Global ETD Search

1	Rational Design and Development of Anti-Angiogenic Protein Agents Yin, Lu 05 December 2011 (has links) Inhibition of angiogenesis is an effective and low toxic therapeutic avenue for the treatment of cancer patients in addition to traditional interventions. Majority of current available angiogenesis inhibitors for cancer therapies are growth factor inhibitors and small molecule tyrosine kinase inhibitors. A number of endogenous proteins and/or proteolytic fragments of extracellular matrix proteins are shown to have the activity of inhibition of angiogenesis by directly targeting endothelial cells. Structural analyses have indicated that a common structure of anti-parallel β-sheet with a highly positively charged surface presents in many of those inhibitors. This common structural feature is critical for the maintenance of their anti-angiogenic function. With this structural information, we have designed and developed a new class of anti-angiogenic proteins by integrating the short anti-parallel β-sheet forming sequences of endogenous anti-angiogenic proteins into a stable host protein, the extracellular domain-1 of cluster of differentiation 2 molecule (CD2D1). 1D 1H NMR spectra analyses indicated that the designed anti-angiogenic protein (ref to as ProAgio) folded as a β-sheet structure similar to that of the parental protein, CD2D1. ProAgio inhibited the growth of human umbilical vein cells (HUVECs) without affecting the growth of epithelial cells, suggesting a specific effect to endothelial cells. ProAgio effectively reduced endothelial tubules formed by the co-culture of HUVECs and PC3 cells on matrix gel in vitro. The designed anti-angiogenic protein was further site-specifically PEGylated in order to improve PK/PD properties and reduce immunogenicity. Examinations with PC3 xenografts showed that both ProAgio and the PEGylated ProAgio dramatically inhibited tumor growth. Immunofluorescence staining analyses of the endothelial marker CD31 indicated dramatic decreases in tumor vessels in lengths and branching points. Histological and immunofluorescence staining analyses of tissue slices of major organs indicated that there were no pathological damages to the tissue structure or disruption of normal vessels associated with the treatment of our designed anti-angiogenic agent. Overall, our studies developed a novel anti-angiogenesis agent that may have great clinical potentials. Our concept of protein design can be extended to the development of other novel protein drugs. Anti-angiogenesis Rational design VEGF VEGFR inhibitors Endogenous angiogenesis inhibitors β-Sheet protein CD2D1
2	Design and Synthesis of Protein-Protein Interaction Inhibitor Scaffolds Badger, David B. 01 January 2012 (has links) Many currently relevant diseases such as cancer arise from altered biological pathways that rely on protein-protein interactions. The proteins involved in these interactions contain certain functional domains that are responsible for the protein's biological activities. These domains consist of secondary structural elements such as α-helices and Β-sheets which are at the heart of the protein's biological activity. Therefore, designing drugs that inhibit protein-protein interactions by binding to these key secondary structural elements should provide an effective treatment for many diseases. Presented in this dissertation are the designs, syntheses, and biological evaluations for both novel α-helix and novel Β-sheet mimics. The α-helix mimics were designed to inhibit the interactions between the tumor suppressor protein p53 and its inhibitor protein, MDM2. We also targeted the interactions between the Bak/Bcl-xL proteins. Using the knowledge gained from Hamilton's 1,4-terphenylene scaffold, we designed our inhibitors to be non-peptidic small molecule α-helix mimics. These molecules were designed to bind to the NH2-terminal domain of MDM2 protein thus preventing it from binding to the p53 protein thereby allowing p53 to induce apoptosis. The α-helix mimetic scaffold is designed around a central functionalized pyridazine ring while maintaining the appropriate distances between