10 research outputs found
SynthĂšse de vecteurs peptidiques non-viraux : vectorisation et ciblage tumoral
No full textIn order to develop new agents for cancer diagnosis and treatment, our work aims to synthesize complex peptide macromolecules that are able to specifically recognize cancer cells. Our goal is to increase the therapeutic efficiency and reduce the toxicity of currently available drugs using "targeted strategies". In this context, we designed sophisticated macromolecules encompassing a cell recognition domain and one or several components used to detect and/or destroy the target. This system was prepared starting from a cyclodecapeptidic scaffold presenting particular conformational properties. Different approaches were considered. First of all our work was to investigate new tumor receptor ligands based on the recognition domain of a therapeutics monoclonal antibody. We proposed the design of Rituximab mimics which targets the CD20 antigen used for the treatment of Non-Hodgkin lymphoma. In a second approach, we prepared new vectors for tumor imaging. For this purpose, multivalent scaffolds containing RGD peptide that targets alpha-v-beta-3 integrin were combined with several detection elements and evaluated by using PET, SPECT and optical imaging techniques. We also used this peptide vector for the selective cell capture and release from flowing suspensions, using a gold surface modified with a cyclodextrin-containing self-assembled monolayer (SAM). A scaffold containing ferrocenyl and -RGD- ligands permitted the selective capture and release of tumor cells. This experiment was monitored by QCM-D. This vector has been next grafted to a cytotoxic peptide that was discovered from a pro-apoptotic protein named âBaxâ. Finally, we designed new molecules which include an additional ligand for the cellâs surface to increase the selectivity and the affinity of tumor tissue.Dans lâoptique de dĂ©velopper de nouveaux agents bio-inspirĂ©s pour la dĂ©tection et/ou le traitement des cellules cancĂ©reuses, nos travaux se sont tournĂ©s vers la synthĂšse de macromolĂ©cules peptidiques complexes ayant la capacitĂ© de reconnaĂźtre les cellules tumorales. Ces travaux visent Ă dĂ©velopper des molĂ©cules permettant de cibler des particularitĂ©s cellulaires prĂ©sentes sur les cellules tumorales dans le but dâobtenir un traitement personnalisĂ© via une vectorisation active permettant une augmentation de l'efficacitĂ© thĂ©rapeutique et une rĂ©duction intrinsĂšque de la toxicitĂ© du traitement. Pour cela, ces biomolĂ©cules doivent possĂ©der Ă la fois un site de reconnaissance pour la liaison avec des protĂ©ines prĂ©sentes Ă la surface de la cellule cible et un ou plusieurs Ă©lĂ©ments utilisĂ©s pour dĂ©tecter et/ou dĂ©truire la cible. Ces systĂšmes ont Ă©tĂ© Ă©laborĂ©s Ă partir d'un chĂąssis molĂ©culaire cyclodĂ©capeptidique prĂ©sentant des propriĂ©tĂ©s conformationnelles particuliĂšres. Plusieurs approches ont Ă©tĂ© envisagĂ©es. La premiĂšre a consistĂ© Ă rechercher de nouveaux ligands de rĂ©cepteurs tumoraux en s'inspirant du domaine de reconnaissance d'un anticorps monoclonal thĂ©rapeutique. Dans ce contexte, nous avons proposĂ© la conception de mimes du Rituximab ciblant l'antigĂšne CD20 utilisĂ© dans le traitement des lymphomes Non-Hodgkinien. Dans la seconde approche, nous avons dĂ©veloppĂ© des vecteurs destinĂ©s Ă des applications d'imagerie tumorale. Pour cela, des chĂąssis multivalents prĂ©sentant des ligands peptidiques RGD ciblant l'intĂ©grine alpha-v-beta-3 ont Ă©tĂ© conjuguĂ©s avec diffĂ©rents agents de dĂ©tection puis Ă©valuĂ©s par des techniques d'imagerie telles que la TEP, la TEMP et lâimagerie optique. Toujours dans un but de diagnostic des cellules tumorales, nous nous sommes par la suite tournĂ©s vers lâapplication Ă la capture cellulaire. Pour cela, une surface dâor Ă Ă©tĂ© modifiĂ©e via la formation dâune monocouche organisĂ©e SAM (« Self-assembled monolayer ») prĂ©sentant des cyclodextrines. Un gabarit peptidique adĂ©quat a ainsi permis la capture et le relargage sĂ©lectif de cellules tumorales mesurĂ©es par la technique de microbalance Ă quartz. Ces mĂȘmes vecteurs, validĂ©s pour le diagnostic ont par la suite Ă©tĂ© couplĂ©s Ă des peptides cytotoxiques issus dâune protĂ©ine pro-apoptotique « Bax ». Enfin, une derniĂšre partie a Ă©tĂ© consacrĂ©e Ă la recherche de nouveaux composĂ©s comportant plusieurs Ă©lĂ©ments de ciblage tumoraux. Ces molĂ©cules prĂ©sentent deux ligands de ciblage des rĂ©cepteurs surexprimĂ©s sur la membrane et peuvent ainsi permettre une meilleure sĂ©lectivitĂ© vis-Ă -vis des tissus tumoraux
