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Hybrid Arborescent Polypept(o)ides for Biomedical ApplicationsMahi, Basma 11 1900 (has links)
This work reports a novel biocompatible and biodegradable arborescent amphiphilic polypept(o)ides-based polymer poly(γ-benzyl L-glutamate)-co-poly(γ-tert-butyl L-glutamate)-g-polysarcosine (P(BG-co-Glu(OtBu))-g-PSar) as a smart dual-responsive targeting drug vehicle. The synthesis pathway in this work highlighted the grafting reaction improvement of the polypeptides core and using polysarcosine (PSar) corona as a coating agent. The responsiveness of the polymer is caused by the pH sensitivity of the polypeptides and the reducible linker introduced between the core and corona. While adding the tripeptides arginine, glycine, and aspartate (RGD) as a ligand on the unimolecular micelles’ surface increases the targeting ability of the polymer.
During the building of the arborescent, the coupling sites were controlled by using γ-tert-butyl L-glutamate (Glu(OtBu)-NCA) as a second monomer besides γ-benzyl L-glutamate (BG-NCA) since the deprotection conditions are different for Bz and tBu groups. Knowing the coupling sites provides accuracy in calculating the molecular weight (MW) of graft polymers since it facilitates the determination of the grafting yield (Gy).
The arborescent unimolecular micelles were formulated by coating the hydrophobic core with PSar hydrophilic corona. The distribution of the coupling sites on the substrates in the last generation yielded end-grafted and randomly-grafted unimolecular micelles. A comparison between those micelles by DLS, TEM, and AFM revealed that the end-grafted micelles showed more uniformity in terms of morphology and size distribution. Also, the surface modification achieved via RGD addition increased the shape uniformity and contributed to avoiding the particles’ aggregation. The sizes and shapes of end-grafted unimolecular micelles match the drug delivery systems (DDSs) requirements.
Doxorubicin (DOX) was encapsulated physically into the unimolecular micelles to study the drug loading capacity (DLC) and drug loading efficiency (DLE). The maximum DLC and DLE were 14% and 28% w/w, respectively. The drug release profiles were investigated in healthy- and cancer-mimicking media. The results showed that in cancer-mimicking microenvironment (low pH and high glutathione (GSH) content), the drug diffused out the micelles faster. In addition, a slower drug release was noticed for RGD decorated unimolecular micelles.
Finally, the biocompatibility, cytotoxicity, and cellular uptake of the unimolecular micelles were studied. The obtained results were promising as the arborescent unimolecular micelles showed excellent biocompatibility; meanwhile, the DOX-loaded unimolecular micelles have good cytotoxicity compared to free DOX. RGD targeting ligand contributes to increasing the cellular uptake and supports the sustained release.
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Isolation, characterization of Bacillus sp. producing heavy metal absorption γ-PGANguyen, Sy Le Thanh, Kimura, Keitarou, Do, Thi Tuyen, Le, Thi Ngoc Anh 16 January 2019 (has links)
Poly-gamma-glutamic acid (γPGA), which is a biodegradable, non-immunogenic and unusual anionic amino-acid polymer consist of D- and L-glutamic acid units, was exploited for a wide array of useful applications. Bacillus are well known cellular system important for fermentation to synthesize γPGA, which is used as thickener, drugs carrier, cryoprotectant, humectant, biological adhesive, flocculants, or heavy metal absorbent. This study focused on the isolation of Bacillus spp. that is possible to produce γ-PGA from different soil samples from different places in Vietnam. Study the effect of precursors, temperature, carbon sources, times and pH on γ-PGA production. From 31 soil samples and 4 straws samples, strain 20.2 which produced the highest γ-PGA yields (riches 15.2 mg/ml), was identified as Bacillus sp. 20.2 by molecular biology method. The suitable conditions for growing of Bacillus sp. 20.2 strain to produce γ-PGA are at 37°C, pH 7 after 72 hours. Citric acid instead of glucose in a GSP medium is better for producing γ-PGA by strain Bacillus sp. 20.2. / Poly-gamma-glutamic acid (γ-PGA) là một polymer amino-acid gồm D và L-glutamic acid, có khả năng phân hủy sinh học, không gây miễn dịch, đã được ứng dụng rộng rãi trong công nghiệp, y học. Bacillus subtilis được biết đến là hệ thống tế bào ý nghĩa quan trọng trong quá trình lên men để tổng hợp γ-PGA. γ-PGA hòa tan trong nước, phân hủy sinh học và không độc đối với con người
