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Nouvelle approche du traitement de l’emphysème ;Synthèse et activité biologique d’inhibiteurs de l’élastase neutrophile humaine. / New approach for traitment of emphysema; Synthesis and biological activity of HNE inhibitorsHuynh, Thi Ngoc Tram 24 June 2014 (has links)
Dans le but d'obtenir des composés originaux ayant une activité inhibitrice envers la NE, des triazoles et des 2-aminofuranes diversement substitués ont été synthétisés. Une réaction de "click chemistry" catalysée par le cuivre entre un azide et un alcyne a été appliquée pour la synthèse des triazoles. La synthèse des composés de type 2-aminofuranes est basée sur l'attaque nucléophile d'un isonitrile sur un γ-oxo butynoate d'alkyle en présence d'un aldéhyde aromatique.Les tests biologiques ont été réalisés tout au long de la thèse. Les composés présentant les meilleures IC50 envers la NE ont été sélectionnées pour une évaluation en terme de sélectivité vs les autres sérines protéases du PN (la cathepsine G et la protéinase 3). Enfin, les meilleurs inhibiteurs ont subi une évaluation de leur activité anti-oxydante selon deux méthodes: méthode au DPPH (1,1-diphényl-2-picryl-hydrazyl) et méthode au thiocyanate ferrique. / To prepare new compounds with an inhibitory activity towards NE, diversely substituted triazoles and 2-aminofuranes were synthesized. Triazoles were obtained using the copper catalyzed "click chemistry" between an azide and an alkyne. The synthesis of 2-aminofuranes is based on the nucleophilic attack of an isonitrile on an alkyl γ-oxo-butynoate in the presence of an aromatic aldehyde.Biological assays were carried out throughout the thesis. Compounds owning the best IC50 towards NE were selected for evaluation in terms of selectivity vs the two other serine-proteases of the PN (cathepsin G and proteinase 3). Finally, evaluation of antioxidant activity of the best compounds was achieved using by two approachs: DPPH (1,1-diphenyl -2-picrylhydrazyl) method and ferric thiocyanate method.
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Conception et synthèse d'aminoglycosides guidées par l'ARN / Design and synthesis of aminoglycosides guided by RNAObszynski, Julie 10 June 2016 (has links)
Le développement de nouveaux antibiotiques est un enjeu majeur de santé publique. Etant donné, le fort potentiel des aminoglycosides en tant qu’antibiotique, ces composés ont attisé l’intérêt de plusieurs groupes de recherche. Cependant, leur usage est encore très limité, malgré leur ancienneté, du fait de leur toxicité et du développement toujours croissant des mécanismes de résistances aux aminoglycosides. Afin de mieux appréhender les problèmes inhérents à leur utilisation, il est crucial de mieux comprendre leur action sur les différentes cibles cellulaires, et d’étudier leur interaction avec leur cible moléculaire (ARN et protéine). En plus de leur pouvoir antibiotique, les aminoglycosides sont également des ligands universels pour des ARN, capables d’interagir spécifiquement avec notamment les ARN du VIH-1 suivants : DIS, TAR, RRE. L’élaboration d’aminoglycosides modifiés présente un énorme avantage car le domaine d’application, et en conséquence les retombées, sont grandes. Néanmoins, la complexité structurale de ces molécules est un frein majeur, la fonctionnalisation chimiosélective est indispensable mais malheureusement peu décrite dans la littérature. Dans le cadre de ce travail, nous avons développé deux types d’approches pour cibler le DIS et/ou le site A du ribosome bactérien. La première originale, mais risquée se base sur le concept de click in situ. La seconde approche est traditionnelle et est basée sur la fonctionnalisation sélective de certaines positions clés des aminoglycosides. / The development of new antibiotics is a major public health issue. Given the high potential of aminoglycosides as antibiotics, these compounds have aroused great interest in many research groups. However, despite their maturity, their use is still limited because of their toxicity and the increasing development of resistance mechanisms to aminoglycosides. To better understand the problems inherent to their use, it is crucial to understand their action a cellular level, and to study the interactions with their molecular targets (RNA and protein). In addition to their antibiotic power, aminoglycosides are also universal ligands for several RNAs, capable of specific interactions with RNAs of HIV-1: DIS, TAR and RRE. The elaboration of modified aminoglycosides presents a huge advantage because the domain of application, and therefore the benefits, are important. Nevertheless, the structural complexity of these molecules is a major constraint, chemoselective functionalization is essential but unfortunately poorly described in the literature.In this work, we developed two approaches to target the DIS and/or the A site of the bacterialribosome. The first one, unique but challenging is based on the concept of in situ click chemistry. The second approach is conventional and is based on the selective functionalization of some keypositions of aminoglycosides.
