Vliv metribuzinu na oxidativní stres a antioxidační enzymy raka signálního / The effect of metribuzine on oxidative stress and antioxidant enzymes of signal crayfish

LIDOVÁ, Jaroslava

January 2015

The aim of this study was to investigate effects of the triazine herbicide metribuzine on oxidative stress level and antioxidant enzymes activity in gills, muscle and hepatopancreas of signal crayfish (Pacifastacus leniusculus Dana) and also extension of knowledge about effect of metribuzine on the environment. The experiment took up 60 days. Crayfish were exposured to metribuzine concentrations of 0.52 micrograms.l-1 (real environmental concentration) and 3.06 mg.l-1 (10% 96hLC50) for the first 30 days. Then a second phase followed depuration without metribuzine (30 days). Changes in the oxidative stress level (TBARS), superoxiddismutase (SOD) activity and catalase (CAT) activity were observed in all examined tissues. Changes in glutathionreductase (GR) activity were observed only in hepatopancreas. Chronic exposure of metribuzine demonstrated an oxidative damage of cell lipids, proteins and also changes in antioxidant activity in examined crayfish tissues.The results of this study suggest that crayfish are a very suitable organisms for toxicological tests and simultaneously extend knowledge about effect of metribuzine on the environment.

Desenvolvimento de sistemas de liberação modificada para herbicidas triazínicos utilizando nanocápsulas poliméricas / Development of controlled release systems for triazine herbicides using polymeric nanocapsules

