformation 3D permet d’amoindrir les encombrements stériques entre les groupements fonctionnels. Nous avons alors choisi de combiner les propriétés de l’adamantane et des dendrons afin de construire de nouveaux vecteurs synthétiques. Leurs synthèses s’effectuent avec de hauts rendements et chaque nouveau composé a été totalement caractérisé par les différentes techniques d’analyses chimiques et structurales. Les dendrons à base d’adamantane polycationiques non cytotoxiques ont révélé une forte pénétration cellulaire permettant de mieux comprendre les mécanismes d’internalisation des dendrons. Ils ont également été évalués pour la formation de complexes avec un plasmide d’ADN. Des modifications sur leurs structures ont amélioré leur capacité à interagir avec l’acide nucléique grâce à la modification du point focal. Enfin, un peptide thérapeutique aux propriétés protectrices dans le lupus érythémateux disséminé, P140, a été couplé à un dendron à base d’adamantane à 3 branches et nous avons analysé les effets biologiques du trimère en comparaison avec le monomère. / Dendrons (wedge-shaped dendrimer sections) have been investigated as ideal nanoscale carrier molecules for the delivery of bioactive materials into the cells. Molecular engineering of these hyperbranched, monodisperse, well-defined structures can be easily performed using simple organic synthesis. Multivalency constituted by the multiple surface groups at the periphery of a dendron promotes higher binding affinity for ligand/receptor interactions. Adamantane molecule is a rigid structure consisting of four cyclohexane rings fused in chair conformation. The well-defined 3D conformation, the hydrophobicity and the lipophilicity provide to adamantane-based compounds favorable properties for their transport through biological membranes. In this context, the first part of this work was focused on the design and the synthesis of a novel type of polycationic dendrons based on adamantane, which are able to penetrate into cells without triggering cytotoxic effects. The next study of this Thesis concerned the investigation of our polycationic adamantane-based dendrons for gene delivery. We evaluated the capacity of the dendrons to complex a plasmid DNA. Hydrophobic compounds (biotin and cholesterol) were covalently bound to the focal point of the dendrons via “click” chemistry and the effects of the dendron generation, the peripheral cationic groups, and the hydrophobic modifications on the formation and stability of the complexes were studied. Finally, the dendrons constituted of an adamantane core, a focal point and three arms, were synthetized starting from a multifunctional adamantane derivative. We have coupled P140, a therapeutic peptide with protective properties in systemic lupus erythematosus, to an adamantane-based dendron and we have analyzed the biological effects of the resulting trimer compared to the monomer. Adamantane Dendron Multivalence Vecteur Adamantane Dendron Multivalency Carrier 547.2
2	Part 1: Synthesis and Study of Helical Conformation in Chiral, Internally Hydrogen-Bonded Dendrons. Part 2: Synthesis and Study of Liquid Crystalline Dendrimers Tomcik, Dennis John 02 April 2003 (has links) No description available. Chemistry, Organic Dendrimers Dendron Helical chirality
3	Élaboration de nano-objets magnétiques dendronisés à vocation théranostic / Design of dendronized magnetic nano-objects for theranostic Walter, Aurélie 26 September 2014 (has links) Cette thèse présente la conception de nano-objets magnétiques dendronisés permettant à la fois le diagnostic par imagerie par IRM et la thérapie par hyperthermie magnétique (HM). La validation in vitro et in vivo des propriétés de ces nano-objets et la démonstration de leur efficacité pour le ciblage spécifique de tumeurs sont rapportées. Un état de l’art sur la synthèse des NPs d’oxydes métalliques, leur fonctionnalisation ainsi que leurs propriétés en IRM et en HM est présenté. L’influence de la méthode de fonctionnalisation de NPs d’oxyde de fer puis l’influence de l’architecture de la molécule greffée sur la stabilité colloïdale et la relaxivité ont été étudiées. Des NPs de différentes tailles, morphologies et composition ont ensuite été synthétisées et fonctionnalisées par une molécule dendron et leurs les propriétés en IRM et en HM ont été étudiées. Le ciblage spécifique de la mélanine au sein de mélanome a été montré. / This thesis presents the design of dendronized magnetic nano- objects for both diagnostic imaging by MRI and magnetic hyperthermia therapy (HM). In vitro and in vivo validation of these nano-objects properties and the demonstrattion of their effectiveness for specific targeting of tumors are reported. A state of the art on the synthesis of metal oxide NPs, their functionalization and their properties in MRI and HM is presented. The influence of the NPs iron oxide functionalization method and the influence of the molecule architecture on the colloidal stability and relaxivity were studied. NPs of different sizes, morphologies and composition were then synthesized and functionalized with a dendron molecule and the MRI and HM properties were investigated. The specific targeting of melanin in melanoma was demonstrated. Nanoparticules Dendron IRM Hyperthermie Ciblage Nanoparticles Dendron MRI Hyperthermia Targeting 541.3