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Synthesis and photophysical study of cation-responsive and photoactive supramolecules based on “Click” triazole and azacrown moieties / Synthèse et étude photophysiques de supramolécules photoactives et de senseurs de cations basées sur des triazoles et azacouronnesRuan, Yibin 20 December 2012 (has links)
Ce travail porte sur la synthèse et l'étude photophysique des molécules fluorescentes, visant à construire de nouveaux capteurs chimiques pour la détection sélective des ions métalliques importants en biologie ou pour l’environnement. Une série de fluoroionophores contenant le motif triazole et différents fluorophores ont été utilisés pour étudier les fonctions du groupe triazole dans les senseurs chimiques. Nos études photophysiques de ces ligands complexants démontrent que le triazole pourrait contribuer dans le cadre de fluorophores conjugués, comme les sites de complexation de métal ou de linkers. Plusieurs senseurs chimiques sélectifs ont été successivement mis au point pour la détection du Cu2+ ou du Hg2+. En incorporant le fluorophore dansyle sur calix[4]bisazacrown, une nouvelle capteur chimique de potassium a été construit. Un sulfonate fluorescente calix [4] bisazacrown a été conçu et synthétisé pour la détection sélective et ratiométrique de l’aluminium dans une solution tampon de lutidine à pH 6,0 avec une sensibilité satisfaisante. Enfin, nous avon cherché à réaliser une modulation de la complexation de cation par la redistribution de charge photoinduite à l'état excité. Deux motifs de liaison sur la base de fullerène et de pyridinium bétaïne ont été conçus à cet effet. Les résultats préliminaires ont mis en évidence un effet de type PET dans les composés à base de fullerène et les composés à base de pyridinium betaine sont trés prometteur dans la translocation de cation. / This work deals with the synthesis and photophysical study of fluorescent molecules, aiming to construct new chemical sensors for the selective detection of environmentally or biologically important metal ions. A series of fluoroionophores consisting of triazole moiety and different fluorophores was utilized to investigate the functions of triazole group in chemosensors. Our comprehensively photophysical and complexing studies of these ligands demonstrated that triazole groups could contribute as part of conjugated fluorophores, as metal binding sites or linkers. Several selective chemosensors were successively developed for the detection of Cu2+ or Hg2+. By incorporating dansyl fluorophore into calix[4]bisazacrown, a new potassium chemosensor was constructed. A sulfonate fluorescent calix[4]bisazacrown was created for the selective and ratiometric detection of Al3+ in lutidine buffer solution at pH 6.0 with a satisfying sensitivity. Finally, we aim to realize modulation of cation binding through the photoinduced charge redistribution in the excited state. Two binding motifs based on fullerene and betaine pyridinium were designed for this purpose. Preliminary results demonstrated that PET in fullerene might be not suitable but pydinium betaine hold great potential in the cation translocations.
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Synthesis and Structural Analysis of Novel Bis(triazole) UDP Analogs as Potential Glycosyl Transferase InhibitorsKnapp, Steven E. 15 December 2008 (has links)
No description available.
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Síntese de heteroaril oxazolinas e derivados triazólicos com potencial atividade biológica / Synthesis of heteroaryl oxazolines and triazolic derivatives with potential biological activityArgomedo, Luis Miguel Zaravia 28 June 2017 (has links)
Fungos no ambiente podem ser patogênicos ou oportunistas, dependendo da imunidade do hospedeiro. Existem várias espécies de fungos, por exemplo, Cândida albicans, Cryptococcus e Aspergillus. A primeira espécie fúngica pode ser tratada com o antifúngico fluconazol, que é um composto que contém anéis heterocíclicos 1,2,4-triazólicos. Além disso, existem cepas de fungos que são resistentes à terapia com fluconazol, que é o caso das Cândida krusei, Cândida tropicalis; entre outras. A busca por novos tratamentos envolve o desenvolvimento de novas moléculas sintéticas. Neste trabalho, sintetizamos uma biblioteca de compostos oxazolínicos e seus derivados 1,2,3-triazólicos. A atividade microbiológica foi avaliada contra 10 tipos de Cândida, 2 tipos de Cryptococcus e 2 tipos de Aspergillus. Além disso, foram feitos os testes de hemólise, citotoxicidade, combinações de drogas e permeabilidade de membrana. Os resultados sugerem um alto potencial terapêutico dos compostos e os propomos como potenciais novos antifúngicos. / Fungi in the environment may be pathogenic or opportunistic depending on the immune status of the host. There are several species of fungi, for example, Candida albicans, Cryptococcus and Aspergillus. The first fungal species can be treated with the antifungal fluconazole, which is a compound containing 1,2,4-triazole heterocyclic rings. In addition, there are strains of fungi that are resistant to fluconazole therapy, which is the case of Candida krusei, Candida tropicalis; among others. The search for new treatments involves the development of new synthetic molecules. In this work, we synthesized a library of oxazoline compounds and their 1,2,3-triazole derivatives. Microbiological activity was evaluated against 10 types of Candida, 2 types of Cryptococcus and 2 types of Aspergillus. In addition, hemolysis, cytotoxicity, drug combinations and membrane permeability were performed. The results suggest the high therapeutic potential of the compounds and we propose them as potential new antifungals.