Grillo, Renato, 1984-

19 August 2018

Orientador: Leonardo Fernandes Fraceto / Dissertação (mestrado) - Universidade Estadual de Campinas, Instituto de Biologia / Made available in DSpace on 2018-08-19T01:41:13Z (GMT). No. of bitstreams: 1 Grillo_Renato_M.pdf: 3217546 bytes, checksum: e0e0715313f026b21d8edb4e55fd94cf (MD5) Previous issue date: 2011 / Resumo: Muitas das novas tecnologias desenvolvidas atualmente envolvem a nanobiotecnologia, dentre elas, os sistemas carreadores nanoestruturados poliméricos. Os sistemas nanoestruturados poliméricos (SNP) agem como compartimentos transportadores de substâncias bioativas e apresentam tamanho inferior a 1 ?m. Estes sistemas têm a capacidade de alterar as propriedades físico-químicas dos compostos a eles incorporados, levando a algumas vantagens. Para herbicidas estes sistemas podem ser responsáveis pela redução na quantidade de substância química necessária para o controle de pragas, diminuição no risco de poluição ambiental, redução na quantidade de energia gasta, uma vez que se reduz o número de aplicações necessárias comparadas às formulações convencionais e aumento na segurança das pessoas responsáveis pela aplicação do produto no campo. Neste trabalho pretende-se introduzir esta nova abordagem tecnológica de sistemas de liberação modificada para herbicidas triazínicos, preparando e caracterizando dois tipos de nanocápsulas obtidas do polímero biodegradável poli(_-caprolactona) (PCL). Os herbicidas triazínicos escolhidos foram ametrina, atrazina e simazina devido a sua ampla utilização em plantações de cana-de-açúcar e milho no Brasil. Em uma primeira etapa deste projeto foram preparadas nanocápsulas pelo método deposição interfacial de polímero préformado e analisadas quanto sua eficiência de encapsulação, perfil de cinética de liberação, estabilidade físico-química e morfologia. A eficiência de encapsulação dos herbicidas nas nanocápsulas de PCL foi elevada, apresentando valores compreendidos entre 98% e 84% (m/m). O perfil de cinética de liberação do herbicida livre foi mais rápido, quando comparado com o herbicida associado às nanocápsulas. O mecanismo responsável pela liberação dos herbicidas neste sistema foi dado pelo processo de relaxamento das cadeias poliméricas. As suspensões coloidais de nanocápsulas apresentaram tamanho médio entre 200-300 nm, polidispersão baixa e valores de potencial zeta menor que -25 mV. As análises microscópicas mostraram que as nanocápsulas apresentaram-se esféricas, densas e sem agregados. Os espectros de infravermelho das nanocápsulas de PCL contendo herbicidas não apresentarambandas relacionadas aos herbicidas, evidenciando uma interação entre o composto bioativo e a nanopartícula. Na segunda etapa deste projeto foram preparadas nanocápsulas de PCL revestidas com diferentes concentrações de quitosana e encapsulou-se o herbicida atrazina ao sistema. A taxa de encapsulação, o perfil de cinética de liberação e a estabilidade físico-química das formulações também foram avaliados e observou valores de encapsulação compreendido entre 84% e 64% (m/m). O perfil de cinética de liberação do herbicida também foi alterado quando associado às nanocápsulas revestidas e o mecanismo de liberação foi dado pelo processo de difusão e relaxamento das cadeias poliméricas. A estabilidade das formulações foi alterada conforme mudança na concentração de quitosana. Portanto considerando alguns destes resultados e pensando na larga utilização de herbicidas no mundo, o seu uso na agricultura na forma associada a sistemas carreadores de liberação modificada pode ser interessante e bastante promissor do ponto de vista ecológico como econômico / Abstract: Many of the new technologies developed today involve nanobiotechnology, among them, nanostructured polymeric carrier systems. Nanostructured polymeric systems (PNS) compartments act as carriers of bioactive substances and have size less than 1 micrometers. These systems have the ability to change the physicochemical properties of the compounds incorporated into them, leading to numerous advantages. For these systems herbicides may be responsible for the reduction in the amount of chemical needed for pest control, decreased risk of environmental pollution, reduction in the amount of energy expended, since it reduces the number of applications required compared to conventional formulations and increase the safety of persons responsible for applying the product on the field. This study intended to introduce this new technology approach for sustained release systems triazine herbicides, preparing and characterizing nanocapsules produced with poly (_-caprolactone) (PCL). The herbicides were chosen ametryn, atrazine and simazine because of its wide use in sugar cane and corn crops in Brazil. In a first stage of this study was prepared nanocapsules by interfacial polymer deposition method preformed and analyzed for their encapsulation efficiency, release kinetics profile, physical and chemical stability and morphology. The encapsulation efficiency of herbicides in PCL nanocapsules was good, with values between 98% and 84%. The kinetic profile of free herbicide release was modified compared with the herbicide associated with nanocapsules. The mechanism responsible for the release of herbicides in this system was given by the process of relaxation of polymer chains. The colloidal suspensions of nanocapsules present a mean size between 200-300 nm, low polydispersity and zeta potential values lower than -25 mV. The microscopic analysis showed that the nanocapsules were spherical and didn't present aggregates. The infrared spectra of nanocapsules-PCL containing herbicides showed no bands related to herbicides, showing an interaction between the nanoparticle and the bioactive compound. In the second stage of this study was prepared PCL nanocapsules coated with different concentrations of chitosan and encapsulated to the herbicide atrazine to the system. The rate of encapsulation, the profile of release kinetics and physical and chemical stability of the formulations were also evaluated and observed values of encapsulation between 84% and 64%. The profile of release kinetics of the herbicide was also altered when associated with nanocapsules coated and release mechanism was given by the process of diffusion and relaxation of polymer chains. The stability of the formulations was changed according to change in the concentration of chitosan used. So considering some of these results and considering the wide use of herbicides in the world, its use in agriculture as the associated systems for the controlled release carrier can be interesting and very promising in terms of ecological and economical / Mestrado / Bioquimica / Mestre em Biologia Funcional e Molecular

Tecnologia de liberação controlada

Nanocápsulas

Herbicidas triazínicos

Quitosana

Controlled release technology

Nanocapsules

Triazine herbicides

Chitosan

Investigation of the Reaction Mechanism between Bovine Collagen and a Triazine- Based Coupling Reagent

Pozza, Giorgio, Cattazzo, A., Mammi, S., Carofiglio, T.

