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Studies of Poly(Propyl Ether Imine) Dendrimers as Synthetic SiRNA Delivery Vectors with Relevance to Hepatitis C Virus InhibitionLakshminarayanan, Abirami January 2015 (has links) (PDF)
Dendrimers are synthetic macromolecules with branches-upon-branches structures, nanoscale dimensions and a high density of surface groups. Presence of multiple cationic sites in dendrimers permits their efficient nucleic acid complexation and cellular internalization through endocytic pathways. PETIM dendrimers of are characterized by tertiary amine branch points, and ether linkages. A third generation PETIM dendrimer, G3(NH2)24, with nitrogen at the core and twenty four peripheral primary amines was synthesized through alternate Michael addition and reduction reactions. The ability of G3(NH2)24 to interact with DNA was ascertained by spectroscopic and bio-physical techniques. These studies established the formation of dendrimer-DNA, and complex formation was also shown to protect the plasmid DNA from nucleases. Toxicity studies in cell culture, as well as, in female Balb/c mice established the non-toxic properties of the dendrimer. G3(NH2)24 was able to mediate efficient transfection in mammalian cells and in vivo.
Targeted delivery of small interfering RNA (siRNA) to hepatocytes, in order to combat hepatitis C virus (HCV) infection was undertaken to expand the scope of PETIM dendrimer based gene delivery. Functionalization of the dendrimer periphery with galactose units ensured preferential delivery to the liver through multivalent interactions with the asialoglycoprotein receptors on the liver cell surface. The delivery of siRNA to the perinuclear region, in close proximity to the HCV RNA replication site resulted in ~75% decrease in viral RNA levels in replicon containing cells, as well as, JFH-1 infectious virus systems. The dendrimer-siRNA complexes were preferentially delivered to mice liver and were active in vivo.
Physico-chemical studies of the protonation pattern of PETIM dendrimer indicated that the protonation of the dendrimer amines proceeded in a shell-wise pattern from the periphery to the core. The primary amines of the dendrimer as well as the outer shell tertiary amines with pKa values ~7-10 were protonated at physiological pH and were cationic sites for nucleic acid condensation. The inner shell tertiary amines with a pKa of ~4-6 were protonated at endosomal pH and aided ‘endosomal escape’ due to the high buffering capacity of 3.5.
Work described in the Thesis establish a new synthetic dendrimer vector, namely, the series of PETIM dendrimers, as a high value gene delivery vector, making in-roads towards pre-clinical and possible clinical trials in future studies.
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Ingénierie, photophysique et fonctionnalisation de chromophores pour la bio-photonique non linéaire in-vivo / Engineering, photophysique and functionalization of chromophores for in-vivo and non-linear bio-photonicMettra, Bastien 19 November 2015 (has links)
L’utilisation de chromophores absorbant à deux photons (ADP) pour des applications en photothérapie dynamique (PDT) et en imagerie de fluorescence présente de nombreux avantages. Les propriétés non-linéaires de ces chromophores permettent notamment d’améliorer la longueur de pénétration dans les organismes vivants ainsi que la résolution. Pour des applications in-vivo la biocompatibilité de ces chromophores lipophiles doit aussi se poser. Une étude d’ingénierie pour le développement de chromophores pour la PDT-ADP en utilisant des atomes de brome comme groupe générateur d’oxygène singulet est décrite. Différents paramètres dont le nombre et la position des atomes de brome sur la chaîne carbonée, la longueur de conjugaison, la géométrie des chromophores ont été étudiés. Cette étude permet de mettre en évidence l’importance de la position des substituants bromes et de la symétrie sur le rendement de croisement inter-système.Les observations spectroscopiques faites lors de l’étude d’ingénierie ont permis de développer des chromophores pour la microscopie de fluorescence à deux photons. La biocompatibilité est apportée grâce à un polymère d’(hydroxyethyl)acrylate. Ce polymère permet de créer une coquille hydrosolubilisante covalente. Ces chromophores ont été utilisés pour faire de l’imagerie de vascularisation cérébrale de haute résolution. Une observation particulière sur un chromophore, marquage des cellules endothéliales des parois des vaisseaux sanguins intravitaux ainsi que les applications en résultant sont présentées. Des stratégies visant l’amélioration de la sélectivité des systèmes polymères/chromophores pour des applications intravitales, comme le traitement des tumeurs cancéreuses sont décrites. Une stratégie de modification des fonctions hydroxy des chaînes polymères par des groupements imidazoliums est présentée. L’étude de complexation des polymères avec l’ADN et les études spectroscopiques in-cellulo ont été réalisées. / The use of two-photon absorbing (TPA) chromophore for applications in photodynamic therapy (PDT) and fluorescence imaging provides many advantages. The non-linear properties make it possible to increase both observation depth in animals and 3D resolution. Nevertheless, for in-vivo applications, improving bio-compatibility of these inherently lipophilic chromophore is a challenge. The development of new chromophores for PDT-TPA using a molecular engineering approach using bromide substituents as singlet oxygen generators is described. Parameters like position and number of bromide, the conjugated length and chromophore symmetry are studied. The study shows the importance of bromide atom position and of the symmetry on the inter system crossing efficiency. During the engineering study, spectroscopic observation and rationalization permit to envision the design of new chromophores for two photon laser scanning fluorescent microscopy. Bio-compatibility of these chromophores is provided by (hydroxyethyl)acrylate polymer, which provides a covalent water-soluble shell. These chromophores are used to make high resolution image of cerebral vascularization. One of these chromophores shows intravital specific interaction with endothelial cells in blood vessels. Some applications of the chromophore are described. Strategies to increase the intravital selectivity of polymer/chromophores units towards cancer cells and tumor are presented. A modification of hydroxyl function by imidazolium group is described. This new chromophore is evaluated towards its complexation properties with DNA and in cellulo spectroscopic studies.
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