the ith, ith+4, and ith+7 positions of a natural alpha helix. The Β-sheet mimics were designed as inhibitors for the integrin mediated extracellular matrix cell adhesion found in Multiple Myeloma. We have designed, synthesized, and incorporated novel Β-turns to induce the formation of Β-hairpins as well as to cyclize the peptides in order to increase their binding affinities and reduce proteolytic cleavage. Given that many protein-protein interactions occur through hydrophobic interactions; our primary Β-turn promoter was designed with the ability to alter the Β-hairpin's hydrophobicity depending on the sulfonyl group used in the turn. The synthesis of several different sulfonyl chlorides for use in our Β-turn promoter is included in this section. We have also provided a detailed structural analysis and characterization of these new cyclic peptides via NMR and CD spectrometry. Using standard 2D NMR methods, we have elucidated the 3D conformation of several peptides in solution. We have also studied the structure activity relationships (SAR) for these cyclic peptides and then correlated these results with those obtained from the NMR studies. α-helix Β-sheet MDM2 NMR p53 American Studies Arts and Humanities Organic Chemistry
3	Synthesis and Characterization of Quasi-Stable Toxic Oligomer Models of Amyloid β / 準安定なアミロイドβの毒性オリゴマーモデルの合成と機能解析 Irie, Yumi 23 March 2020 (has links) 京都大学 / 0048 / 新制・課程博士 / 博士(農学) / 甲第22505号 / 農博第2409号 / 新制\|\|農\|\|1077(附属図書館) / 学位論文\|\|R2\|\|N5285(農学部図書室) / 京都大学大学院農学研究科食品生物科学専攻 / (主査)教授保川清, 教授宮川恒, 教授入江一浩 / 学位規則第4条第1項該当 / Doctor of Agricultural Science / Kyoto University / DGAM Alzheimer's disease amyloid β β-sheet ion mobility-mass spectrometry neurotoxicity oligomer toxic conformer 610
4	Design and Synthesis of Beta-Hairpin Peptidomimetics for Modulating Integrin Mediated Cell Adhesion, Abeta Fibrillogenesis and p53-MDM2 Protein-Protein Interactions Jain, Priyesh 31 December 2010 (has links) Inhibiting therapeutically important protein-protein interactions has been a tremendous challenge for medicinal chemists. The folded 3D structures of peptides and proteins, mainly comprise secondary structural elements i.e α-helices and β-sheet have created an opportunity to design small molecules and peptidomimetic inhibitors of protein-protein interaction (PPI). Hence, information about the formation and stabilization of these secondary structures is vital for designing future drugs. In this dissertation, several cyclic beta-hairpin peptidomimetics that mimic the recognition surface have been designed and synthesized as inhibitors for different targets such as integrin mediated extracellular matrix -cell adhesion in multiple myeloma, p53-MDM2 PPI, amyloid beta fibrillogenesis inhibitor. Cyclization of linear peptides to restrict the number of conformations available to the linear peptide can increase its affinity for the target as well as increase its proteolytic resistance. In this study, different beta turn promoters that increase the propensity of cyclic peptides to adopt beta-sheet structures have been designed and synthesized. Chapter two discusses the design and synthesis of several cyclic III (Integrin Interaction Inhibitor) peptides that block adhesion of integrins to extracellular matrix components in Multiple Myeloma tumor cells. These cyclic peptides, as assayed by TOPRO 3 assay were more potent than the parent linear peptide with a bio-activity of 1.08 μM. We have also studied structure activity relationships (SAR) of these cyclic III peptide analogs to increase the potency and bioavailability of these peptides. Chapter three describes the application of cyclic beta-hairpin peptidomimetics to inhibit abeta fibrillogenesis that is responsible for Alzheimer’s disease. We have successfully designed and synthesized cyclic peptides that target the hydrophobic region (17-21) of abeta fibril which is believed to cause self aggregation and plaque formation. We have also successfully explored these cyclic beta-hairpin peptides to disrupt p53-MDM2 interactions. Chapter five discusses the design and synthesis of novel cysteine based Peptide Nucleic Acid (PNA) monomers that are aimed to increase cellular uptake by introducing positively charged species attached to the cysteine side chain. We have successfully synthesized CPNA monomers and made efforts to make PNA oligomers. β-sheet conformation Cyclic Peptides Cyclic III peptide Multiple Myeloma Peptide Nucleic Acids American Studies Arts and Humanities Chemistry