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Synthesis, Structure-Activity Relationship Study, and Mode of Action Study of 1,4-Naphthoquinone Based Anticancer and Antimicrobial AgentsShrestha, Jaya P. 01 May 2016 (has links)
Synthesizing bioactive small molecules by structural modification of 1,4-naphthoquinone was the primary goal of this research. Several bioactive compounds with anticancer, antifungal, and antibacterial activities were synthesized. All the synthetic protocols were optimized in such ways that do not require cumbersome purification.
First, a new protocol for the synthesis of NQM111 was developed. NQM111 is a highly potent anticancer agent developed in our laboratory, but the old protocol does not provide enough quantity for in vivo study. Therefore, a new safe and improved method was developed which provides enough quantity for in vivo study.
The second project involves the synthesis of 1,4-naphthoquinone conjugated with an aromatic group. These compounds are a highly potent anticancer agent with ~8-fold selectivity towards cancer cell lines than the non-cancer cell line. A mode of action study of this compound was identified, and it was observed that these compounds generate reactive oxygen species,which triggers apoptosis.
The final project involves the synthesis of 1,4-naphthoquinone based antifungal, and antibacterial compounds. These compounds are multi-cationic in nature with a hydrophobic tail. Six different analogs with varying hydrophobic tails were synthesized and tested for their antibacterial and antifungal activity. These compounds showed excellent activity against wide range of fungi including resistant strains.
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Determining the Activity of Three HDAC Variants in the Presence of Compounds Containing 1,2,3-and 1,2,4-Triazoles as Zinc Binding GroupsGlazener, Rachel Louise 01 August 2010 (has links)
Histone Deacetylase (HDAC) plays a vital role in cellular processes, for example gene expression, cell growth, and apoptosis. Finding drug candidates to inhibit the over activity of HDACs in cancer is a growing area of interest. Inhibitors, thus far, have three important motifs to be studied: the zinc binding group, a hydrophobic linker, and a cap group. By altering these groups on the inhibitor, not only can activity be increased but also selectivity within the classes of HDACs. We present the design of two novel sets of molecules that contain either a 1,2,3-triazole or 1,2,4-triazole. The 1,2,3-triazoles were synthesized using “click chemistry” with a novel pyridyl triazine catalyst. The 1,2,4-triazoles were synthesized utilizing substitution chemistry. This set of molecules was designed after suberoylanilide hydroxamic acid (SAHA) but replaced the hydroxamate with the triazole as the zinc binding group. The activity of these inhibitors against HDAC 1, HDAC 6, and SIRT 1 were tested using the Biomol Fluor de Lys in vitro kits. Though none of the synthesized compounds were strong activators or inhibitors of any of the classes of HDACs, trends were observed that could lead to the design of more potent inhibitors.
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Determining the Activity of Three HDAC Variants in the Presence of Compounds Containing 1,2,3-and 1,2,4-Triazoles as Zinc Binding GroupsGlazener, Rachel Louise 01 August 2010 (has links)
Histone Deacetylase (HDAC) plays a vital role in cellular processes, for example gene expression, cell growth, and apoptosis. Finding drug candidates to inhibit the over activity of HDACs in cancer is a growing area of interest. Inhibitors, thus far, have three important motifs to be studied: the zinc binding group, a hydrophobic linker, and a cap group. By altering these groups on the inhibitor, not only can activity be increased but also selectivity within the classes of HDACs. We present the design of two novel sets of molecules that contain either a 1,2,3-triazole or 1,2,4-triazole. The 1,2,3-triazoles were synthesized using “click chemistry” with a novel pyridyl triazine catalyst. The 1,2,4-triazoles were synthesized utilizing substitution chemistry. This set of molecules was designed after suberoylanilide hydroxamic acid (SAHA) but replaced the hydroxamate with the triazole as the zinc binding group. The activity of these inhibitors against HDAC 1, HDAC 6, and SIRT 1 were tested using the Biomol Fluor de Lys in vitro kits. Though none of the synthesized compounds were strong activators or inhibitors of any of the classes of HDACs, trends were observed that could lead to the design of more potent inhibitors.