và môi trường. γ-PGA ổn định với nhiều protease vì các protease thường không nhận acid γ- glutamic (Obst et al., 2004). γ-PGA có cấu trúc đồng phân đơn giản, không gây miễn dịch. Do đó, γ-PGA đã được quan tâm ứng dụng trong các lĩnh vực như y học, công nghiệp thực phẩm, mỹ phẩm và đặc biệt là xử lý nước nhiễm kim loại nặng. Trong nghiên cứu này chúng tôi tập trung phân lập, tuyển chọn các chủng Bacillus có khả năng sinh tổng hợp PGA cao. Sau đó định danh
và đánh giá khả năng sinh tổng hợp PGA từ chủng đã phân lập được. Kết quả cho thấy từ 34 mẫu rơm và đất, chúng tôi đã phân lập được chủng với mã số 20.2 có khả năng sinh PGA cao nhất đạt 15.2 mg/ml. Chủng này đã được định danh bằng phân tích trình tự gene 16S rRNA và thuộc loài Bacillus sp. Môi trường thích hợp sinh tổng hợp PGA là GSP ở điều kiện 37oC pH7 sau 72 giờ nuôi cấy.
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Direct writing metal-freebio-organic piezoelectricenergyharvesterZheng, Zhuo January 2023 (has links)
The project is about piezoelectric energy harvesters and piezoelectric bio-organic materials.Nowadays, various kinds of energy harvesters based on micro or nano materials are appliedinmanyelectronic applications, such as wearable devices and electricity generators. Amongthem, thepiezoelectric effect-based energy harvesters are more attractive in research and industryfields. Inrecent years, piezoelectric biomaterials become a popular option because they are availabletocouple electrical and mechanical energy in a biological, ecofriendly systemto generate electricityinreal time. Among them, γ- glycine crystals have been recently synthesized in wafer scale throughasimple polyvinyl alcohol (PVA)-assisted evaporation process exhibiting good piezoelectricperformance. However, so far there are no metal-free energy-harvesting devices basedonPVA-glycine film to enable green manufacturing. In this project, we proposed the direct inkwritingorganic PEDOT:PSS electrodes and PVA-glycine-PVA piezoelectric crystals to fabricate metal-freeenergy harvesters. The output voltage reaches 1.5 V at a load resistance of 500 MΩandunderaforce of 10 N. The performance is comparable to other glycine-based devices in recent literature.Our scalable, sustainable and low-cost printing process is expected to greatly contribute tothefieldof biomaterials-based piezoelectric energy harvesting. / Projektet handlar om piezoelektriska energiskördare och piezoelektriska bioorganiska material. Nuförtiden används olika typer av energiskördare baserade på mikro- eller nanomaterial i mångaelektroniska applikationer, såsom bärbara enheter och elgeneratorer. Bland dem är de piezoelektriskaeffektbaserade energiskördarna mer attraktiva inom forsknings- och industriområden. På senare år harpiezoelektriska biomaterial blivit ett populärt alternativ eftersom de är tillgängliga för att koppla elektrisk och mekanisk energi i ett biologiskt, miljövänligt system för att generera elektricitet i realtid. Bland dem har γ-glycinkristaller nyligen syntetiserats i waferskala genom en enkel polyvinylalkohol (PVA)-assisterad förångningsprocess som uppvisar god piezoelektrisk prestanda. Än så länge finnsdet dock inga metallfria energiskördande enheter baserade på PVA-glycinfilm för att möjliggöra gröntillverkning. I detta projekt föreslog vi direkt bläckskrivande organiska PEDOT:PSS-elektroder ochPVA-glycin-PVA piezoelektriska kristaller för att tillverka metallfria energiskördare. Utspänningennår1,5 V vid en belastningsresistans på 500 MΩ och under en kraft på 10 N. Prestandan är jämförbar medandra glycinbaserade enheter i nyare litteratur. Vår skalbara, hållbara och billiga utskriftsprocess förväntas i hög grad bidra till området för biomaterialbaserad piezoelektrisk energiskörd.
