The Preparation of theragnostic immunoliposomes/immunoniosomes and therapy of Parkinson's disease / La préparation de théragnostic immunoliposomes/immunoniosomes pour le diagnostic et thérapie de la maladie de Parkinson

Silindir Gunay, Mine

08 September 2016

La maladie de Parkinson (MP) provient de la dégénérescence des cellules du locus nigerproduisant de la dopamine. La barrière hémato-encéphalique (BHE) est un véritable obstacle pour le traitement de la MP car elle empêche ou réduit le passage d’un grand nombre de substances pharmacologiques vers le cerveau. L’encapsulation de ces substances dans des liposomes ou des niosomes avant leur libération intra-cérébrale représente une alternative de choix en raison de la biocompatibilité, la biofragmentation, la non-toxicité et les capacités de ciblage de ces systèmes. A l’heure actuelle le traitement de la MP reste un défi, malgré l’existence de nombreux projets de recherche dans ce domaine. Notre hypothèse est que l’administration de pramipexoleencapsulé dans des liposomes et/ou des niosomes pourrait représenter une approche thérapeutique pertinente. Dans le cadre de la thèse, la caractérisation et la cinétique de diffusion des liposomes et niosomescontenant du pramipexole ont été réalisées. La validation de différentes formulations a été réalisée sur un modèle de BHE constitué de co-cultures cellulaires. Les effets du pramipexoleencapsulé dans des liposomes ou desniosomesont ensuite été étudiés dans un modèle de MP chez le rat obtenu par lésion de la voie dopaminergique nigro-striée à l’aide de 6-hydroxydopamine (6-OHDA). Pour cela, nous avons évalué le comportement rotatoire induit par l’amphétamine et l’expression du transporteur de la dopamine (DAT) par autoradiographie quantitative chez des animaux lésés traités ou non par les nanocapsules. Toutes les formulations que nous avons réalisées ont montré une capacité d’encapsulation d’environ 10% pour une taille de 100 nm, avec une cinétique de dispersion compatible avec une utilisation in vivo. Dans notre modèle de co-culture cellulaire, nous avons déterminé que nos formulations permettent le franchissement de la BHE. Chez les animaux lésés à la 6-OHDA, la quantification du DAT indique que l’administration de pramipexole réduit l’intensité de la lésion, que la substance soit administrée seule ou encapsulée dans des niosomes. Ces travaux montrent l’intérêt potentiel de l’administration de principe actif encapsulé pour le traitement de la MP, et devront être poursuivis afin d’optimiser cette approche thérapeutique, notamment au niveau des doses. / Parkinson’s Disease (PD) is degeneration of dopamine producing cells in substantia nigra. Blood-brain barrier (BBB) is a strong obstacle in PD therapy. More penetration and accumulation in the target tissue can be obtained by preventing RES uptake via “stealth effect”. Liposomes and niosomes are the promising systems for being biodegredable, bioavailable, non-toxic and targetable. Although CNS disorders are the first to endorse at their research in the diagnosis and therapy with several framework projects in Europe and over the world, there is still a huge gap in CNS drug delivery and the success of PD therapy. Although different studies have performed with pramipexole, evaluation of penetration and antiparkinsonian effect of pramipexole encapsulated liposomes and niosomes has never been studied before. Among this thesis, nanosized, polyethylene glycol (PEG) coated, neutral and positively charged, pramipexole encapsulated liposomes and noisomes were formulated, characterized