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Synthesis and characterization studies of novel macrocyclic compounds with CH and NH donor groupsCai, Jiajia 27 January 2012 (has links)
The dissertation focuses on the recent discovery in supramolecular chemistry of novel macrocyclic compounds with NH and CH donor groups. Chapter 1 provides a brief overview of the anions under study, supramolecular chemistry, the relevant other anion receptors, as well as previous findings involving the use of CH donor groups as functional building blocks. Chapter 2, as the major focus of this dissertation, describes a pyrrolyl-based triazolophane, incorporating CH and NH donor groups, which acts as a receptor for the pyrophosphate anion in chloroform solution. It shows selectivity for this trianion, followed by HSO₄− > H₂PO₄− > Cl− > Br− (all as the corresponding tetrabutylammonium salts), with NH−anion interactions being more important than CH−anion interactions. In the solid state, the receptor binds the pyrophosphate anion in a clip-like slot via NH and CH hydrogen bonds. Chapter 3 describes a pyrrole–based triazolium–phane which has been prepared through “click” chemistry in moderate yield. It displays a high selectivity for tetrahedral oxyanions relative to various test monoanions and trigonal planar anions in mixed polar organic–aqueous solvent media. It was also found that the binding affinity and selectivity of the macrocycle to the anions are solvent dependent. Several crystal structures were solved. They confirm that the cationic macrocycle ring binds pyrophosphate and phosphate anions in the solid state. Finally, chapter 4 describes a novel 1,3,4-substituted 1,2,3-triazolium salt found to function as an effective precursor for the synthesis of structurally characterized cationic silver(I) and ruthenium(II) carbene complexes of overall 1:2 ligand-to-metal stoichiometry. The Ag(I) complex crystallized in the form of an eight silver atom containing cluster, whereas the Ru(II) complex proved to be a discrete species and was found to be capable of initiating the ring-opening metathesis polymerization of norbornene upon activation with (trimethylsilyl)diazomethane. / text
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Synthesis and Biological Evaluation of Novel Resveratrol and Combretastatin A4 Derivatives as Potent Anti-Cancer AgentsMadadi, Nikhil Reddy 01 January 2014 (has links)
Resveratrol has been reported as a potential anticancer agent but cannot be used as an antitumor drug due to its chemical and metabolic instability. We have designed and synthesized 184 novel compounds related to resveratrol in an attempt to produce more potent and drug-like molecules. We have identified a tetrazole analog of resveratrol, ST-145(a) as a lead anticancer agent from the resveratrol analog series of compounds with a GI50 value of less than 10nM against almost all the human cancer cell lines in the National Cancer Institute’s screening panel.
In a separate study, we tested the hypothesis that the limited bioavailability of resveratrol, can be improved by synthesizing analogs which would be glucuronidated at a lower rate than resveratrol itself. We demonstrated that ST-05 and ST-12(a) exhibit lower glucuronidation profiles when compared to resveratrol and that these synthesized stilbenoids likely represent useful scaffolds for the design of efficacious resveratrol analogs.
We have also initiated a new discovery program to identify selective CB1 and CB2 receptor ligands from a library of novel stilbene scaffolds structurally related to the resveratrol molecule. From the screened resveratrol analogs, two compounds were identified as selective CB2 and CB1 ligands. Compound ST-179 had 47-fold selectivity for CB2 (Ki = 284 nM) compared to CB1, while compound ST-160 was 2-fold selective for CB1 (Ki = 400 nM) compared to the CB2 receptor. These structural analogs have the potential for development as novel cannabinoid therapeutics for treatment of obesity and/or drug dependency.
Combretastatin A4 (CA-4) is one of the most potent antiangiogenic and antimitotic agents of natural origin. However, CA-4 suffers from chemical instability due to cis-trans isomerism in solution. To circumvent this problem, we have developed a facile procedure for the synthesis of novel 4,5-diaryl-2H-1,2,3-triazoles as CA-4 analogs to constrain the molecule to its cis-configuration. Twenty three triazoles were prepared as CA-4 analogs and submitted for anticancer screening. Among these CA-4 analogs, ST-467 and ST-145(b) can be considered as lead anticancer agents from this series, and further investigation against various cancer cell types in vivo with this class of compound may provide novel therapeutic avenues for treatment.
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