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Application Of A Ring Fragmentation/azomethine Ylide 1,3-Dipolar Cycloaddition Sequence In The Synthesis Of DemissidineZhang, Zhe 01 January 2014 (has links)
Edible potatoes originated in the Andes and were brought to Europe in the 16th century. Their introduction spurred both the European population growth and economic development. Being the world's fourth-largest food crop, potatoes continue to shape the global economy and world history. Glycoalkaloids are natural insect deterrents generated by potatoes, and are known for their toxic effects as well as potential medicinal utilities. Demissidine, the aglycone of the primary glycoalkaloids, represents one major Solanum alkaloid. Its unique indolizidine framework presents a challenging synthetic target in organic chemistry. Our synthesis of demissidine starts from readily available epiandrosterone and takes advantage of a Lewis acid-mediated fragmentation of a γ-silyloxy-β-hydroxy-α-diazoester; the D-ring of a diazo ester derivative of epiandrosterone was efficiently ruptured to provide an aldehyde tethered ynoate product. In combination with a subsequent azomethine ylide 1,3-dipolar cycloaddition and a transition metal catalyzed oxidation/reduction, the core indolizidine framework of demissidine was successfully prepared in a stereoselective manner. In addition, the syntheses of two amino acids, 5-methylenepipecolic acid and (5S)-5-methylpipecolic acid were explored; they are used for the installation of the α-oriented C25 methyl group on demissidine. The successful preparation of demissidine was supported by NMR analysis of the synthetic compound in comparison with a natural sample. As an efficient and stereoselective synthesis, our efforts toward demissidine illuminate a strategy to indolizidine frameworks that could be applied in the preparation of other polycyclic amine natural products.
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Le polymorphisme du promoteur de l'interleukine-10 et son rôle éventuel dans la maladie d'Alzheimer / Interleukin-10 promoter polymorphism and its possible role in alzheimer's diseaseAsselineau, Delphine 20 June 2014 (has links)
La maladie d'Alzheimer (MA) est une maladie neurodégénérative irréversible et progressive entraînant des troubles cognitifs et comportementaux. L'inflammation est caractéristique de la MA. L'interleukine-10 (IL-10), une cytokine anti-inflammatoire a été associée à un risque plus faible de développer la MA. Cependant le lien entre l'IL-10 et la progression de la MA n'a jamais été étudié. Le but de cette thèse a été d'étudier le rôle de l'IL-10 dans le développement ainsi que dans la progression de la MA. Pour mener à bien cette étude, 31 sujets atteints par la MA et 20 sujets contrôles cognitivement intacts ont été recrutés. En fonction de la vitesse de diminution du test de Mini-Mental State Examination et de l’évolution des troubles cognitifs sur deux ans, les patients souffrant de la MA ont été divisés en deux sous-groupes: les patients avec une progression lente (MA lent) et ceux avec une progression rapide (MA rapide). Les analyses se sont portées sur la concentration d’IL-10 en périphérie (plasma, production par les cellules mononuclées du sang périphérique (PBMCs) après stimulation par les peptides Aβ) ainsi que le polymorphisme de son promoteur en position -592, -819 et -1082. En complément, d’autres cytokines impliquées dans l’inflammation ont été étudiées : l’IL-6 (sa concentration plasmatique, sa production par les PBMCs à la suite d’une stimulation par les peptides Aβ et son polymorphisme en position -174) et les polymorphismes du TGF-β1 (-10 et - 25), de l’IFN-γ (-874) et du TNF-α (-308) ainsi que le gène de l'apolipoprotéine E (ApoE). Une étude de la longueur des télomères, liée à l’inflammation, a été aussi réalisée. Les résultats ont montré une association entre le génotype AA et l’allèle A du polymorphisme de l’IFN-γ en position -874 avec la progression rapide de la MA. Une augmentation statistiquement significative de la production d'IL-10 après stimulation par les peptides Aβ a été montrée chez les patients atteints avec une progression lente (MA lent). Une longueur significativement plus courte des télomères a été aussi associée aux patients MA lent. L’ensemble de ces travaux suggère qu’un profil de forte production de l’IL-10 ainsi qu’un profil génétique d’IFN-γ (TT -874) pourrait ralentir la progression de la MA. Il est aussi apparu que la longueur des télomères pourrait être un marqueur du déficit cognitif. Il est clair que ces résultats préliminaires ont besoin d’être confirmés par une étude de plus grande envergure, avec un nombre de patients plus élevé. / Alzheimer’s disease (AD) is an irreversible and progressive neurodegenerative disorder leading to cognitive and behavioral impairment. Inflammation is hallmark of AD although the exact mechanisms involved and the roles of the different inflammatory components are far less clear. Interleukin-10 (IL-10) is a key anti-inflammatory cytokine and IL-10 -1082 A > G polymorphism has been associated with a lower risk of developing AD although the link between IL-10 and the AD progression have never been studied. The aim of this study is to study the role of IL-10 in the risk of developing AD and its role in AD progression. In order to complete successfully this study, 31 AD patients and 20 cognitively intact controls were recruited. Depending of the rate of decrease of mini-mental state test examination (MMSE) and evolution of cognitive disorders, AD patients were divided in two subgroups: patients with slow progression (AD slow) and those with fast progression (AD fast). Analysis were focused on periphery concentration of IL-10 (plasma and and its production by peripheral blood mononuclear cells (PBMCs) after Aβ peptides stimulation) as well as its promoter polymorphism in position -592, -819 and -1082. In addition, other cytokines involved in inflammation were studied: IL-6 (its plasma concentration, its production by PBMCs following stimulation with Aβ peptides and its polymorphism at position -174) and polymorphisms of TGF-β1 (-10 to - 25), IFN-γ (-874) and TNF-α (-308) as well as the gene polymorphisms of Apolipoprotein E (ApoE). A study of telomere length, link to inflammation, was also performed. Results showed IFNγ -874AA genotype and -874A allele was associated with AD fast progression. A statistically significant increase of IL-10 production by PBMCs stimulated with Aβ peptides was shown in AD slow patients. A significantly shorter telomere length was also associated with AD slow patients. All of this work suggests that a profile with high IL-10 production and high IFN-γ (-874 TT) genotype could confer a slower AD progression. It was also found that telomere length may be a marker of cognitive impairment. It is clear that these preliminary results need to be confirmed in a larger study with a larger number of patients.
