Global ETD Search

1	One key to two doors : Dual targeting peptides and membrane mimetics Ye, Weihua January 2015 (has links) A targeting peptide at the N-terminus of a precursor protein usually directs the protein synthesized in the cytosol to a specific organelle in the cell. Interestingly, some targeting peptides, so-called dual targeting peptides (dTPs) can target their protein to both mitochondria and chloroplasts. In order to understand the mechanism of dual targeting, a dTP from threonyl tRNA synthetase (ThrRS-dTP) was investigated as a model dTP in this thesis work. The results suggest that ThrRS-dTP is intrinsically disordered in solution but has an α-helical propensity at the N-terminal part. Tom20 and Toc34 are the two primary receptors on the outer membranes of mitochondria and chloroplasts, respectively. We found that the N-terminal half of the ThrRS-dTP sequence, including an amphiphilic helix, is important for the interaction with Tom20. This part also contains a φχχφφ motif, where φ represents a hydrophobic/aromatic residue and χ represents any amino acid residue. In contrast, neither the amphiphilic helix nor φχχφφ motif in ThrRS-dTP has any special role for its interaction with Toc34. Instead, the entire sequence of ThrRS-dTP is important for Toc34 interaction, including the C-terminal part which is barely affected by Tom20 interaction. In addition, the role of lipids in the organelle membrane for the recognition of dual targeting peptides during protein import is also the focus of this thesis. The tendency to form α-helix in ThrRS-dTP, which is not observable in solution by CD, becomes obvious in the presence of lipids and DPC micelles. To be able to study such interactions, DMPC/DHPC isotropic bicelles under different conditions have also been characterized. These results demonstrate that bicelles with a long-chained/short-chained lipid ratio q = 0.5 and a concentration larger than 75 mM should be used to ensure that the classic bicelle morphology persists. Moreover, we developed a novel membrane mimetic system containing the galactolipids, MGDG or DGDG, which have been proposed to be important for protein import into chloroplasts. Up to 30% MGDG or DGDG lipids were able to be integrated into bicelles. The local dynamics of the galactolipids in bicelles displays two types of behavior: the sugar head-group and the glycerol part are rigid, and the acyl chains are flexible. / <p>At the time of the doctoral defense, the following paper was unpublished and had a status as follows: Paper 2: In press.</p> : Dual targeting peptides protein import mitochondria and chloroplasts bicelles galactolipids NMR spectroscopy
2	Modification du tropisme de vecteurs pseudoviraux dérivés des papillomavirus pour l'application aux thérapies pulmonaires / No title available Carpentier, Audrey 28 September 2012 (has links) La mucoviscidose est une maladie héréditaire monogénique grave en rapport avec une mutation du gène codant pour la protéine CFTR et dont la morbidité est due principalement aux atteintes pulmonaires. La greffe pulmonaire développée depuis quelques années semble être la seule thérapie curative efficace. Toutefois, la rareté des greffons disponibles, justifie de développer d’autres thérapies comme la thérapie génique. Les pseudovirions de papillomavirus sont capables de transférer des gènes dans de nombreuses lignées cellulaires. Cependant, le tropisme naturel des papillomavirus est l’épithélium malpighien et ces pseudovirions sont peu efficaces pour les cellules de l’épithélium pulmonaire. Afin de modifier le tropisme de nos pseudocapsides de papillomavirus, la première étape de mon travail a été d’identifier de nouveaux motifs de ciblage pulmonaire. La technique de phage display a permis l’identification des motifs PHPNRAQ et VDRLQQK par sélection sur les cellules épithéliales bronchique IB3-1 et S9. / Cystic fibrosis is an autosomal recessive genetic disorder caused by mutations in the gene encoding the cystic fibrosis transmembrane conductance regulator (CFTR) protein. Lung transplantation developed in recent years is the only effective curative treatment. However, due to the limitation in organ donors, it is necessary to develop other therapies such as gene therapy. Papillomavirus pseudovirions have the potential to deliver genes into different cells. However, the natural tropism of HPV is directed to the cervical epithelial cells and these pseudovirions have low transduction efficacy in pulmonary epithelial cells. The purpose of this thesis was to retarget and optimize the HPV-16 pseudovirions tropism to airway cells by insertion of short amino acid sequences within the major capsid protein L1. Papillomavirus VLPs Motifs de ciblage Aérosol Ciblage pulmonaire Pseudovirions Transfert de gène Papillomavirus VLPs Targeting peptides Aerosol Lung Pseudovirions Gene transfer