5	Einfluss der Helix 1 und des β-Faltblattes auf die Aggregation des Prionproteins und seine Amyloidstruktur / Role of Helix 1 and the β-sheet in prion protein aggregation and its amyloid structure Watzlawik, Jens 18 January 2007 (has links) No description available. 570 Biowissenschaften, Biologie Mathematics and Computer Science Prionprotein Aggregation Helix 1 β-Faltblatt prion aggregation helix 1 β-sheet 42.12 Biophysik
6	Synthese und Untersuchung von Alanyl-PNA Oligomeren und deren Einfluß auf β-Faltblatt Strukturen / Conformational switch in proteins and peptides induced by double strand formation in peptide nucleic acid/protein chimera Ranevski, Ruzica 04 May 2006 (has links) No description available. 540 Chemie Mathematics and Computer Science Peptide β-Faltblatt N-methylierte Aminosäuren PNA peptides β-sheet N-methylated amino acids PNA Chemie S Chemie
7	Conception, synthèse et études structurales de foldamères aromatiques repliés en feuillet / Design, synthesis and structural studies of ß-sheet-like aromatic amide-based foldamers Sebaoun, Laure 23 September 2013 (has links) Ce travail a pour objectif d’augmenter la diversité des foldamères par le développement d’une nouvelle classe d’architectures abiotiques mimant le repliement des feuillets β protéiques. La stratégie employée repose sur des processus de structuration qui diffèrent de ceux observés au sein du vivant. Les deux éléments essentiels des systèmes naturels, à savoir la boucle courte et flexible d’acides aminés et les brins β liés entre eux par des liaisons hydrogènes, sont ici substitués respectivement par un coude rigide formé de noyaux aromatiques et par des oligoarylamides plans interagissant par empilement aromatique.Ces objets ont été conçus pour adopter des structures repliées caractérisables en solution par spectroscopie RMN et à l’état solide par diffraction des rayons X. Dans une première partie, l’optimisation du pseudo-coude β et de la séquence des brins, ainsi que l’exploration des premières architectures en feuillet seront étudiées à travers la conception, la synthèse et les études structurales de ces oligoamides et oligoamines aromatiques. Dans une seconde partie, le concept mis en oeuvre sera étendu à la synthèse de foldamères plus élaborés à brins courbés, ouvrant ainsi des perspectives intéressantes vers l’obtention d’architectures toujours plus complexes. / The purpose of this work is to expand foldamer diversity by developing a novel class of abiotic β-sheet-like architectures. Our strategy uses inter-strand π-π aromatic stacking between sequences of aromatic oligoamides and oligoamines to mimic the natural stabilization of β-strands, which occurs through a network of regularly spaced hydrogen bonds. These oligamide and oligoamine sequences are connected by a rigid U-shaped moiety that creates a turn and initiates strand formation.These molecules have been designed to adopt compact folded structures that can be studied in solution by NMR spectroscopy and in the solid state by X-ray crystallography. In the first part of this dissertation, we report our stepwise approach in the development of β-sheet-like aromatic amide-based foldamers: from the optimization of the design elements and the use of macrocycles, to the synthesis of multi-turn structures. In the second part, the concept will be extented to the synthesis of more elaborate curving strand β-sheet-like foldamers, opening up new perspectives for more complex architectures. Chimie supramoléculaire Foldamères d’oligoamides aromatiques Auto-organisation Liaisons hydrogènes Empilement aromatique Structures en feuillet Analyse conformationnelle Supramolecular chemistry Aromatic oligoamide foldamers Self-organization Hydrogen bonds Aromatic stacking Β-sheet-like structures Conformation analysis Conformation analysis
