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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

Shiga toxin targeted strategy for chemotherapy and cancer immunotherapy application using copper-free « Click » chemistry

Kostova, Vesela 27 November 2015 (has links)
Pas de résumé / Recently targeted therapies appeared as attractive alternatives to classical antitumoral treatments. The approach, developed on the concept of targeting drug to cancer cells, aims to spear normal tissues and decrease the side effects. This doctoral dissertation focuses on developing new anticancer targeted treatments in the field of chemotherapy and cancer immunotherapy by exploiting an original targeting moiety, the B subunit of Shiga toxin (STxB). Its specific properties, such as, recognition with its receptor Gb3 overexpressed in cancer cells or in antigen-presenting cells, its unconventional intracellular trafficking, guided the choice of this protein as targeting carrier. This project is based in the use of copper-free Huisgen [3+2] cycloaddition as a coupling method, which led to successful preparation of various conjugates for their respective applications. The concept was first validated by STxB-biotin conjugate. The high yield of the reaction and the compatibility between the targeting carrier and the chemical ligation promoted the design of conjugates for chemotherapy and immunotherapy. Two therapeutical optimizations of previously developed strategy in STxB drug targeting delivery were investigated: synthesis of multivalent drug-conjugates and synthesis of conjugates containing a highly potent anticancer agent. Both approaches exploited three anticancer agents: SN38, Doxorubicin and Monomethyl auristatin F. The disulfide spacer, combined with various self-immolative systems, insured drug release. Two cytotoxic conjugates STxB–doxorubicin (STxB-Doxo) and STxB-monomethyl auristatin F (STxB-MMAF) were obtained in very high yield and demonstrated strong tumor inhibition activity in the nanomolar range on Gb3-positive cells. Based on the results the STxB-MMAF conjugate was investigated on a mouse model. The project aimed also to develop STxB bioconjugates for vaccine applications. Previous studies used B subunit as a targeting carrier coupled to an antigenic protein in order to induce a more potent immune response against cancer. The conjugates were prepared using a commercial linker, requiring modifying the antigen at first place, or by oxime ligation, where slightly acidic conditions promoted the coupling. Thus, the work presented herein proposed an alternative ligation via copper-free click chemistry especially for more sensitive antigenic proteins. Various types of conjugates were synthesised and investigated for their immune stimulation properties. The STxB targeting strategy was also applied to the development of a new vaccine based on coupling the targeting carrier to alpha-GalCer, one of the most potent immune stimulating agents known. The work focused on the synthesis of functionalised alpha-Galcer with an azide handle.
2

Targeting strategies using B-subunit of Shiga toxin : innovative drug-delivery systems / Stratégies de vectorisation par la sous-unité B de la toxine de Shiga : systèmes de libération d’agents cytotoxiques innovants

Batisse, Cornélie 28 January 2015 (has links)
Les stratégies thérapeutiques mises en place contre le cancer ont de nos jours besoin de nouveaux médicaments, à la fois plus actifs que ceux déjà existants et induisant moins d’effets secondaires. Ces nouvelles stratégies visent à cibler spécifiquement les cellules cancéreuses. Parmi ces stratégies, ces travaux de thèse concernent la vectorisation active, à l’aide d’un vecteur protéique dérivé de la toxine de Shiga, STxB. STxB reconnait spécifiquement son récepteur biologique Gb3, surexprimé à la surface des cellules cancéreuses humaines. Ce projet de recherche porte sur la conception et la synthèse de conjugués, combinant STxB et un agent cytotoxique. Le linker chimique, qui relie ces deux espèces, a été soigneusement conçu pour respecter les deux critères suivants : être suffisamment stable et néanmoins pouvoir être clivé pour libérer l’agent cytotoxique une fois les cellules cancéreuses atteintes. Un premier linker a été construit autour du motif mercaptoethanol, lié au vecteur STxB par une liaison disulfure. La libération de l’agent cytotoxique peut donc être initiée par un réducteur biologique comme le glutathion, puis par une étape d’auto-immolation. Ce linker a été appliqué à deux composés cytotoxiques très puissants, dérivés de l’auristatine, et a conduit à des résultats prometteurs in vitro. La labilité de la liaison ester à pH acide a également été mise à profit dans l’élaboration de deux linkers, conçus autour de motifs glutamate et thréoninate. L’utilisation d’un agent cytotoxique modérément puissant a été l’occasion de développer une stratégie de multivalence, consistant à augmenter la charge d’agents cytotoxiques sur STxB. Une autre option a été de considérer les nano-batônnets d’or comme une plate-forme nanométrique multimodale, capable de lier plusieurs milliers d’agents cytotoxiques et STxB. Enfin l’incorporation d’une séquence peptidique, connue pour être substrat d’une protéase, a donné lieu à une troisième étude, reposant sur un linker clivable plus sélectivement. Plusieurs linkers ont été étudiées, selon qu’ils libèrent l’agent cytotoxique sous sa forme native ou non. / We need new therapeutic strategies to treat cancerous patients by the discovery of new drugs that would be more active than those existing and especially assigning fewer side effects. These new therapies aim to specifically target cancer cells. Among the strategies for cancer targeting, we investigated drug-targeted strategies using a proteic carrier, STxB, derived from Shiga toxin. This protein recognizes specifically its biological receptor Gb3, which is over-expressed on human cancer cells. This work consisted in the design and synthesis of conjugates combining STxB and a cytotoxic drug. The chemical linker binding these two moieties was carefully designed in order to fit requirements of both stability and ability to trigger a drug-delivery. A first linker was designed around a mercaptoethanol core, able to be conjugated to STxB by a disulfide bond. This constitutes a drug-delivery trigger, activated by a biological reducing agent such as glutathion, and followed by a self-immolative step. Two highly potent conjugates of auristatin derivatives were obtained and showed promising results in vitro. The ester bonds lability in acidic pH was exploited for the design of two amino acid based linker. With the aim of increasing the ratio of drug on STxB, we investigated several multivalent linkers. Another option was to consider gold nanorods as a nanometric platform, able to carry thousands of drugs and STxB. The incorporation of a protease substrate to produce an enzyme-cleavable linker was investigated. Several spacers, which induced release of the drug under native form or under prodrug form, were designed and tested.

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