28 June 2019

Content: The triazine-based coupling reagent 4-(4,6-dimethoxy-1,3,5-triazin-2-yl)-4-methylmorpholinium chloride (DMTMM) is a promptly water-soluble white solid commonly used in chemical synthesis, which is proven to act as effective tanning agent. This research work provides an experimental evidence that the tanning ability of DMTMM is associated to an increase of the cross-linking density in the collagen molecule. As a result of the coupling reaction, DMTMM is converted into water-soluble by-products that can be removed by washing. Take-Away: chrome free tanning, reaction mechanism

info:eu-repo/classification/ddc/620

ddc:620

Synthesis of 1, 3, 5 - Triazine Based Antimalarial Drugs

Mugwena, Dakalo Sandra

21 September 2018

MSc (Chemistry) / Department of Chemistry / This dissertation focuses on the application of 1, 3, 5-triazine in a pharmaceutical point of view since it has wide range of uses as described in chapter 1. Malaria is one of the most prevalent and deadly infectious diseases worldwide though there are already many synthesized anti-malarial drugs which are in use presently, drug resistance seems to be one of the major problem and combination therapy seems to be the only solution for now. Hence in this study we used hybridization as a tool (Figure 9) to synthesize new antimalarial drugs using 1, 3, 5-triazine as an intermediate linker, linking known anti-malarial drug, different amine and chloroquine-like amines together using nucleophilic substitution reaction. As explained in chapter four of this dissertation, triazine is used to synthesize mono-, di- and tri-amino-1, 3, 5-triazine substituted products. Using THF as a solvent and K2CO3 as a base changing in temperatures, from 0 oC 25 oC or reflux. Some products were synthesized using microwave irradiation. The application of triazine as an intermediate linker in the above mentioned condition yielded five mono-amino substituted dichloro-1, 3, 5-triazine (21-25) in an average yield of 82%, three amino substitution chloro-1, 3, 5-triazine (26-28) in an average yield of 87%, two amino substituted-1, 3, 5-triazine (29, 30) in an average of 90%, nine chloroquine-like synthesized compounds (33-41) in 84 % average yields respectively. / NRF

Malaria

Synthesis

Drugs

Triazine

Antimalarial

614.532

Triazines

Antimalarials

Chloroquine

Malaria -- Chemotherapy

Malaria

Bacterial diseases

Novel Synthetic Pathways for Tailored Covalent Triazine Frameworks with Catalytic and Electrochemical Applications