8	Designed β-Hairpin, β-Sheet And Mixed α-β Structures In Synthetic Peptides Das, Chittaranjan 10 1900 (has links) Synthetic construction of protein molecules has been widely pursued over the last two decades. A primary goal behind de novo protein design has been to build minimal systems by capturing the essential features of protein structures. Such minimal models can be used to understand underlying principles governing folding, structure, and function of proteins molecules. Several approaches envisioning successful construction of synthetic proteins have been described over the years, some of them being admirably successful (DeGrado et al, 1999; Richardson et al> 1992; Baltzer, 1998). Specific patterning of polar and apolar residues in synthetic sequences has been widely used to achieve designed polypeptide structures like helix bundles (DeGrado et ah, 1999) and (3-sheets (Smith and Regan, 1997; Lacroix et a/., 1998), with reliance on hydrophobic driving forces for folding. Our laboratory has been pursuing a distinctly alternative approach, that employs stereochemically constrained amino acids to generate specific secondary structures which can then be assembled into composite structures by appropriately chosen linking segments. This approach, which involves linking prefabricated modules of secondary structures can be termed as a "Meccano set" approach to protein design (Balaram, 1992). The studies embodied in the present thesis describe attempts at construction of synthetic polypeptide motifs using the stereochemically directing influence of conformationally constrained amino acid residues, such as DPro or Aib (α-aminoisobutyric acid). This thesis is subdivided into 8 chapters, with Chapter 1 providing a perspective of the field of protein design. Subsequent chapters (2-8) describe studies directed towards the specific goal of construction of polypeptide motifs. Chapter 2 describes synthesis and conformational characterization of two octapeptides Boc-Leu-Val-Val-DPro-LAla-Leu-Val-Val-OMe (1) and Boc-Leu-Val-Val-DPro-DAla-Leu-Val-Val-OMe (2), designed to investigate the effect of specific β-turn stereochemistry on β-hairpin structures. 500 MHz NMR studies establish that both peptides 1 and 2 adopt predominantly β-hairpin conformations in chloroform and methanol solutions, with interstrand registry established by observation of long-range nuclear Overhauser effects (NOEs). Specific NOEs provide evidence for a type II' β-turn conformation for the DPro-LAla segment in 1, while the NMR data suggest that a type I' DPro-DAla β-turn conformation predominates in the peptide 2. The crystal structure of 1 reveals two independent molecules in the crystallographic asymmetric unit, both of which adopt β-hairpin conformations nucleated by a type II’ β-turn across DPro-LAla and stabilized by 3 cross strand hydrogen bonds. These designed β-hairpins with defined tight turns produce characteristic vibrational circular dichroism (VCD) patterns, demonstrating the utility of VCD as a probe for conformational analysis of β-hairpins. In Chapter 3, we present conformational analysis on designed β-hairpin sequences incorporating a 'Phe-Phe' residue pair at a non-hydrogen bonding position. Two octapeptides Boc-Leu-Phe-Val-DPro-Gly-Leu-Phe-Val-OMe and Boc-Leu-Phe-Val-DPro-Ala-Leu-Phe-Val-OMe were synthesized and conformationally characterized by 500 MHz NMR spectroscopy. Specific NOEs observed in solution provide conclusive evidence favoring specific orientation effects pertaining to the 'Phe-Phe' pair. The peptides exhibited anomalous electronic CD, which has been explained in terms of aromatic contributions by the side chain chromophores. Interestingly, the VCD patterns obtained for these peptides were almost identical to those obtained for other β-hairpins, described in Chapter 2. Chapter 4 describes the synthesis and conformational analysis of designed decapeptide sequences with centrally located DPro-Xxx β-trun segments. Two sequences Boc-Met-Leu»Phe-Val'DPro-Ala-Leu-Val-Val-Phe-OMe (1) and Boc-Met-Leu-Val-Val-^ro-Gly-Leu-Val-Val-Phe-OMe (2) were designed to study the effect of chain length elongation, of β-strands, on designed β-hairpin structures. 