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Studies in Rhodium Catalyzed Intramolecular C-H Insertion of Amino Acid Derived α-Diazo-α-(substituted)acetamides and its Application to the Total Synthesis of <em>clasto</em>-Lactacystin β-LactoneFlanigan, David L, Jr. 24 May 2004 (has links)
Lactacystin is a microbial metabolite isolated by Omura that exhibits neurotrophic activity in neuroblastoma cell lines. Lactacystin and especially its β-lactone analog are the first examples of non-polypeptide small molecules capable of specifically inhibiting the 20S proteasome. Various asymmetric total syntheses of lactacystin and its analogs have been reported. The total synthesis of clasto -lactacystin β-lactone is achieved using L-serine methyl ester as the starting material and the sole source of stereochemical induction. The success of this synthesis hinges on two featured transformations. The first key step involves formation of the γ -lactam core via rhodium (II) catalyzed intramolecular C-H insertion of the α-diazo-α-(phenylsulfonyl)acetamide intermediate. The methodology for this transformation has been developed and applied to the synthesis of highly functionalized stereogenic γ-lactams from natural α-amino acids. Three control elements that govern γ-lactam formation are described. This step is highlighted by the xvi simultaneous creation of two stereogenic centers of the γ-lactam core. The second key step involves the late stage aldol coupling for quaternary carbon formation and installation of the hydroxyisobutyl group. In all previously reported syntheses, this is the very first aspect which is addressed. The stereochemical outcome of this step is directed by the chiral environment of the enolate itself. Various attempts to achieve selectivity are explored and reported. Completion of the synthesis of clasto-lactacystin β-lactone requires 17 steps with an overall yield of 10%. Some general attempts for optimizing the synthetic scheme are discussed as well as the future direction of this research.
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Interrogation of Protein Function with PeptidomimeticsBolarinwa, Olapeju 03 July 2018 (has links)
Proteins can be described as the “machineries” responsible for almost all tasks in the levels of organizational complexity in multi-cellular organisms namely: the cells, tissues, organs and systems. Any disorder in the function of a protein at any of these levels could result in disease, and a study of protein function is critical to understanding the pathological features of the disease at the molecular level. A quick glance at these abundantly present proteins reveals two striking features: large diversity of biological function, and the variations in structural complexity, which varies from simple random coils, to turns and helices, and on to structured assemblies of turns, helices and sheets.
Over the past few years, more research efforts have been channeled to the application of synthetic research to protein dynamics, most especially in disease conditions. This provides insight into the design and development of chemical tools capable of modulating protein functions .Some of such tools include small molecules, peptides and peptidomimetics.
In this work, we have described the application of these tools to three (3) different disease systems topping the list of incurable diseases: HIV, Diabetes, and Cancer. We have designed and developed chemical probes to facilitate a better understanding of major “culprit” proteins underlying the pathological conditions associated with these diseases. Our designed chemical probes were capable of modulating protein functions by producing the desired effects: inhibition of protein-protein interactions.
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Development of Bioactive PeptidomimeticsShe, Fengyu 01 October 2018 (has links)
Peptidomimetics are synthetic foldamers that expected more resistant to proteolytic degradation and enormous chemodiversity when compared with peptides. To date, the functional peptidomimetics such as β-peptides, peptoids, oligoureas, etc have been developed in many science fields. In order to explore the unnatural foldameric architectures, it’s necessary to discover the novel frameworks and molecular scaffolds. γ-AApeptides were reported to be a new class of peptidomimetics that showed its potential applications in drug discovery and chemical biology. However, a wide function and property of γ-AApeptides need to be further explored. To expand the potential application of γ-AApeptides in biochemistry, I have been focusing on the development of bioactive peptidomimetics, such as exploring the antibacterial activity of helical 1:1 α-sulfono-γ-AA heterogeneous peptides, developing the helical peptidomimetic as the inhibitor of the protein Ras_Raf interaction, identifying the protein/peptide ligands by the novel one-bead-two compound macrocyclic γ-AApeptide screening library, and elucidating the de novo dragon-boat-shaped synthetic foldamers.