Troschke, Erik

05 December 2018

For many applications of industrial relevance, solids providing enhanced porosity such as activated carbons or zeolites have been the key drivers of progress in the past century. Albeit these materials marked an entire era of research, scientists have contributed immense effort to mimic porosity in an artificial way. A rich field to address this challenge is polymer chemistry. Especially covalent triazine frameworks (CTFs), which are exclusively built up from organic matter connected by covalent bonds, have proliferated in the last 10 years and provide remarkable chemical and thermal stability. Within this thesis, a salt templating method for the synthesis of mesoporous CTF materials was developed that applies binary salt mixtures of ZnCl2 (the conventional reaction medium) in combination with alkali halides. In contrast to existing synthetic concepts that induce mesoporosity via high temperature treatment (up to 700 °C), salt templating was conducted at moderate temperatures (300 – 450 °C) and significantly avoided carbonisation as well as nitrogen loss. By applying this new method, salt templated materials with a four-fold increased total pore volume (CTF 1_LiCl: 2.1 cm3 g-1 vs. conventional CTF-1: 0.5 cm3 g-1) and an almost complete retention of the specific surface area (1320 m2 g-1 vs. 1440 m2 g-1) could be synthesised. Another aspect of this thesis dealt with a novel approach to generate CTF materials in a solvent-free, time-efficient and scalable manner. To this end, a mechanochemical synthesis route was developed that makes use of the Friedel-Crafts alkylation to generate CTF materials from cyanuric chloride, serving as triazine node, and electron-rich aromatic compounds as linker molecules. By this method, permanently porous materials (up to 570 m2 g-1) could be synthesised from various monomers with different length and geometry. The syntheses could be conducted within two hours and on a gram scale, thus significantly exceeding known methods in terms of time-efficiency and scalability. Besides these synthetic concepts, three other chapters covered the area of potential applications for CTF materials. To this end, novel CTF materials were synthesised and assessed towards their suitability for use in energy storage systems such as lithium sulfur battery or supercapacitor. In analogy to SPAN, a sulfur containing conductive poly(acrylonitrile) polymer, CTFs containing covalently bound sulfur (S@CTF) were anticipated as promising cathode material in the lithium sulphur battery. Following the synthesis of a variety of different materials, a particular focus was set on determining the impact of sulfur attachment on the porosity and on illustrating the bonding situation of sulfur within the porous host matrix. Elemental analysis revealed that the highest sulfur loadings (33 w%) were obtained for the CTF samples obtained at the lowest synthesis temperature (500 °C). These findings were in agreement with nitrogen adsorption experiments that showed a reduced porosity after sulfur attachment for each material and the largest percental drop of the total pore volume for those samples with the highest sulfur loadings. XPS investigations suggested the presence of C-S species in the sulfur treated materials and supported the formation of covalently bound sulfur. Whereas the synthesis of S@CTF materials was successful, the electrochemical characterisation in a carbonate-based electrolyte revealed a substantial capacity loss after only a few cycles, which was probably due to a loss of active material and underlined that confinement of sulfur might be the key to obtain cathodes with increased cycling stability. In this thesis, a novel pyridine-based CTF material was synthesised, which showed beneficial nitrogen doping and a tuneable porosity by careful choice of the reaction temperature (Scheme 3b). An in-depth characterisation by means of argon physisorption, X-ray photoelectron and Raman spectroscopy was conducted. Thereby, the structural changes upon thermal treatment were carefully investigated and interpreted. The non-purified CTFs – still containing large amounts of ZnCl2 – were directly processed into supercapacitor electrodes. Herein, ZnCl2 was serving two purposes: it acted as a porogen during the CTF synthesis (surface areas up to 3100 m2 g-1 were obtained) and as a precursor for an in situ generated aqueos electrolyte. It was demonstrated that this methodology bypasses extensive washing and more importantly, the findings gained from the electrochemical characterisation matched the structural indications from the XPS experiments. Thus, without purifying the material in advance, this method allowed for estimating the materials’ properties based on its behaviour as supercapacitor. In the last part, a purely CTF-based organocatalyst that benefits from a monomer bearing a catalytically active functionality was synthesised by introducing a charged cationic imidazolium moiety into a microporous covalent triazine framework. A finely adjusted synthetic protocol enabled the structural retention of the thermally labile imidazolium motif, whose successful integration was proven by an in-depth structural characterisation, applying solid-state 1H MAS NMR, XPS and FT-IR spectroscopy. If applied as heterogeneous organocatalyst, the imidazolium-based CTF was active in the carbene-catalysed Umpolung reaction, thus providing clear evidence of an intact structure.

info:eu-repo/classification/ddc/540

ddc:540

Polyoxométallates hybrides : vers des systèmes covalents photoactifs dans le visible