500 MHz NMR studies establish β-hairpin folds in both these sequences, with strand segments aligned even at the termini of the structures. Multi-stranded, antiparallel β-sheet structures can be generated by successive placement of β-hairpin sequences in a single polypeptide chain. The successful construction of three stranded β-sheet structures is described in Chapter 5 of this dissertation. A 14-residue peptide Boc-Leu-Phe-Val-DPro-Gly-Leu-Val-Leu-Ala-DPro-Gly-Phe-Val-Leu-OMe (LFV14) was designed such that it is composed of three strand segments linked by two DPro-Gly turn segments. The peptide showed excellent solubility in apolar media, permitting detailed conformational analysis by 500 MHz NMR spectroscopy in organic solvents. Observation of long-range, interstrand NOEs, diagnostic of multiple hairpin structures, provides conclusive evidence for a predominantly populated three stranded β-sheet structure in solution. Extension of this strategy has been described in which an 18-residue peptide, Arg-Gly-Thr-Ile-Lys-DPro-Gly-Val-Thr-Phe-Ala-DPro-Ala-Thr-Lys-Tyr-Gly-Arg, was designed with enhanced solutility in water to probe (β-sheet structure formation in aqueous and mixed aqueous-methanol systems. NMR data provided conclusive evidence in favor of the desired structure being significantly populated in methanol and methanol-water mixtures (50 %, v/v). In water, spectroscopic evidence suggests that the long-range order expected of a three-stranded structure is lost, possibly due to water invading the interstrand hydrogen bonds. Successful construction of a four-stranded antiparallel β-sheet structure has been demonstrated in Chapter 6. A 26-residue peptide Arg-Gly-Thr-Ile-Lys»DPro-Gly-Ile-Thr- Phe-Ala-DPro-Ala-Thr-Val-Leu-Phe-Ala-Val-DPro-Gly-Lys-Thr-Leu-Tyr-Arg was designed to have four strand segments linked by three DPro-Xxx turn segments. The peptide exhibited excellent NMR properties permitting structure determination by analysis of NOE data, which revealed that a four stranded β-sheet structure is indeed populated in methanol. Structural studies on this peptide in mixed methanol-water established that the four stranded β-sheet is appreciably populated at a composition of 50 % (v/v) methanol-water mixture, with the β-sheet structure still detectable even at a composition of 70 % water-30 % methanol. In a completely aqueous environment, the β-sheet structures is significantly disrupted, presumably due to solvent invasion. The nucleating β-turns, however, appear to have retained their structural integrity even in this competitive environment. Chapter 7 describes the insertion of L-Lactic acid (Lac), a hydroxy acid, into polypeptide helices stabilized by a-aminoisobutyricacid (Aib). This study was undertaken to investigate the effect of hydrogen bond deletion on peptide helices. Crystal structure determination of three oligopeptides containing Lac residues has been performed. Peptide 1, Boc-Val-Ala-Leu-Aib-Val-Lac-Leu-Aib-Val-Ala-Leu-OMe, and peptide 2, Boc-Val-Ala-Leu-Aib-Val-Lac-Leu-Aib-Val-Leu-OMe adopt completely helical conformations in the crystalline state, with the Lac(6) residue comfortably accommodated in the center of a helix. NMR studies of peptide 1 and its all amide analog 4, Boc-Val-Ala-Leu-Aib-Val-Ala-Leu-Aib-Val-Ala-Leu-OMe, provide firm evidence for a continuous helical segment in both the cases. In a 14-residue peptide 3, Boc-Val-Ala-Leu-Aib- Val- Ala-Leu- Val- Ala-Leu- Aib-Val-Lac-Leu-OMe, residues Val( 1 )-Leu( 10) adopt a helical conformation, which is terminated by formation of a Schellman motif, with Aib(ll) as the site of chiral reversal. The loss of the hydrogen bond at the C-terminus appears to facilitate the chiral reversal at Aib(l 1). In the final section of this thesis, Chapter 8, successful construction of a synthetic motif containing two distinct elements of secondary structure, a (β-hairpin and a helix, has been described. The design of a 17-residue peptide Boc-Val-Ala-Leu-Aib-Val-Ala-Leu-Gly-Gly-Leu-Phe-Val-DPro-Gly-Leu-Phe-Val-OMe, BH17, is based on a modular approach, in which previously