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CONCEPTION, SYNTHESE ET EVALUATION PHARMACOLOGIQUE <br />DE γ-CARBOLINES, <br />INHIBITEURS POTENTIELS DE 5-LIPOXYGENASE ET DE CYCLOOXYGENASES.Bridoux, Alexandre 04 November 2005 (has links) (PDF)
Deux systèmes enzymatiques clés dans l'inflammation se sont révélés être impliqués dans de nombreux cancers (côlon, pancréas, sein, poumon) et notamment dans le cancer <br />de la prostate (CaP). La 5-lipoxygénase (5-LO) contrôle la formation des leucotriènes, médiateurs de l'inflammation de l'allergie. La cyclooxygénase existe sous deux isoformes : COX1 et COX2. COX1 est exprimée de manière constitutive et COX2 est exprimée de manière inductible. <br />La voie des cyclooxygénases contrôle la formation des prostaglandines, médiateurs de la réponse inflammatoire. En regard des similitudes de leurs surexpressions dans le cancer humain, <br />il est possible d'envisager un nouveau traitement du cancer ciblé sur la dérégulation <br />du métabolisme de l'acide arachidonique. L'objet de cette étude est de participer à la recherche sur le cancer de la prostate par la conception puis la synthèse en parallèle de <br />N-benzoyltétrahydro-γ-carbolines, inhibiteurs potentiels mixtes 5-LO / COXs. Dans ce but, <br />une stratégie de synthèse de type convergente fut développée à partir de chlorhydrates <br />de phénylhydrazine substitués en position para et de dérivés de pipéridin-4-one qui se cyclisent <br />en tétrahydro-γ-carbolines par catalyse acide (méthode de Fischer). Parallèlement à cette voie de synthèse, un composé inhibiteur de la 5-LO, le méthoxytétrahydropyranne (MTHP) du ZD-2138, est alkylé par une chaîne polyméthylénique à trois carbones. La condensation de la tétrahydro-γ-carboline et du MTHP alkylé en milieu basique fournit un composé dont l'azote indolique libre est ensuite benzoylé ou benzylé. Les activités 5-LO et COX1/COX2 ont été obtenues ex vivo <br />sur sang total humain. Les tests concernant l'inhibition de la prolifération cellulaire sont effectués sur différentes lignées cellulaires (de type L-1210, MCF7 et PC-3) afin de mettre en évidence <br />le pouvoir cytotoxique des composés.
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Etude d'une nouvelle génération de dosimètre basée sur les détecteurs photostimulables type BaFBr(Eu): caractérisation et application à la dosimétrie environnementale et personnelleMouhssine, D. 16 December 2004 (has links) (PDF)
Ce sujet de thèse concerne le développement et la mise au point d'un système de dosimétrie passive à base des détecteurs BaFBr:Eu2+ répondant aux nouvelles recommandations de la CIPR. Lorsqu'un film photostimulable est exposé aux rayonnements ionisants, il convertit l'énergie absorbée en une image latente. Cette énergie, emmagasinée par des électrons piégés, peut être ensuite libérée en différé sous l'effet d'une stimulation LASER sélective. Cette dernière provoque une luminescence proportionnelle à la dose reçue. Des mesures expérimentales de la fonction de réponse, en dose et en énergie, des neutrons et des rayonnements Γ ont été réalisées et complétées par des calculs de modélisation Monte-Carlo. Il ressort de cette étude que ce système peut être adapté à la dosimétrie passive des faibles et des fortes doses. Les résultats montrent un seuil de détection en équivalent de dose de 23 µSv pour les neutrons rapides et de 1,5 µGy pour les rayonnements Γ d'énergie 1,2 MeV. Destinés à la dosimétrie passive personnelle, les dosimètres mis au point ont été irradiés en conditions réelles d'utilisation, sous faisceaux de neutrons rapides et thermiques, à différents angles sur un fantôme selon les normes ISO. Ces études ont également montré la possibilité d'utiliser pour la première fois ces films pour d'autres applications en dosimétrie, notamment pour la détection du signal radon dans l'environnement. Malgré leurs avantages (facilité d'utilisation, rapidité de lecture, numérisation de l'image, remise à zéro, absence de traitement chimique) par rapport aux d'autres détecteurs passifs tels que les solides de traces nucléaires ou les thermoluminescents, les photostimulables présentent un inconvénient lié au fading. Nous présentons deux procédures pour la correction de ce fading pendant et après irradiation.
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