3	Chirurgie guidée par fluorescence des fibrosarcome félin et développement et caractérisation d'un vecteur bi-fonctionnel pour le ciblage du cancer / Optical-guided surgery of the feline fibrosarcoma & Development and characterization of a bi-functional vector for cancer targeting Wenk, Christiane 17 December 2012 (has links) Actuellement, la chirurgie représente la première indication pour la thérapie du cancer. Néanmoins, la résection complète du tissu tumoral, la détection des micrométastases et la préservation des tissus sains pendant l'intervention représentent un enjeu majeur et influencent fortement le pronostic du patient. Les récents développements technologiques en imagerie pour la chirurgie guidée des cancers ont conduit à des résultats précliniques prometteurs et les premiers essais cliniques utilisant des traceurs non-spécifiques confirment déjà le potentiel de ces systèmes pour l'amélioration de la chirurgie. De plus, le diagnostic précoce des tumeurs, ainsi que le développement de thérapies ciblées sont également des axes majeurs de recherche en cancérologie. Dans ce contexte notre équipe a précédemment développé un vecteur synthétique ciblant un récepteur cellulaire l'intégrine αVβ3. Ce vecteur est constitué d'un châssis décapeptidique cyclique RAFT (Regioselectively Addressable Functionalized Template) et présentant deux domaines indépendants permettant de séparer les deux fonctions du vecteur. Sur un domaine, la fonction de ciblage est assurée par la présentation multivalente de ligands -RGD- spécifiques du récepteur. L'autre domaine du vecteur porte les molécules d'intérêt à vectoriser, agents thérapeutiques ou de détection pour l'imagerie médicale. Dans la première partie de ces travaux, nous avons évalué la combinaison de ce vecteur couplé à un fluorophore avec une sonde portative pour imager et guider le chirurgien pendant la chirurgie des fibrosarcomes spontanés chez le chat. Cette étude représente une preuve de concept pour la translation clinique chez l'homme. Les résultats ont montré que l'injection du traceur ne provoquait pas d'effets toxiques chez le chat et permettait un marquage spécifique de la tumeur avec un bon ratio tumeur/tissu sain, qui devrait améliorer la qualité de la résection tumorale en aidant le chirurgien à mieux délimiter les marges du tissu tumoral. Dans la seconde partie de ces travaux nous avons développé un nouveau vecteur bi-fonctionnel dérivé du RAFT-RGD. Au composé d'origine a été ajoutée une séquence peptidique clivable par la matrixmetalloprotease-9, une enzyme surexprimée dans la tumorigénèse. Cette molécule à fluorescence activable a montré une amélioration du ciblage tumoral in vitro et in vivo comparée au RAFT-RGD suggérant un effet additionnel lié au double ciblage. Ces résultats préliminaires encouragent la poursuite de sa caractérisation pour son potentiel de « pro-drug » mais également pour l'étude des interactions entre l'intégrine et l'environment tumoraux. / Cancer surgery is still the gold standard therapy in most cancers. Nevertheless, total tumor resection and metastasis detection while preserving healthy tissues represent a crucial point for further prognosis. Development of imaging technologies for intra-operative guided surgery provided promising results and efficient application in preclinical studies and first clinical trials using non-specific tracers already confirmed the improved out-come in surgery. Moreover early and precise diagnosis and targeted therapies are major domains of cancer research. In this context our team previously developed a synthetic vector based on a cyclic decapeptide scaffold RAFT (Regioselectively Addressable Functionalized Template) which allows the independent functionalizing of two domains: a targeting domain with multivalent RGD-ligand targeting the cell receptor integrin αVβ3, and a vehicle domain grafted with a pro-drug or an imaging agent. One part of this work consisted in the evaluation of the combination of this molecule carrying a fluorophore with a portable fluorescent imaging device for image-guided surgery of natural occurring feline fibrosarcomas. This study represents a proof of concept for further translation into human clinics. No toxic effects in cats after administration of the tracer could be reported. Furthermore the tumors were specifically labeled showing a good tumor-to-healthy tissue ratio. This should improve tumor resection by helping the surgeon to delineate tumor margins. In parallel we developed a bi-functinal derivative of the RAFT-RGD. Therefore we engrafted a peptide sequence flanked by two fluorophores, which is activatable by matrixmetalloprotease-9, an enzyme overexpressed in tumors. This molecule showed an improved tumor labeling in vitro and in vivo compared to the conventional RAFT-RGD, suggesting an additional effect of the double targeting. These preliminary results encourage further caracterisation for its potential as pro-drug vehicle, as well as for studying interactions between the integrin and the tumor environment. Tumeur Peptides ciblés Chirurgie guidée par la fluorescence Imagerie per-opératoire RAFT-RGD Cancer Targeting peptides Inter-operative imaging RAFT-RGD Fluorescent guided cancer surgery