characterized β-hairpin (Leu-Phe-Val-DPro-Gly-Leu-Phe-Val) and helix (Val-Ala-Leu-Aib-Val-Ala-Leu) modules are linked by a Gly-Gly linker. The positioning of the achiral Gly residue at position 8 facilitates termination of the potential helical segment (residues 1-7) by formation of a Schellman motif. Gly(9) is anticipated to be the sole conformationally flexible residue. NMR studies on BH17 indicated the presence of both the helix (residues 1-7) and the β-hairpin (residues 10-17) structures in the sequence, with four major conformational possibilities at the linking segment. Crystal structure determination of BH17 revealed that the two elements of structure are approximately arranged in an orthogonal fashion. The crystal structure validates the original premise that a modular assembly strategy may be viable for the construction of larger synthetic structures. Chapter 9 summarises the major results of this thesis. (For formulae, please refer "pdf" format) Biochemistry β-Sheet β-Hairpins Synthetic Polypeptide Synthetic Peptide Protein Design Beta Hairpins Beta Sheet Designed Peptides Ramachandran Map Peptide Helices de novo Protein Design Polypeptide Motifs NMR Spectroscopy Circular Dichroism
9	Synthèse et évaluation pharmacologique de nouveaux peptides biomimétiques et de benzothiadiazines / Synthesis and pharmacological evaluation of new biomimetic peptides and benzothiadiazins Kihal, Nadjib 29 January 2013 (has links) Les canaux potassiques sensibles à l’ATP (KATP) jouent un rôle primordial dans plusieurs processus cellulaires. La modulation de ces canaux par des molécules activatrices constituerait des applications pharmacologiques et médicinales très intéressantes. À cet effet nous avons conçu et synthétisé de nouvelles molécules hybrides cromakalim-diazoxide et diazoxide-amine/aminoacide. Nous avons également, évalué l’activité myorelaxante de ces composés sur l’aorte de rates. Les résultats obtenus ne montrent pas un effet myorelaxant significatif. Des études sur d’autres tissus, notamment les cellules β pancréatiques et le muscle utérin, sont envisagées afin d’explorer une éventuelle sélectivité tissulaire. Par ailleurs, les interactions protéine-protéine jouent un rôle fondamental dans presque tous les processus cellulaires. Elles sont fortement impliquées dans la formation de la structure dimérique de la protéase du VIH-1 et l’agrégation du peptide β amyloïde impliquée dans la maladie d’Alzheimer. L’inhibition de ces interactions serait donc d’un avantage thérapeutique pour le traitement du SIDA et de la maladie d’Alzheimer. Nous avons conçu et synthétisé d’une part, des pinces moléculaires à base de motifs carbonylhydrazides et oligohydrazides (Azatide), et d’autre part, des molécules pentapeptidiques avec un peudoaminoacide central alcoolfluoré. Enfin, nous avons testé la capacité des pinces moléculaires à perturber le feuillet β terminal de la PR du VIH-1 afin d'inhiber sa dimérisation et donc son activité. Nous avons réalisé de même une étude de relation structure-activité et d’après l’ensemble des résultats obtenus, il semblerait que la flexibilité est délétère pour l’activité inhibitrice. Nous avons également évalué la capacité des nouvelles molécules peptidomimétiques alcool fluorées à accélérer ou inhiber l’agrégation du peptide Aβ1-42 dans le but de diminuer la présence de petits oligomères neurotoxiques. Les résultats obtenus sont très prometteurs, nous avons réussi à développer d’une part un pentapeptide capable d’inhiber totalement l’agrégation de Aβ1-42, et d’autre part des pseudopentapeptides capables d’accélérer son agrégation. Nous avons aussi démontré l’influence de l’atome de fluor sur la structuration d’un pentapeptide. Des études par RMN et DC sont en cours. / ATP-sensitive potassium channels (KATP) play an important role in many cellular processes. The modulation of these channels by activating molecules may constitute very interesting pharmacological and medicinal applications. For this purpose, we have designed and synthesized new hybrid molecules cromakalim-diazoxide and diazoxide-amine/aminoacid. We also evaluated the relaxant activity of these compounds on