Synthesis of non viral peptide vectors : targeting of cancer
No full textDans lâoptique de dĂ©velopper de nouveaux agents bio-inspirĂ©s pour la dĂ©tection et/ou le traitement des cellules cancĂ©reuses, nos travaux se sont tournĂ©s vers la synthĂšse de macromolĂ©cules peptidiques complexes ayant la capacitĂ© de reconnaĂźtre les cellules tumorales. Ces travaux visent Ă dĂ©velopper des molĂ©cules permettant de cibler des particularitĂ©s cellulaires prĂ©sentes sur les cellules tumorales dans le but dâobtenir un traitement personnalisĂ© via une vectorisation active permettant une augmentation de l'efficacitĂ© thĂ©rapeutique et une rĂ©duction intrinsĂšque de la toxicitĂ© du traitement. Pour cela, ces biomolĂ©cules doivent possĂ©der Ă la fois un site de reconnaissance pour la liaison avec des protĂ©ines prĂ©sentes Ă la surface de la cellule cible et un ou plusieurs Ă©lĂ©ments utilisĂ©s pour dĂ©tecter et/ou dĂ©truire la cible. Ces systĂšmes ont Ă©tĂ© Ă©laborĂ©s Ă partir d'un chĂąssis molĂ©culaire cyclodĂ©capeptidique prĂ©sentant des propriĂ©tĂ©s conformationnelles particuliĂšres. Plusieurs approches ont Ă©tĂ© envisagĂ©es. La premiĂšre a consistĂ© Ă rechercher de nouveaux ligands de rĂ©cepteurs tumoraux en s'inspirant du domaine de reconnaissance d'un anticorps monoclonal thĂ©rapeutique. Dans ce contexte, nous avons proposĂ© la conception de mimes du Rituximab ciblant l'antigĂšne CD20 utilisĂ© dans le traitement des lymphomes Non-Hodgkinien. Dans la seconde approche, nous avons dĂ©veloppĂ© des vecteurs destinĂ©s Ă des applications d'imagerie tumorale. Pour cela, des chĂąssis multivalents prĂ©sentant des ligands peptidiques RGD ciblant l'intĂ©grine alpha-v-beta-3 ont Ă©tĂ© conjuguĂ©s avec diffĂ©rents agents de dĂ©tection puis Ă©valuĂ©s par des techniques d'imagerie telles que la TEP, la TEMP et lâimagerie optique. Toujours dans un but de diagnostic des cellules tumorales, nous nous sommes par la suite tournĂ©s vers lâapplication Ă la capture cellulaire. Pour cela, une surface dâor Ă Ă©tĂ© modifiĂ©e via la formation dâune monocouche organisĂ©e SAM (« Self-assembled monolayer ») prĂ©sentant des cyclodextrines. Un gabarit peptidique adĂ©quat a ainsi permis la capture et le relargage sĂ©lectif de cellules tumorales mesurĂ©es par la technique de microbalance Ă quartz. Ces mĂȘmes vecteurs, validĂ©s pour le diagnostic ont par la suite Ă©tĂ© couplĂ©s Ă des peptides cytotoxiques issus dâune protĂ©ine pro-apoptotique « Bax ». Enfin, une derniĂšre partie a Ă©tĂ© consacrĂ©e Ă la recherche de nouveaux composĂ©s comportant plusieurs Ă©lĂ©ments de ciblage tumoraux. Ces molĂ©cules prĂ©sentent deux ligands de ciblage des rĂ©cepteurs surexprimĂ©s sur la membrane et peuvent ainsi permettre une meilleure sĂ©lectivitĂ© vis-Ă -vis des tissus tumoraux.In order to develop new agents for cancer diagnosis and treatment, our work aims to synthesize complex peptide macromolecules that are able to specifically recognize cancer cells. Our goal is to increase the therapeutic efficiency and reduce the toxicity of currently available drugs using "targeted strategies". In this context, we designed sophisticated macromolecules encompassing a cell recognition domain and one or several components used to detect and/or destroy the target. This system was prepared starting from a cyclodecapeptidic scaffold presenting particular conformational properties. Different approaches were considered. First of all our work was to investigate new