and release kinetics of the systems were evaluated. In vitro penetration of all formulations was evaluated in BBB cell co-culture model. Therapeutic efficacy of neutral, pramipexole encapsulated liposomes and niosomes were evaluated in 6-hydroxydopamine (6-OHDA) lesioned rats by rotometer test and autoradiography. All formulations have approximately 10% encapsulation efficiency, around 100 nm particle sizes and fitted to first-order release kinetics. All formulations were found BBB permeable at in vitro cell culture studies. Nanosized, neutral niosomes designated similar but slightly better effect than pramipexole solution in autoradiograhy studies in 6-OHDA lesioned rats. This pramipexole dose is approximately 9 times lesser doses applied with conventional pramipexole tablets for humans in Neurology clinics. Nanosized, pramipexole encapsulated, neutral niosomes showed potential PD therapeutic effect in PD animal model depending on non-ionic surfactant properties of niosomes. / Uzm. Ecz. Mine Silindir Gunay, Parkinson Hastalığı’nın Teşhis ve Tedavisi İçin Kullanılacak Nanoboyutlu Teragnostik İmmünolipozom/İmmunoniozomlar Üzerine İn Vitro İn Vivo Çalışmalar, Hacettepe Üniversitesi – François Rabelais de Tours University, Sağlık Bilimleri Enstitüsü, Radyofarmasi Programı, UMR Inserm U 930, Ekip 3, Moleküler Görüntüleme ve Beyin Programı, Doktora Tezi, Ankara-Tours, 2016. Parkinson Hastalığı (PH) substantia nigra’daki dopamin üreten hücrelerin dejenerasyonundan kaynaklanmaktadır. Kan-beyin bariyeri (KBB) PH’nın tedavisinin önünde kuvvetli bir engeldir. Hedef dokudaki yüksek penetrasyon ve tutulum “stealth etki” ile RES tutulumunun engellenmesi ile sağlanabilir. Lipozom ve niozomlar biyoparçalanırlıkları, biyouyumlulukları, non-toksik ve hedeflendirilebilir olmaları nedeniyle en çok tercih edilen sistemlerdendir. Santral sinir sistemi hastalıklarının araştırılması Avrupa ve tüm dünyada yapılan pekçok çerçeve projelerinde ilk sırada olmasına rağmen, halen beyne ilaç taşınması ve PH’nin tedavi başarısı konusunda büyük boşluklar bulunmaktadır. Pramipeksol ile pek çok çalışma yapılmasına karşılık, bizim çalışmamız pramipeksol enkapsüle edilmiş lipozom ve niozomların beyin penetrasyonunun ve antiparkinson etkisinin değerlendirilmesi konusunda yenidir. Tez kapsamında, nanoboyutlu, PEG kaplı, nötral ve pozitif yüklü lipozom ve niozomların formüle edilmiş, karakterizasyon ve salım kinetikleri değerlendirilmiştir. Tüm formülasyonların KBB geçirgenliği, hücre KBB ko-kültürü çalışmalarında incelenmiştir. Nötral, pramipeksol enkapsüle edilen lipozom ve niozomların tedavi etkinliği in vivo olarak 6-hidroksidopamin (6-OHDA) ile lezyon yapılarak PH modeli oluşturulan sıçanlarda rotametre ve otoradyografi çalışmaları ile incelenmiştir. Tüm formülasyonlar yaklaşık %10 enkapsülasyon etkinliği ve 100 nm civarında partikül boyutu dağılımı ve birinci derece salım kinetiği göstermiştir. Hücre kültürü çalışmalarında, tüm formülasyonların KBB’nden penetre olabildiği saptamıştır. 6-OHDA lezyonlu sıçanlarda Parkinson hastalığının tedavisinde nanoboyutlu, nötral, pramipeksol enkapsüle edilen niozomlar, aynı dozdaki pramipeksol çözeltisi ile benzer hatta biraz daha iyi sonuçlar göstermiştir. Bu doz Nöroloji kliniklerinde Parkinson tedavisinde rutin olarak kullanılan konvansiyonel pramipeksol tabletlerindeki dozun yaklaşık olarak 9 kat düşük dozlarıdır. Nanoboyutlu, pramipeksol enkapsüle edilen, nötral niozomlar, niozomların non-iyonik sürfaktan özellikleri nedeniyle PH modeli sıçanlarda potansiyel bir antiparkinson terapötik etki göstermiştir.