aorta of rats. The obtained results do not show a significant relaxant effect. Studies on other tissues, including pancreatic  cells and uterine muscle, are envisaged to explore the potency of these compounds and their possible tissue selectivity.Otherwise, Protein-protein interactions play a fundamental role in almost all cellular processes. They are strongly involved in the formation of the dimeric structure of HIV-1 protease and β amyloid peptide aggregation involved in Alzheimer's disease. Inhibition of these interactions would be a therapeutic advantage for the treatment of AIDS and Alzheimer's disease. We designed and synthesized on one hand, molecular tongs based on carbonylhydrazide oligohydrazid (Azatide) fragments and in the other hand, pentapeptide molecules with a central fluorinated and hydroxylated aminoacid. Finally, we tested the ability of molecular tongs to disrupt the terminal β sheet of the HIV-1 PR to inhibit its dimerization and thus its activity. We have also conducted a structure-activity relationship study and According to the results it seems that flexibility is detrimental to the inhibitory activity. We evaluated as well the ability of new fluorinated and hydroxylated peptidomimetics to accelerate or inhibit the aggregation of Aβ1-42 peptide in order to reduce the presence of small toxic oligomers. The results are very promising that we succeeded in developing a pentapeptide able to completely inhibit the aggregation of Aβ1-42, and in the other hand pseudopentapeptides able to accelerate its aggregation. We also demonstrated the influence of fluorine on the structure of a pentapeptides. Studies by NMR and DC are in progress. Canaux KATP Cromakalim Diazoxide Amine Aminoacide Activité myorelaxante Interactions protéine protéine Protéase du VIH-1 SIDA Peptide β amyloïde Maladie d’Alzheimer Carbonylhydrazides Azatide Peptidomimétique Motif alcool fluoré Dimerisation Agrégation Feuillet β KATP channels Cromakalim Diazoxide Amine Aminoacide Muscle relaxant activity Protein interactions HIV-1 protease AIDS Β amyloid peptide Alzheimer's disease Carbonylhydrazides Azatide Dimerization Aggregation Β sheet
10	Design, synthesis and single molecule force spectroscopy of biosynthetic polypeptides / Design, synthèse et spectroscopie de force à l’échelle de la molécule unique de polypeptides biosynthétiques Asano, Marie 14 October 2016 (has links) Le repliement des protéines est principalement gouverné par les interactions spécifiques des structures secondaires. 1, 2 Toutefois, il existe expérimentalement peu d’informations sur les propriétés mécaniques fondamentales des hélices α et des feuillets β isolées. Les recherches antérieures sur l'étude du déploiement des hélices sont peu concluantes 3-5 et à notre connaissance l'étude des propriétés mécaniques d'un feuillet β isolé, intramoléculaire est sans précédent. Les copolymères PEG114-b-poly(L-lysine)134-(2-pyridyl disulfure),PEG114-b-poly(L-lysine)-b-PEG114 et poly(L-acide glutamique)85-b-(2-pyridyldisulfure) été synthétisés et utilisés comme systèmes modèles pour tester les propriétés mécaniques des motifs secondaires de type hélice α et feuillet β. Les résultats obtenus se sont révélés être en bon accord avec les résultats théoriques obtenus en utilisant un modèle statistique basé sur AGAGIR 6. La différence de force de déroulement comparant les hélices de poly(L-Lysine) ≈ 30 pN et de poly(L-acide glutamique) ≈ 20 pN des copolymères diblocs a été attribuée à l'hydrophobicité différente des chaînes latérales. La plus grande hydrophobie dumotif lysine conduit à de plus grandes interactions entre les chaînes latérales qui empêchent les fluctuations aléatoires au sein de l’hélice, et conduisent à une stabilité supérieure de l'hélice α. Lorsque les expériences ont été conduites dans des conditions favorisant la solubilité des chaînes latérales de lysine, les interactions ont diminué à une force de ≈ 20 pN, similaire à la force des interactions observées pour le poly(L-acide glutamique). Nous supposons qu'un minimum de ≈ 20 pN est nécessaire pour rompre la liaison hydrogène en maintenant l'hélice α, car cette force a été obtenue