tumor receptor ligands based on the recognition domain of a therapeutics monoclonal antibody. We proposed the design of Rituximab mimics which targets the CD20 antigen used for the treatment of Non-Hodgkin lymphoma. In a second approach, we prepared new vectors for tumor imaging. For this purpose, multivalent scaffolds containing RGD peptide that targets alpha-v-beta-3 integrin were combined with several detection elements and evaluated by using PET, SPECT and optical imaging techniques. We also used this peptide vector for the selective cell capture and release from flowing suspensions, using a gold surface modified with a cyclodextrin-containing self-assembled monolayer (SAM). A scaffold containing ferrocenyl and -RGD- ligands permitted the selective capture and release of tumor cells. This experiment was monitored by QCM-D. This vector has been next grafted to a cytotoxic peptide that was discovered from a pro-apoptotic protein named âBaxâ. Finally, we designed new molecules which include an additional ligand for the cellâs surface to increase the selectivity and the affinity of tumor tissue
SynthĂšse de vecteurs peptidiques non-viraux : vectorisation et ciblage tumoral
Get PDFIn order to develop new agents for cancer diagnosis and treatment, our work aims to synthesize complex peptide macromolecules that are able to specifically recognize cancer cells. Our goal is to increase the therapeutic efficiency and reduce the toxicity of currently available drugs using "targeted strategies". In this context, we designed sophisticated macromolecules encompassing a cell recognition domain and one or several components used to detect and/or destroy the target. This system was prepared starting from a cyclodecapeptidic scaffold presenting particular conformational properties. Different approaches were considered. First of all our work was to investigate new tumor receptor ligands based on the recognition domain of a therapeutics monoclonal antibody. We proposed the design of Rituximab mimics which targets the CD20 antigen used for the treatment of Non-Hodgkin lymphoma. In a second approach, we prepared new vectors for tumor imaging. For this purpose, multivalent scaffolds containing RGD peptide that targets alpha-v-beta-3 integrin were combined with several detection elements and evaluated by using PET, SPECT and optical imaging techniques. We also used this peptide vector for the selective cell capture and release from flowing suspensions, using a gold surface modified with a cyclodextrin-containing self-assembled monolayer (SAM). A scaffold containing ferrocenyl and -RGD- ligands permitted the selective capture and release of tumor cells. This experiment was monitored by QCM-D. This vector has been next grafted to a cytotoxic peptide that was discovered from a pro-apoptotic protein named âBaxâ. Finally, we designed new molecules which include an additional ligand for the cellâs surface to increase the selectivity and the affinity of tumor tissue.Dans lâoptique de dĂ©velopper de nouveaux agents bio-inspirĂ©s pour la dĂ©tection et/ou le traitement des cellules cancĂ©reuses, nos travaux se sont tournĂ©s vers la synthĂšse de macromolĂ©cules peptidiques complexes ayant la capacitĂ© de reconnaĂźtre les cellules tumorales. Ces travaux visent Ă dĂ©velopper des molĂ©cules permettant de cibler des particularitĂ©s cellulaires prĂ©sentes sur les cellules tumorales dans le but dâobtenir un traitement personnalisĂ© via une vectorisation active permettant une augmentation de l'efficacitĂ© thĂ©rapeutique et une rĂ©duction intrinsĂšque de la toxicitĂ© du traitement. Pour cela, ces biomolĂ©cules doivent possĂ©der Ă la fois un site de reconnaissance pour la liaison avec des protĂ©ines prĂ©sentes Ă la surface de la cellule cible et un ou plusieurs Ă©lĂ©ments utilisĂ©s pour dĂ©tecter et/ou dĂ©truire la cible. Ces systĂšmes ont Ă©tĂ© Ă©laborĂ©s Ă partir d'un chĂąssis molĂ©culaire cyclodĂ©capeptidique prĂ©sentant des propriĂ©tĂ©s conformationnelles particuliĂšres. Plusieurs approches