Santoni, Marie-Pierre

04 1900

Réalisé en cotutelle, sous la direction du Pr. Bernold Hasenknopf, à l'Institut Parisien de Chimie Moléculaire, Université Pierre et Marie Curie (Paris VI, France) et dans le cadre de l'Ecole Doctorale "Physique et Chimie des Matériaux" - Spécialité Chimie Inorganique (ED397). / Notre projet se situe dans le contexte actuel de recherche d’énergies « propres », qui permettraient d’assurer un développement durable. Nous nous sommes intéressés à l’édification de systèmes moléculaires bio-inspirés, capables de : (i) collecter efficacement l’énergie solaire, grâce au design d’assemblages supramoléculaires multi-nucléaires photoactifs ; (ii) transférer efficacement l’énergie accumulée jusqu’au catalyseur, lequel effectue les processus multiélectroniques nécessaires à la génération des combustibles. Notre choix s’est porté sur les systèmes hybrides covalents inorganiques-organiques, à base de polyoxométallates (POMs) photoactivés, dans le visible, par des complexes de métaux de transition. Dans un premier temps, nous avons étudié des chromophores dinucléaires de Ru(II) comprenant le motif électroattracteur 1,3,5-triazine, en raison de leurs capacités de transfert d’énergie et pour la prolongation du temps de vie de l’état excité du chromophore. Dans un deuxième temps, la nécessité d’établir une connexion covalente entre le complexe métallique et le POM nous a amené à faire le design de ligands polydentates ditopiques de type trialkoxo. Cette méthodologie, flexible sur le plan synthétique, nous a donné accès à une famille de POMs présentant des sites de coordination de denticité variable (de monodentate à tridentate), en vue d’accommoder divers cations métalliques. Nous avons ensuite étudié la complexation de divers métaux de transition sur ces nouveaux POMs. Les systèmes visés étaient soit des systèmes à transfert de charges photoinduits (complexation de Ru, de Re), soit des systèmes photocatalytiques (complexation de Re et Co) et/ou électrocatalytiques (complexation de Co). L’auto-assemblage des POMs, guidé par le mode de coordination du métal (tel Pd(II) ou Re(I)) et la géométrie de la brique constituante POM, a été également étudié, car il constitue un outil puissant dans l’assemblage de systèmes supramoléculaires multi-nucléaires photoactifs. Les systèmes visés sont destinés à servir de systèmes modèles dans l’édification de systèmes moléculaires à composants multiples et de matériaux hybrides multi-fonctionnels. / We are interested in the photocatalytic production of clean energy sources, such as H2, in order to ensure global sustainable development. We focused our attention on molecular bio-inspired systems, capable of : (i) efficient light harvesting, based on the careful design of multi-nuclear supramolecular photoactive units; (ii) efficient energy transfer to the catalyst, chosen for its ability to perform multi-electronic processes needed in fuels production. We chose inorganic-organic covalent hybrids, constituted of visible-photoactivated POMs by transition metal complexes. First, we designed and studied Ru(II) dinuclear complexes, based on the electrodeficient motif 1,3,5-triazine, for their energy transfer properties and extended excited-state lifetimes. Then, the covalent connection, to ensure between sub-units, compelled us to design new ditopic polydentate ligands. This flexible synthetic methodology gave access to a family of POMs presenting various types of coordination sites (from monodentate to tridentate), in order to allow complexation of different metals. Complexation studies on the new POMs were conducted and aimed at : (i) photoinduced charge transfer systems (complexation of Ru, and Re) ; (ii) photocatalytic (complexation of Re and Co) and/or electrocatalytic systems (complexation of Co). Metal-directed self-assembling of POMs (guided by Pd(II) or Re(I)) and the coordination geometry of the POMs building-block, has also been studied, as a tool in the building-up of electro- and photoactive supramolecular systems. The model systems studied will be used to design molecular multi-functional hybrid materials.

polyoxométallates

hybrides inorganiques-organiques

complexes récolteurs d'énergie

ruthénium

triazine

polypyridines

photocatalyse

auto-assemblage dirigé par le métal

polyoxometalates

inorganic-organic hybrids

light-harvesting devices

ruthenium

triazine

polypyridines

photocatalysis

metal-directed self-assembling

Elaboration et évaluation biologique de nouveaux matériaux lignocellulosiques antibactériens / Elaboration and biological evaluation of new antibacterial lignocellulosic materials