4	EXPANDING APPLICATIONS OF IRON OXIDE NANOPARTICLES BY SURFACE FUCNTIONALIZATION: FROM MAGNETIC RESONANCE IMAGING TO NANO-CATALYSIS Duanmu, Chuansong 01 December 2009 (has links) In this dissertation, research efforts mainly focused on exploring the applications of superparamagnetic iron oxide nanoparticles (SPIONs) in MR imaging and nanocatalysis via surface functionalization. A dopamine-based surface-functionalization strategy was established. The Simanek dendrons (G1 to G3), oligonucleotides and amino acids were loaded onto SPION surfaces via this approach to develop pH-sensitive MRI contrast agents, specific-DNA MR probes and a biomimetic hydrolysis catalyst. Dendron-SPION conjugates (G1 to G3) have good aqueous solubilities and high transverse relaxivities (>300 s-1mM-1). They also showed interesting strong pH-sensitive R2 and R2 relaxivities, which were governed by the clustering states of dendron-SPIONs in different pH environments. Values of R2m and R2* m/R2m varied by over an order of magnitude around pH 5. The efficient cell-uptake (~3 million/cell) and low cytotoxicity of G1 to G3-SPIONs were demonstrated on HeLa cell cultures. The strong R2* effects were observed indicating the SPION clustering in HeLa cells. Two SPION-oligonuleotide conjugates were synthesized by coupling two half-match oligonucleotides onto domapine-capped SPIONs via SPDP linkers. They served as MR probes to detect a single-strand DNA with the same sequence to miRNA-21 based on the change of R2 values due to the DNA-bridged SPION clustering. The detection limit of the DNA could reach to 16.5 nM. A biomimetic hydrolysis nanocatalyst (i.e., Fe2O3-Asp-His complex) was developed by loading Asp and His-dopamine derivatives onto SPIONs. Paraoxon and nitrophenyl acetate were hydrolyzed under a mild condition (neutral pH, 37 °C) catalyzed by the Fe2O3-Asp-His complex. The two amino acids Asp and His cooperated with each other on the SPION surfaces to catalyze hydrolysis reactions. This catalyst could be recycled by a magnet and reused for four times without a significant loss of catalytic activity. Dendron Iron Oxide Nanoparticles MRI Contrast Agent Nanocatalysis Surface Functionalization
5	Harnessing DNA nanoarchitecture to overcome immunoevasion in cancer Davis, Meredith A. 24 May 2024 (has links) Immunotherapy offers a promising approach to cancer treatment by harnessing a patient’s own immune system to fight malignant cells. However, the clinical application of immunotherapy has been hindered by the immunosuppressive tumor microenvironment generated by cancer cells as a mechanism to impede immune function and evade immune detection. Clinically used immunotherapies, such as immune checkpoint inhibitors and adoptive cell therapy, aim to overcome the immunosuppressive tumor microenvironment by blocking key regulatory pathways and exogenously activating immune cells. While effective against some cancers, these therapies are still limited by systemic toxicity, poor delivery kinetics, and continuous tumor adaptation that leads to immune escape. Herein, we propose the synthesis of nanoscale branching DNA architectures, known as dendrons, to (1) encode and deliver a DNA sequence, termed G3YSD, capable of activating the cyclic GMP-AMP synthase (cGAS)-stimulator of interferon genes (STING) pathway; and (2) deliver epigenetic modifiers to reprogram immunosuppressive cues in tumor cells. This solution exploits the modularity, programmability, and ease of control over DNA synthesis to generate architectures that exhibit improved delivery kinetics and favorable presentation of cargo to enhance immunomodulatory effects. Our proposed solution directly targets immunosuppressive mechanisms in tumor cells to sensitize them to immune attack and make them more easily recognized by the immune system. Delivery of G3YSD-encoding dendrons to murine B16 melanoma significantly increased the expression of major histocompatibility complex I (MHC I) and programmed cell death-ligand 1 (PD-L1) surface-bound receptors, which are critical for immune signaling pathways. The chemical conjugation of romidepsin, a histone deacetylase inhibitor, to G3YSD-encoding dendrons resulted in more than a 2-fold increase in MHC I expression compared to unconjugated G3YSD sequences and free romidepsin, indicating that the spatial arrangement and presentation of romidepsin has a synergistic impact on cGAS-STING signaling. In addition, pretreatment of B16 melanoma cells with zebularine, a DNA methyltransferase inhibitor, followed by G3YSD-encoding dendrons significantly increased levels of cytotoxic T lymphocyte-mediated lysis in a physiologically relevant co-culture. Developing novel architectures capable of interacting with tumor cells to remodel and overcome immunosuppressive cues will lead to significant advances in the field of immunotherapeutic design and cancer treatment. / 2026-05-23T00:00:00Z Biomedical engineering cGAS-STING Dendron Epigenetic modifiers Immunotherapy Melanoma
6	Synthèse et recyclage de catalyseurs métallodendritiques par leur greffage sur des nanoparticules magnétiques Amorin Rosario, Daniel 14 December 2009 (has links) La récupération et le recyclage des catalyseurs représentent un véritable challenge économique, sanitaire et environnemental. Depuis quelques années, l’utilisation des nanoparticules magnétiques comme support de catalyseurs a émergé comme une voie alternative pour leur recyclage. En effet, les catalyseurs supportés sur des nanoparticules magnétiques peuvent être facilement isolés et recyclés par décantation magnétique avec un simple aimant. Dans ce travail, nous décrivons la synthèse de métallodendrons porteurs de site catalytiques diphosphinopalladium et leur greffage sur des nanoparticules magnétiques cœur-écorce. L’intérêt majeur de ce travail a été de montrer la grande efficacité du recyclage des catalyseurs notamment en milieu aqueux. L’utilisation judicieuse des structures dendritiques a permis d’augmenter la fonctionnalisation de la surface des MNPs. Ceci nous a permis de préparer des catalyseurs supportés très performants dans des réactions de couplage de Suzuki et de Sonogashira / The recovery and recycling of catalysts represent a real challenge for economic, health and environmental reasons. Since few years, the use of magnetic nanoparticles as catalysts supports has emerged as an alternative for their recovery. Indeed, magnetic nanoparticles-supported catalysts could be easily isolated and recycled from the reaction medium by magnetization with a simple magnet. In this work, we report the synthesis of metallodendrons bearing pallado phosphine catalysts and their grafting onto core-shell magnetic nanoparticles. The main interest of this work was to demonstrate the efficiency of the recycling especially in aqueous media. Judicious use of dendritic structures has increased the surface functionalization of nanoparticles. Therefore, it was possible to prepare highly performant catalysts for Suzuki and Sonogashira cross-coupling reactions. Catalyse supportée Dendron Nanoparticule magnétique Palladium Recyclage Sonogashira Suzuki Supported catalysis Dendron Magnetic nanoparticles Palladium Recycling Sonogashira Suzuki
7	Synthèse d'une diversité de glycoclusters : effet multivalent sur l'inhibition des glycosidases / Synthesis of a library of glycoclusters : multivalent effect for glycosidases inhibition Schneider, Jérémy 01 February 2017 (has links) Les premiers iminosucres multivalents rapportés dans la littérature datent de 1999. Depuis, c’est plus d’une centaine de clusters de ce type qui ont été synthétisés et décrits une quarantaine de publications. L’obtention d’un premier effet multivalent fort sur une glycosidase, en 2010, a initié de nouveaux travaux visant à étudier et à comprendre son mécanisme et ses limites. Dans cette optique le présent travail de thèse a exploité plusieurs approches. La première partie décrit la synthèse de dendrons "cliquables" permettant de multiplier par trois ou par neuf la valence initiale des plateformes utilisées. La deuxième est une étude de la synthèse d’espaceurs rigides. La troisième est la préparation de plateformes modulables, des neo-cyclodextrines, pour obtenir un contrôle plus fin de la topologie des clusters. L’association de dendrons "cliquables" et de plateformes cyclopeptoïdes de dimensions contrôlées a abouti à un résultat sans précèdent en termes d’effet multivalent. Ainsi, le cluster 36-valent à ligands DNJ est un inhibiteur 170 000 fois plus fort que l’analogue monovalent correspondant sur l’alpha-mannosidase des pois sabre blanc (Jack Bean). / The first multivalent iminosugars were published in 1999. From