dans des conditions où les interactions de la chaîne latérale étaient minimisées. La présence de plateaux de force constants et d'inflexions correspondantes démontre une force de dépliement indépendante de la longueur, qui supporte un mécanisme de déroulement tour-par-tour pour l'hélice. De plus, la plus grande hydrophobie des chaînes latérales a été suggérée non seulement pour stabiliser la structure en hélice, mais également pour inhiber la formation d'une structure de type β-turn métastable intermédiaire lorsque les forces entropiques dominent. Des études préliminaires ont été effectuées sur le système de PEG114-bpoly(L-Lysine)134-(2-pyridyl disulfure) après induction d’une transition - β par un traitement thermique dans des conditions basiques. Une inflexion à une force≈ 70 pN a été obtenue, ce qui suggère la formation d'une interaction de type feuillet β. Une stratégie bottom-up a ainsi été proposée avec succès, démontrant le potentiel d'utilisation de tels systèmes artificiels pour simplifier et modéliser des systèmes biologiques réels. La compréhension de ces modèles isolés plus simples aidera sans doute la compréhension de systèmes plus complexes. / Proteins fold by the initial, preferential folding of secondarystructures 1, 2, however surprisingly little is known about the basic mechanicalproperties of isolated α-helices and β-sheets from an experimental standpoint.Previous investigations into studying the generic unfolding behaviour of α-heliceshave proved inconclusive 3-5, and to our knowledge the study of an isolated,intramolecular β-sheet is unprecedented.Bioinspired PEG114-b-poly(L-glutamic acid)85-(2-pyridyl disulphide),PEG114-b-poly(L-lysine)134-(2-pyridyl disulphide) and PEG114-b-poly(Llysine)134–b-PEG114 were designed, synthesized and utilized as model systems toprobe the mechanical properties of α-helix and β-sheet secondary motifs. Theobtained results were shown to be in good agreement with theoretical resultsobtained by utilizing a AGAGIR-based statistical mechanical model 6. Thedifference in unravelling force comparing the helices of poly(L-Lysine) ≈30 pNand poly(L-glutamic acid) ≈20 pN diblock copolymers was attributed to thediffering hydrophobicity of the side chains. The greater hydrophobicity of thelysine allowed greater interactions between the side chains and sterically hinderedrandom helix-coil fluctuations, which lead to a superior α-helix stability. Whenexperiments were conducted in conditions promoting the solubility of the lysineside chains, the interactions decreased to a force of ≈20 pN, similar to the force ofinteractions observed for the poly(L-glutamic acid). We infer that a minimum of≈20 pN is needed to rupture the hydrogen bonding maintaining the α-helix as thisforce was obtained in conditions where the side chain interactions wereminimized.The presence of constant force plateaus and corresponding inflectionsdemonstrates a length independent unfolding force, which supports a turn-by-turnunfolding mechanism for the α-helix.In addition, the greater hydrophobicity of the side chains was suggestedto not only stabilize the α-helix structure, but also to inhibit the formation of anintermediate metastable β-hairpin-like structure when entropic forces dominate.Preliminary studies were also conducted on the PEG114-b-poly(LLysine)134-(2-pyridyl disulphide) system after a α-β transition had been inducedby heat in basic conditions, where an inflection at a much higher force of ≈ 70 pNwas obtained suggesting the formation of a β-sheet interaction.A bottom-up, investigative strategy has thus been successfully proposeddemonstrating the potential of utilizing such artificial systems to simplify andexemplify real biological systems. The comprehension of these simpler isolatedmodels will no doubt aid the understanding of more complex systems. Copolymères à blocs Polypeptides stimulables Poly(L-acide glutamique) Poly(L-lysine) Biosynthétiques Hélice- α Feuillet- β Single molecule force spectroscopy Stimuli-responsive Block copolymer polypeptides Poly(L-glutamic acid) Poly(L-lysine) Biosynthetic Α- helix Β-sheet

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