Khaldi, Zineb

26 October 2018

La contamination des surfaces par des bactéries et l’émergence de souches résistantes aux antimicrobiens sont des problèmes très préoccupants dans différents domaines tel que les domaines hospitalier et alimentaire. Cette contamination commence par l’adhésion de bactéries pathogènes sur une surface jusqu’à la formation de biofilms. Ces derniers contribuent à l’émergence de résistances de certaines souches bactériennes aux traitements conventionnels. Pour répondre à ces problèmes de contamination des surfaces, ces travaux de thèse portent sur le développement de nouveaux matériaux antibactériens à base de fibres de pâte à papier. Nous nous sommes intéressés, dans une première partie, à l’élaboration d’un papier antibactérien par le greffage, via un lien triazine, de deux composés d’huiles essentielles, le thymol et le carvacrol, connus pour leurs activités antibactériennes. L’évaluation microbiologique des matériaux élaborés, sur les deux souches bactériennes testées, E.coli et S.aureus, a montré un effet bactériostatique. Ces matériaux bloquent donc la croissance bactérienne empêchant ainsi la formation des biofilms. Une synergie entre le thymol et le carvacrol lorsqu’ils sont greffés sur les fibres de pâte à papier a également été montré. Dans une deuxième partie, notre étude s’est focalisée sur l’élaboration d’un papier antibactérien qui n’acquière son activité qu’après greffage et formation du motif actif « aryl-1,2,3-triazole ». Le greffage est réalisé par une réaction de « Click Chemistry », la cycloaddition de Huisguen catalysée par le cuivre I. Les tests antibactériens révèlent l’importance du substituant de l’aryle, l’influence du temps de contact et la pertinence d’utiliser des mélanges de matériaux. L’activité antibactérienne observée sur les fibres de la pâte thermomécanique est meilleure dans les deux parties. Les différents résultats obtenus sont décrits dans ce manuscrit. / The contamination of surfaces by bacteria and the emergence of antimicrobial resistant strains are very worrying problems in different areas such as hospital and food. This contamination begins with the adhesion of pathogenic bacteria on a surface until the formation of biofilms. These biofilms contribute to the emergence of resistances of certain bacterial strains to conventional treatments. To answer these problems of surface contamination, this thesis work focuses on the development of new antibacterial materials based on pulp fibers. In the first part, we focused on the development of an antibacterial paper by grafting, via triazine link, two essential oil compounds, thymol and carvacrol, known for their antibacterial activities. The microbiological evaluation of the developed materials against the two bacterial strains tested, E. coli and S. aureus, showed a bacteriostatic effect. These materials block the bacterial growth thus preventing the biofilms formation. Synergy between thymol and carvacrol grafted onto paper has also been shown. In a second part, our study focused on the development of an antibacterial paper that acquires its activity only after the grafting and formation of "aryl-1,2,3-triazole", the active motif. The grafting is carried out by a reaction of "Click Chemistry", the copper (I)-catalyzed Azide Alkyne Cycloaddition. The antibacterial tests reveal the importance of the aryl substituent, the influence of the contact time and the relevance of using mixtures of materials. The antibacterial activity observed on the thermomechanical pulp fibers is better in both parts. The different results obtained are described in this manuscript.

Matériaux lignocellulosiques

Click chemistry

Triazole

Triazine

Carvacrol

Thymol

Matériaux antibactériens

Pâte thermomécanique

Pâte kraft

Lignocellulosic materials

Click chemistry

Triazol

Triazine

Carvacrol

Thymol

Antibacterial matérials

Thermomechanical pulp

Kraft pulp

540

Polyoxométallates hybrides : vers des systèmes covalents photoactifs dans le visible