this date, it’s more than a hundred of clusters that were synthesized and presented in about forty publications. In 2010, the first strong multivalent effect in glycosidase inhibition was obtained and prompted further studies of its mechanism and its limits. To reach these goals, this PhD work has developed different strategies. The first was to synthesize "clickable" dendrons which can lead to a multiplication of the initial valency of our scaffolds by three or by nine. The second approach was a study to obtain rigid linkers. The third one was the preparation of modular scaffolds, neo-cyclodextrins, in order to finely tune the topology of the resulting clusters. The combination of our "clickable" dendrons with cyclopeptoid scaffolds gave an unprecedented multivalent effect on glycosidase inhibition. The 36-valent DNJ-based cluster is indeed a 170 000-fold more potent inhibitor than the corresponding monovalent control for Jack Bean alpha-mannosidase. Iminosucres Effet multivalent CuAAC Dendron Cyclopeptoïdes Inhibition de glycosidases Iminosugars Multivalent effect CuAAC Dendron Glycosidase inhibition 547.2 547.7
8	Engineering dendritic architectures to face nanomedicine issues : biodistribution, toxicity, pharmacokinetics or active targeting / Ingénierie d'architectures dendritiques pour la résolution de problématiques de nanomédecine : biodistribution, toxicité, pharmacocinétique ou ciblage actif Bordeianu, Catalina 29 September 2016 (has links) Le cancer est une cause majeure de décès dans le monde, 7,6 millions de décès en 2008. Bien que de nombreux progrès ont été réalisés dans le traitement du cancer, de nouvelles approches sont nécessaires afin de minimiser les effets secondaires délétères et d'augmenter le taux de survie. Par conséquent, l'avenir de la nanomédecine réside dans le développement de nano-plateformes multifonctionnelles. Il ne fait aucun doute que les hybrides organique / inorganique à base de dendrons représentent des outils très avancés, capables de cibler spécifiquement et d'être suivis par imagerie en même temps. Dans ce contexte, les objectifs de cette thèse sont non seulement la conception de nano-objets magnétiques dendronisés biocompatibles permettant à la fois le diagnostic par imagerie à résonance magnétique (IRM) ainsi que par imagerie optique (IO) mais également la validation in vitro et in vivo des propriétés de ces nano-objets et la démonstration de leur efficacité pour le ciblage spécifique de tumeurs. / Cancer is a worldwide leading cause of death, 7.6 million deaths in 2008 with 13% mortality. Although much progress has been made in early cancer diagnosis and treatment, new approaches are needed to minimize the deleterious side effects while increasing survival rate. Therefore, the future of Nanomedicine relies in the development of multifunctional nano-platforms that combine therapeutic components, multimodal imaging and active targeting. Organic/inorganic dendrimer-based hybrids are very advanced tools, especially for targeting a specific cell type or a particular organ and for being followed by imaging techniques at the same time.In this context, the objective of this thesis is not only the design of multifunctional magnetic dendronized nano-objects, but also their in vitro and in vivo validation and assessment of their active targeting effectiveness. Dendrimer/dendron Biodistribution Ciblage actif Nanoparticules d’oxyde de fer Nanoparticules dendronisées Dendrimer/dendron Biodistribution Active targeting Iron oxide nanoparticles Dendronized nanoparticles 547.1 620.5
9	Synthesis and in vitro applications of fluorescent imaging agents Brunet, Aurelie Claude Laure January 2014 (has links) Fluorescent imaging technologies that offer new ways to visualise and quantify fluorescently labelled molecules are increasing, necessitating the development of fluorescent molecules that can efficiently and specifically label targets in vitro and in vivo. The first aim of this thesis was the study of human neutrophil elastase. Human neutrophil elastase is an important enzyme in the regulation of inflammation but if over expressed can become part of the cause of inflammation itself. To elucidate this dual function and have a greater understanding of this enzyme, an imaging probe for neutrophil elastase was designed. Firstly, the syntheses of fluorescently labelled three branched dendron core structures were optimised, and studied in neutrophils. The selected core structure was functionalised with an elastase specific peptide sequence and fluorescently labelled. The probe was specifically cleaved by neutrophil elastase in an enzymatic assay and in the presence of activated