Autoradiographie

BHE

Liposomes

Maladie de Parkinson

Niosomes

Pramipexole

Transporteur de la dopamine

Pramipexole liposomes

Pramipexole niosomes

Brain targeting

Parkinson’s disease therapy

Dopamine transporter autoradiography

Pramipeksol hapsedilmiş lipozomlar

Pramipeksol hapsedilmiş niozomlar

Beyne hedeflendirme

Parkinson hastalığı’nın tedavisi

Dopamin transporter otoradyografi

Nanovecteurs pour cibler pseudomonas aeruginosa dans la fibrose kystique

Campos Del' Orto, Juliana

06 1900

No description available.

Antibiotique

nanoparticules polymèriques

PEG-g-PLA

liposomes

Pseudomonas aeruginosa

biofilm

fibrose kystique

Antibiotics

polymeric nanoparticles

PEG-g-PLA

liposomes

Pseudomonas aeruginosa

biofilm

cystic fibrosis

Interactions protéines-membranes : conséquences sur l'état physique et l'organisation des lipides / Proteine-membrane interaction : consequences on physical state and organisation of lipids

François-Moutal, Liberty

18 April 2013

Les isoenzymes de nucléoside diphosphate kinase (NDPK) sont connues depuis maintenant presque 60 ans et n'ont été considérées que pour leur activité catalytique de transfert de groupement phosphoryle. La découverte du gène nme, un gène antimétastatique codant une NDPK, a renouvelé l'intérêt scientifique pour cette famille d'enzymes. Il est désormais connu que la multiplication des gènes durant l'évolution a été accompagnée de diversifications structurales et fonctionnelles. J'ai étudié la fixation des NDPK-A, -B et –D (retrouvées associées aux membranes biologiques, bien que le rôle de cette association soit encore méconnu) à des membranes modèles, et j'ai trouvé des différences dans les mécanismes de fixation. J'ai montré la capacité de la NDPK-D, isoforme mitochondriale, à interagir avec des membranes anioniques ou zwitterioniques, à augmenter leur fluidité et à former des domaines protéolipidiques en présence de CL, lipide anionique spécifique de la membrane mitochondriale interne. J'ai observé cette capacité à former des domaines protéolipidiques avec d'autres protéines interagissant avec la CL, comme la créatine kinase mais pas le cytochrome C. La NDPK-A ne se fixe pas aux phospholipides du feuillet interne de la membrane plastique, ce qui suggère un autre partenaire in vivo. La NDPK-B n'interagit qu'avec des membranes anioniques via un processus en deux étapes, provoque une diminution de fluidité et est capable de former des domaines protéolipidiques. La ségrégation des lipides anioniques induite par la fixation de protéines pourrait contribuer à la formation de plateformes au sein de la membrane susceptibles de servir de point d'ancrage à de nombreuses molécules, modulant ainsi les fonctions cellulaires / Nucleoside diphosphate kinase isoenzymes (NDPK) have been known for nearly 60 years and, until recently, have been considered as housekeeping enzymes. The discovery of a nme gene, an antimetastatic gene that codes for a NDPK, revived the interest for this family. It is now known that the multiplication of nme genes throughout evolution has been accompanied with structural and functional diversification. I studied the binding of NDPK-A, -B and –D (which ae retrieved associated to cellular membranes where they are thought to play several roles) to model membranes and found differences in their behavior towards different compositions of phospholipids. I showed the ability of the NDPKD mitochondrial isoform to interact with both anionic and zwitterionic membranes, to modify their fluidity and to form proteolipidic domains in presence of CL, a mitochondrial inner membrane specific anionic lipid. I observed this ability to form proteo-cardiolipin domains with other CL interacting protein like creatine kinase but not with cytochrome c. NDPK-A was not able to bind to inner leaflet plasma membrane mimicking systems suggesting another partner in vivo. Concerning NDPK-B, it interacted only with anionic membranes via a two step-process, induced a decrease of the membrane fluidity and was able to form proteolipidic domains. Such anionic lipid segregation triggered by protein binding may contribute to platforms formation within membranes. Those platforms are then susceptible to provide a functional docking platform for numerous molecules and thus to modulate cellular functions