Santoni, Marie-Pierre

04 1900

Notre projet se situe dans le contexte actuel de recherche d’énergies « propres », qui permettraient d’assurer un développement durable. Nous nous sommes intéressés à l’édification de systèmes moléculaires bio-inspirés, capables de : (i) collecter efficacement l’énergie solaire, grâce au design d’assemblages supramoléculaires multi-nucléaires photoactifs ; (ii) transférer efficacement l’énergie accumulée jusqu’au catalyseur, lequel effectue les processus multiélectroniques nécessaires à la génération des combustibles. Notre choix s’est porté sur les systèmes hybrides covalents inorganiques-organiques, à base de polyoxométallates (POMs) photoactivés, dans le visible, par des complexes de métaux de transition. Dans un premier temps, nous avons étudié des chromophores dinucléaires de Ru(II) comprenant le motif électroattracteur 1,3,5-triazine, en raison de leurs capacités de transfert d’énergie et pour la prolongation du temps de vie de l’état excité du chromophore. Dans un deuxième temps, la nécessité d’établir une connexion covalente entre le complexe métallique et le POM nous a amené à faire le design de ligands polydentates ditopiques de type trialkoxo. Cette méthodologie, flexible sur le plan synthétique, nous a donné accès à une famille de POMs présentant des sites de coordination de denticité variable (de monodentate à tridentate), en vue d’accommoder divers cations métalliques. Nous avons ensuite étudié la complexation de divers métaux de transition sur ces nouveaux POMs. Les systèmes visés étaient soit des systèmes à transfert de charges photoinduits (complexation de Ru, de Re), soit des systèmes photocatalytiques (complexation de Re et Co) et/ou électrocatalytiques (complexation de Co). L’auto-assemblage des POMs, guidé par le mode de coordination du métal (tel Pd(II) ou Re(I)) et la géométrie de la brique constituante POM, a été également étudié, car il constitue un outil puissant dans l’assemblage de systèmes supramoléculaires multi-nucléaires photoactifs. Les systèmes visés sont destinés à servir de systèmes modèles dans l’édification de systèmes moléculaires à composants multiples et de matériaux hybrides multi-fonctionnels. / We are interested in the photocatalytic production of clean energy sources, such as H2, in order to ensure global sustainable development. We focused our attention on molecular bio-inspired systems, capable of : (i) efficient light harvesting, based on the careful design of multi-nuclear supramolecular photoactive units; (ii) efficient energy transfer to the catalyst, chosen for its ability to perform multi-electronic processes needed in fuels production. We chose inorganic-organic covalent hybrids, constituted of visible-photoactivated POMs by transition metal complexes. First, we designed and studied Ru(II) dinuclear complexes, based on the electrodeficient motif 1,3,5-triazine, for their energy transfer properties and extended excited-state lifetimes. Then, the covalent connection, to ensure between sub-units, compelled us to design new ditopic polydentate ligands. This flexible synthetic methodology gave access to a family of POMs presenting various types of coordination sites (from monodentate to tridentate), in order to allow complexation of different metals. Complexation studies on the new POMs were conducted and aimed at : (i) photoinduced charge transfer systems (complexation of Ru, and Re) ; (ii) photocatalytic (complexation of Re and Co) and/or electrocatalytic systems (complexation of Co). Metal-directed self-assembling of POMs (guided by Pd(II) or Re(I)) and the coordination geometry of the POMs building-block, has also been studied, as a tool in the building-up of electro- and photoactive supramolecular systems. The model systems studied will be used to design molecular multi-functional hybrid materials. / Réalisé en cotutelle, sous la direction du Pr. Bernold Hasenknopf, à l'Institut Parisien de Chimie Moléculaire, Université Pierre et Marie Curie (Paris VI, France) et dans le cadre de l'Ecole Doctorale "Physique et Chimie des Matériaux" - Spécialité Chimie Inorganique (ED397).

polyoxométallates

hybrides inorganiques-organiques

complexes récolteurs d'énergie

ruthénium

triazine

polypyridines

photocatalyse

auto-assemblage dirigé par le métal

polyoxometalates

inorganic-organic hybrids

light-harvesting devices

ruthenium

triazine

polypyridines

photocatalysis

metal-directed self-assembling

Conception, synthèse et vectorisation d'inhibiteurs potentiels de la protéine bactérienne TonB / Conception, synthesis and vectorization of potential inhibitors of the bacterial protein TonB

Pesset, Bénédicte

27 September 2012

La multiplication des résistances aux antibiothérapies actuelles et l’utilisation potentielle de bactéries pathogènes dans le cadre d’attentats bioterroristes rendent nécessaire la recherche de nouvelles cibles biologiques et la découverte de nouvelles stratégies antibiotiques. Dans ce contexte, les mécanismes d’assimilation du fer chez les bactéries à Gram négatif sont des cibles particulièrement prometteuses. Le fer est en effet un élément essentiel à la vie, mais peu biodisponible. Les bactéries ont donc développé des mécanismes efficaces pour subvenir à leurs besoins en fer. Ces mécanismes de transport nécessitent un apport d’énergie fourni par une machinerie bactérienne complexe, la machinerie TonB. La protéine TonB, qui joue un rôle central dans le fonctionnement de cette machinerie, est la cible de notre approche. Nous souhaitons séquestrer cette protéine dans le périplasme grâce à des composés peptidiques fonctionnalisés par des hétérocycles de type isoindole ou 1,2,4-triazine. La conception et la synthèse de ces molécules sont présentées dans ce manuscrit, ainsi que leurs perspectives de vectorisation en utilisant une stratégie dite du "cheval de Troie". Notre contribution à la mise au point d’un test d’affinité in vitro est également abordée. / The increasing resistances to the current antibiotherapies, and the potential use of pathogenic bacteria as biological weapons led us to the absolute necessity of discovering new biological targets and new antibiotic strategies. In this context, iron uptake pathways of Gram negative bacteria are promising targets. Indeed, iron is an essential nutrient, but it has a low bioavailability. Bacteria have developed efficient iron uptake pathways in order to proliferate. Iron is transported in the bacterial cell by specific outer membrane transporters and thanks to the energy provided by a complex molecular machinery, called TonB. The TonB protein, which is the keystone of this machinery, is a key target for the development of new antibiotics. We would like to sequester this protein in the periplasm thanks to molecules constituted of a peptidic moiety and a heterocyclic moiety such as isoindole or 1,2,4-triazine. The conception and the synthesis of these compounds are presented in this document, as well as their possibilities to be vectorized using a “Trojan Horse” strategy. Our contribution to the development of an in vitro test of affinity is presented as well.