4	TARGETED DELIVERY OF BONE ANABOLICS TO BONE FRACTURES FOR ACCELERATED HEALING Jeffery J H Nielsen (8787002) 21 June 2022 (has links) <div>Delayed fracture healing is a major health issue involved with aging. Therefore, strategies to improve the pace of repair and prevent non-union are needed in order to improve patient outcomes and lower healthcare costs. In order to accelerate bone fracture healing noninvasively, we sought to develop a drug delivery system that could safely and effectively be used to deliver therapeutics to the site of a bone fracture. We elected to pursue the promising strategy of using small-molecule drug conjugates that deliver therapeutics to bone in an attempt to increase the efficacy and safety of drugs for treating bone-related diseases.</div><div>This strategy also opened the door for new methods of administering drugs. Traditionally, administering bone anabolic agents to treat bone fractures has relied entirely on local surgical application. However, because it is so invasive, this method’s use and development has been limited. By conjugating bone anabolic agents to bone-homing molecules, bone fracture treatment can be performed through minimally invasive subcutaneous administration. The exposure of raw hydroxyapatite that occurs with a bone fracture allows these high-affinity molecules to chelate the calcium component of hydroxyapatite and localize primarily to the fracture site.</div><div>Many bone-homing molecules (such as bisphosphonates and tetracycline targeting) have been developed to treat osteoporosis. However, many of these molecules have toxicity associated with them. We have found that short oligopeptides of acidic amino acids can localize to bone fractures with high selectivity and with very low toxicity compared to bisphosphonates and tetracyclines.</div><div>We have also demonstrated that these molecules can be used to target peptides of all chemical classes: hydrophobic, neutral, cationic, anionic, short, and long. This ability is particularly useful because many bone anabolics are peptidic in nature. We have found that acidic oligopeptides have better persistence at the site of the fracture than bisphosphonate-targeted therapeutics. This method allows for a systemic administration of bone anabolics to treat bone fractures, which it achieves by accumulating the bone anabolic at the fracture site. It also opens the door for a new way of treating the prevalent afflictions of broken bones and the deaths associated with them.</div><div>We further developed this technology by using it to deliver anabolic peptides derived from growth factors, angiogenic agents, neuropeptides, and extracellular matrix fragments. We found several promising therapeutics that accelerated the healing of bone fractures by improving the mineralization of the callus and improving the overall strength. We optimized the performance of these molecules by improving their stability, targeting ligands, linkers, dose, and dosing frequency.</div><div>We also found that these therapeutics could be used to accelerate bone fracture repair even in the presence of severe comorbidities (such as diabetes and osteoporosis) that typically slow the repair process. We found that, unlike the currently approved therapeutic for fracture healing (BMP2), our therapeutics improved functionality and reduced pain in addition to strengthening the bone. These optimized targeted bone anabolics were not only effective at healing bone fractures but they also demonstrated that they could be used to speed up spinal fusion. Additionally, we demonstrated that acidic oligopeptides have potential to be used to treat other bone diseases with damaged bone.</div><div>With these targeted therapeutics, we no longer have to limit bone fracture healing to casts or invasive surgeries. Rather, we can apply these promising therapeutics that can be administered non-invasively to augment existing orthopedic practices. As these therapeutics move into clinical development, we anticipate that they will be able to reduce the immobilization time that is the source of so many of the deadly complications associated with bone fracture healing, particularly in the elderly.</div> Genetics not elsewhere classified Nanobiotechnology Animal behaviour Clinical microbiology Endocrinology Nanomedicine Regenerative medicine (incl. stem cells) Solid state chemistry Molecular medicine Proteins and peptides Solution chemistry Radiation and matter Biomaterials Biomechanical engineering bone fracture healing Anabolic Agents/pharmacology Targeted Drug DeliveryDesign Bone fracture targeted drugs Bone theapeutics targeted therapies Growth factors Neuropepetides Extracellular matrix Extracellular matrix fragments spinal fusion Angiogensis Acidic oligopeptides osteoporosic fractures diabetic bone fractures Integrin alpha 5 Acelerated Bone fracture healing Hydroxyapatite Hydroxyapatite targeting Targeting peptides Peptide drugs osteomyelitis (OM) Rheumatoid arthritis Bone fractures osteogenic therapies osteotropic osteotropic nanomedicines osteoinductive capacity Molecular Medicine Organic Chemistry Proteins and Peptides Radiochemistry Solid State Chemistry Solution Chemistry Biochemistry Animal Behaviour Biological Engineering Biotechnology Genetics Medicine Pharmacology Biomaterials Biomechanical Engineering Biomechanics Endocrinology Nanobiotechnology Nanomedicine

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