Interactions protéines lipides

Créatine kinase mitochondriale

Cytochrome C

Cardiolipine

Liposomes

Monocouches

Spectroscopie de fluorescence

Proteins lipids interactions

Nucleoside diphosphate kinase isoenzymes

Mitochondrial creatine kinase

Cytochrome C

Cardiolipin

Liposomes

Monolayers

Fluorescence spectroscopy

572

Drug delivery in photodynamic therapy: From pharmaceutics to animal testing

García Díaz, María

15 June 2012

S'ha estudiat el desenvolupament de fotosensibilitzadors i la seva formulació en teràpia fotodinàmica. S'han caracteritzat les propietats fotofísiques dels fotosensibilitzadors porficènics. S'han proposat diferents estratègies tals com la introducció de grups carboxilat en la perifèria o ions de metalls pesants en el nucli, per millorar el disseny de nous fotosensibilitzadors basats en el macrocicle porficènic. Entre ells, el temocè (m-THPPo), el porficè anàleg a la temoporfina, mostra excel•lents propietats fotofísiques, fotoestabilitat i alta eficàcia fotodinàmica. A causa de la seva alta hidrofobicitat, s'ha desenvolupat una formulació liposomal per a l'administració in vitro i in vivo del temocè. m-THPPo/DPPC/DMPG (1:67.5:7.5 relació molar) té alta eficiència d'encapsulació mantenint les seves propietats tant fotofísiques com a biològiques. El temocè liposomal va exhibir l'eficàcia fotodinàmica in vitro més alta per molècula internalitzada, sent un sistema d'administració de fàrmacs eficaç per a una estratègia in vivo dirigida a les cèl•lules tumorals. El temocè encapsulat en micel•les de Cremophor EL va mostrar una mínima internalització cel•lular. Consistentment, la formulació micel•lar va mostrar millor la resposta in vivo quan s'utilitza en un règim vascular. Amb la finalitat de minimitzar la internalització del fotosensibilitzador en les cèl•lules normals, es van proposar liposomes decorats amb lligands folat. Aquesta estratègia resulta en una internalització dues vegades major dels liposomes dirigits al receptor folat respecte a la corresponent formulació no específica. Finalment, han estat explorats nous models cel•lulars in vitro per a l'optimització dels processos amb oxigen singlet. Els cultius cel•lulars en 3D reprodueixen l'heterogeneïtat d'oxigen i fotosensibilitzador que està present en els teixits reals, proporcionant informació molt útil per interpretar i predir el resultat de la teràpia fotodinàmica. També s'ha demostrat la capacitat de desactivació de l'oxigen singlet d'antioxidants en un model ex vivo de pell porcina. / Se ha estudiado el desarrollo de fotosensibilizadores y su formulación en terapia fotodinámica. Se han caracterizado las propiedades fotofísicas de los fotosensibilizadores porficénicos. Se han propuesto diferentes estrategias tales como la introducción de grupos carboxilato en la periferia o iones de metales pesados en el núcleo, para mejorar el diseño de nuevos fotosensibilizadores basados en el macrociclo porficénico. Entre ellos, el temoceno (m-THPPo), el porficeno análogo a la temoporfina, muestra excelentes propiedades fotofísicas, fotoestabilidad y alta eficacia fotodinámica. Debido a su alta hidrofobicidad, se ha desarrollado una formulación liposomal para la administración in vitro e in vivo del temoceno. m-THPPo/DPPC/DMPG (1:67.5:7.5 relación molar) tiene alta eficiencia de encapsulación manteniendo sus propiedades tanto fotofísicas como biológicas. El temoceno liposomal exhibió la eficacia fotodinámica in vitro más alta por molécula internalizada, siendo un sistema de administración de fármacos eficaz para una estrategia in vivo dirigida a las células tumorales. El temoceno encapsulado en micelas de Cremophor EL mostró una mínima internalización celular. Consistentemente, la formulación micelar mostró mejor la respuesta in vivo cuando se utiliza en un régimen vascular. Con el fin de minimizar la internalización del fotosensibilizador en las células normales, se propusieron liposomas decorados con ligandos folato. Esta estrategia resulta en una internalización dos veces mayor de los liposomas dirigidos al receptor folato respecto a la correspondiente formulación no específica. Por último, han sido explorados nuevos modelos celulares in vitro para la optimización de los procesos con oxígeno singlete. Los cultivos celulares en 3D reproducen la heterogeneidad de oxígeno y fotosensibilizador que está presente en los tejidos reales, proporcionando información muy útil para interpretar y predecir el resultado de la terapia fotodinámica. También se ha demostrado la capacidad de desactivación del oxígeno singlete de antioxidantes en un modelo ex vivo de piel porcina. / The photosensitizer and formulation development in photodynamic therapy have been studied. They have been characterized the photophysical properties of new porphycene-based photosensitizers. Different strategies such as the introduction of carboxylate groups in the periphery or heavy metal ions in the core have been proposed for improving the design of novel photosensitizers based on the porphycene macrocycle. Among them, temocene (m-THPPo), the porphycene analogue to temoporfin, shows excellent photophysical properties, superior photostability and high photodynamic efficiency. Owing to its high hydrophobicity, a liposomal formulation has been developed for in vitro and in vivo administration of temocene. m-THPPo/DPPC/DMPG (1:67.5:7.5 molar ratio) yielded high encapsulation efficiency maintaining its photophysical and biological properties. Liposomal temocene exhibited the highest in vitro killing efficacy per uptaken molecule and they were an efficient drug delivery system for in vivo tumor cell targeting strategy. Temocene encapsulated in Cremophor EL micelles showed minimal cell internalization. Consistently, micellar formulation showed the best in vivo response when used in a vascular regime. In order to minimize the internalization of the photosensitizer in normal cells, liposomes decorated with folic acid ligands were proposed. This strategy leads to a 2-fold higher uptake of folate-targeted liposomes than the corresponding non-targeted formulation. Finally, new in vitro cellular models for a better optimization of singlet oxygen-involved processes were explored. 3D cellular cultures reproduced the oxygen and photosensitizer heterogeneity found in real tissues, providing useful information to interpret and predict the photodynamic therapy outcome. The singlet oxygen quenching ability of antioxidants in ex vivo porcine skin model has also been demonstrated.