Bioterrorisme

Antibiotique

TonB

Peptides

Isoindole

Triazine

Résonance plasmonique de surface

Pyochéline

Stratégie du Cheval de Troie

Bioterrorism

Antibiotics

TonB

Protein-protein interaction inhibitors

Peptides

Isoindole

Triazine

Surface plasmon resonance

Pyochelin

Trojan horse strategy

572.6

547.7

615.1

Synthesis of small molecules targeting filovirus inhibition / Synthèse de petites molécules ciblant l'inhibition filovirus

Niemiec-Plebanek, Elzbieta

19 December 2014

Les virus sont au centre de problème de santé publique. En raison de l'apparition de nouveaux virus et pour certains de leur résistance aux traitements existants il est toujours d’actualité de développement de nouveaux agents antiviraux. En général, la stratégie de lutte contre les infections virales est basée sur la vaccination ou sur l'activité des petites molécules, interférant avec un ou plusieurs processus biologiques participant au cycle de vie du virus. Dans ce contexte, nous avons conçu et synthétisé des petites bibliothèques de molécules visant des propriétés anti-filovirus. Dans ce projet de recherche, nous avons mis l'accent sur le développement de composés ciblant la protéine Niemann-Pick C1, les protéases cathepsine et le processus de réplication. Lors du développement des inhibiteurs de Neimann-Pick C1 plus de 70 composés ont été synthétisés, portant le squelette pipérazine. Afin d'obtenir des inhibiteurs de cystéine cathepsines pouvant être impliqués dans la réplication du virus Ebola, nous avons synthétisé une petite bibliothèque de composés porteurs de groupement 1,3,5-triazine et possédant des activité de l’ordre du nanomolaire sur les cathepsines B, K, L et S. Enfin, pour inhiber la réplication du virus en ciblant SAH hydrolase, nous avons proposé une série de C-nucléosides carbocyclic ayant motif de 4-aza-7,9-dideazaadenosine. / The viruses cause the problem of public health. Due to the appearance of new viruses and their resistance to existing treatments there is still relevant to develop new antivirals. Generally, the strategy to combat viral infections is based on vaccination or on the activity of small molecules, interfering with one or more biological processes participating in virus life cycle. In this context, we took an effort to design and synthesize the library of small molecules possessing anti-filovirus properties. In this research project, we were focused on the developing of compounds targeting Niemann-Pick C1 protein, cathepsin proteases and replication process. In our effort into the development of the inhibitors of Neimann-Pick C1 we prepared the series of about 70 compounds, having in common the piperazine moiety. Diverse 1,4-N,N - substituents of piperazine, differencing in a size and shape were studied. In order to obtain efficient cysteine cathepsins inhibitors, we synthesized the small library of compounds bearing 1,3,5-triazine moiety. Finally, to inhibit the virus replication by targeting SAH hydrolase, we proposed the series of carbocyclic C-nucleosides having motif of 4-aza-7,9-dideazaadenosine.

Virus Ebola

Filovirus

Antiviraux

Benzimidazole

1,3,5-triazine

Carbocyclic C-nucléosides

Nemann-Pick C1

Cystéine cathepsine

SAH hydrolase

Ebola virus

Filovirus

Antivirals

Benzimidazole

1,3,5-triazine

Carbocyclic C-nucleoside

Nemann-Pick C1

Cysteine cathepsin

SAH hydrolase

547