neutrophils (Chapter 1). Fluorescein and rhodamine are dyes that are readily available, are affordable and have convenient wavelengths for microscopy and flow cytometry. Carboxyfluorescein diacetate N-succinimidyl ester (CFDA-SE) is a commonly used fluorescein derivative, widely used in cell proliferation assay. It is mainly used as a mixture of isomers and its synthesis is not reported. Herein a short and simple synthesis of the two individual isomers of carboxyfluorescein diacetate N-succinimidyl ester as well as the equivalent rhodamine variation (carboxytetraethylrhodamine N-succinimidyl ester) is reported (Chapter 2). The labelling properties of these probes were studied in proliferation assays on mouse and human T lymphocytes. Finally, the nuclear penetration of the dendron structure combined with nuclear localisation sequences (NLS) was investigated. Attachment of nuclear localisation sequences to the probe in the presence of fluorescein demonstrated successful entry into the nucleus in human alveolar adenocarcinoma cell line (A549) (Chapter 3). 572
10	Bile Acid Derived Adaptive Dendrons And Anion Receptors Ghosh, Sanjib 12 1900 (has links) Chapter 1. Bile acid derived adaptive dendrons Bile acids are naturally occurring rigid, chiral molecules with unique facial amphiphilicity making it an attractive build block for designing supramolecular systems. Synthesis of bile acid derived chiral dendrimers with acetates protecting the peripheral hydroxyl groups has already been reported by our group (Figure 1). These dendrons did not survive an attempted deprotection of the acetates, as the dendritic linkages were ester linkages. To keep the facial amphiphilicity of bile acid fragments intact, we have worked on two different synthetic strategies. Bile acid derived dendritic components having chloroacetate functional group were synthesized and the α-halo ketone was reacted with a bile acid carboxylate to generate a dendritic species with free hydroxyl group having a glyocolate spacer (Figure 2). At the same time we also were able to protect bile acid hydroxyl group as its corresponding benzyl ether and after dendron synthesis, benzyl groups were removed by hydrogenolysis to give bile acid derived dendritic components with free hydroxyl groups and simple ester linkages (Figure 2). Dye solubilization ability of these dendrons was tested. We observed that some of these structures had the ability to solubilize both a polar dye in a nonpolar solvent and/or a nonpolar dye in a polar solvent. We carried out different extraction techniques (liquid-liquid, solid-liquid) and transport experiments to establish that these dendrons can act as both as normal and inverse micellar mimics. Depending upon the polarity of the medium, this dendron (Figure 2, right) can adopt different conformation and hence this is described as an “adaptive dendron” (Figure 3). Chapter 2. Bile acid derived anion receptors We discovered that the self-condensation of 3α-chloroacetyloxy cholic acid produced a “cholaphane” with free hydroxyl groups in just two step from naturally occurring bile acid. This cyclic dimer (Figure 4) is an inside-out cyclodextrin analog having a polar interior and nonpolar outer surface. The structure of this molecule was confirmed by X-ray crystallography (Figure 5). This molecule showed a remarkable ability to bind two fluoride ions in its cavity (K1 = 1900 M-1 and K2 = 250 M-1 in CHCl3). The pair of doublets from the glycolate methylene hydrogen spacers were found to collapse to a singlet and they again reappear as a pair of doublets with increase in the concentration of fluoride. This anomalous behaviour of gylcolate methylene spacers were rationalized by MP2 calculation at the 6-31+G* level which showed that upon interaction with fluoride, electron density on C-H hydrogen decreased while that on the other geminal hydrogen increased. Detailed NMR study and interaction of fluoride with different acyclic compounds enabled us to determine the mode of fluoride binding. Based on the NMR data and calculation results, fluoride binding models were proposed involving O-H…F- and C-H…F- interactions. When the binding affinity of cyclic dimer was examined for other anions, this molecule showed weak affinity to chloride ions (K ~ 100 M-1) whereas for other bigger anion (HSO4-, H2PO4-) it showed no binding. Similar interactions were utilized to generate bile acid based tripodal geometry where those receptors were able to bind anions weakly (K ~ 100-200 M-1 for fluoride, chloride and bisulphate). Bile Acids Dendron Anion Receptors Dendrimers - Synthesis Anion Binding Adaptive Dendrons Organic Chemistry

Search results