ont Ă©tĂ© envisagĂ©es. La premiĂšre a consistĂ© Ă rechercher de nouveaux ligands de rĂ©cepteurs tumoraux en s'inspirant du domaine de reconnaissance d'un anticorps monoclonal thĂ©rapeutique. Dans ce contexte, nous avons proposĂ© la conception de mimes du Rituximab ciblant l'antigĂšne CD20 utilisĂ© dans le traitement des lymphomes Non-Hodgkinien. Dans la seconde approche, nous avons dĂ©veloppĂ© des vecteurs destinĂ©s Ă des applications d'imagerie tumorale. Pour cela, des chĂąssis multivalents prĂ©sentant des ligands peptidiques RGD ciblant l'intĂ©grine alpha-v-beta-3 ont Ă©tĂ© conjuguĂ©s avec diffĂ©rents agents de dĂ©tection puis Ă©valuĂ©s par des techniques d'imagerie telles que la TEP, la TEMP et lâimagerie optique. Toujours dans un but de diagnostic des cellules tumorales, nous nous sommes par la suite tournĂ©s vers lâapplication Ă la capture cellulaire. Pour cela, une surface dâor Ă Ă©tĂ© modifiĂ©e via la formation dâune monocouche organisĂ©e SAM (« Self-assembled monolayer ») prĂ©sentant des cyclodextrines. Un gabarit peptidique adĂ©quat a ainsi permis la capture et le relargage sĂ©lectif de cellules tumorales mesurĂ©es par la technique de microbalance Ă quartz. Ces mĂȘmes vecteurs, validĂ©s pour le diagnostic ont par la suite Ă©tĂ© couplĂ©s Ă des peptides cytotoxiques issus dâune protĂ©ine pro-apoptotique « Bax ». Enfin, une derniĂšre partie a Ă©tĂ© consacrĂ©e Ă la recherche de nouveaux composĂ©s comportant plusieurs Ă©lĂ©ments de ciblage tumoraux. Ces molĂ©cules prĂ©sentent deux ligands de ciblage des rĂ©cepteurs surexprimĂ©s sur la membrane et peuvent ainsi permettre une meilleure sĂ©lectivitĂ© vis-Ă -vis des tissus tumoraux
Biomolecular Assemblies Combining Two Orthogonal Copper-Mediated Ligations in a One-Pot Reaction
No full textInternational audienc
Redox-Driven Host-Guest Interactions Allow the Controlled Release of Captured Cells on RGD-Functionalized Surfaces
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Positron emission tomography imaging of tumor angiogenesis and monitoring of antiangiogenic efficacy using the novel tetrameric peptide probe 64Cu-cyclam-RAFT-c(-RGDfK-)4
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PET imaging and biodistribution analysis of the effects of succinylated gelatin combined with l-lysine on renal uptake and retention of 64Cu-cyclam-RAFT-c(-RGDfK-)4 in vivo
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Reduction of renal uptake of 111In-DOTA-labeled and A700-labeled RAFT-RGD during integrin αvÎČ3 targeting using single photon emission computed tomography and optical imaging
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Systemic Delivery of Tumor-Targeted Bax-Derived Membrane-Active Peptides for the Treatment of Melanoma Tumors in a Humanized SCID Mouse Model
Get PDFInternational audienceMelanoma is a highly metastatic and deadly form of cancer. Invasive melanoma cells overexpress integrin αvĂ3, which is a well-known target for Arg-Gly-Asp-based (RGD) peptides. We developed a sophisticated method to synthetize mg amounts of a targeted vector that allows the RGD-mediated targeting, internalization and release of a mitochondria-disruptive peptide derived from the pro-apoptotic Bax protein. We found that 2.5 ÎŒM of Bax [109-127] was sufficient to destabilize the mitochondria in 10 different tumor cell lines, even in the presence of the anti-apoptotic Bcl2 protein, which is often involved in tumor resistance. This pore-forming peptide displayed antitumor activity when it was covalently linked by a disulfide bridge to the tetrameric RAFT-c[RGD]4-platform and after intravenous injection in a human melanoma tumor model established in humanized immuno-competent mice. In addition to its direct toxic effect, treatment with this combo induced the release of the immuno-stimulating factor MCP1 in the blood and a decrease in the level of the pro-angiogenic factor FGF2. Our novel multifunctional, apoptosis-inducing agent could be further customized and assayed for potential use in tumor-targeted therap