Teràpia fotodinàmica

fotosensibilitzadors

porficens

liposomes

càncer

orxigen singlet

terapia fotodinámica

fotosensibilizadores

porficenos

liposomas

cáncer

oxígeno singlete

photodynamic therapy

photosensitisers

porphycenes

liposomes

cancer

singlet oxygen

Química i Enginyeria Química

544

615

Développement d’un microréacteur biomimétique pour l'analyse in situ d'activités enzymatiques par couplage de l’électrochimie et de la microscopie de fluorescence / Development of a single biomimetic microreactor for enzymatic activities in situ analyzes by coupling electrochemistry and fluorescence microscopy

Lefrançois, Pauline

30 November 2017

De nombreuses réactions enzymatiques sont à l’origine de processus physiologiques au sein des organismes vivants. Ces réactions sont basées sur des transferts de protons et d’électrons et con-duisent souvent à la production d’espèces secondaires. Parmi elles, les espèces réactives de l’oxygène et de l’azote (ROS, RNS) présentent un intérêt particulier puisqu’elles jouent un double rôle : d’une part en permettant à l’organisme de réagir à un stress par l’activation de voie de signalisation redox, et d’autre part ces ROS et RNS peuvent causer des dommages tissulaires et être à l’origine de dys-fonctionnement (stress oxydant) au sein de l’organisme. La haute réactivité de ces espèces induit leurs faibles durées de vie (ns-min) et rend l’étude de certaines réactions enzymatiques difficiles en solu-tion. Ce projet de thèse a pour objectif de développer un microréacteur biomimétique pour l’étude d’activités enzymatiques produisant des ROS/RNS. En effet, en confinant une réaction au sein d’un compartiment de taille équivalente à celle d’une cellule (20-100 μm de diamètre), les espèces générées (H2O2, NO•, NO2-) doivent pouvoir être sondées in situ avec une résolution cinétique et quantitative. Des vésicules unilamellaires géantes sont formées en conditions physiologiques et servent de micro-réacteurs pour l’analyse des activités enzymatiques de la glucose oxydase et des NO-synthases. La microscopie de fluorescence permet l’observation des vésicules et le suivi du déclenchement de la réaction assuré par microinjection. Les espèces produites sont ensuite détectées en temps réel par électrochimie afin de déchiffrer à terme les différentes voies enzymatiques des NO-Synthases. / Enzymatic reactions are involved in many physiological phenomena in living organisms. These reactions are based on protons and electrons transfers and can lead to the production of by-products. Among them, reactive oxygen and nitrogen species (ROS and RNS) are of great interest as they play a double role: on the one hand by allowing the organism to react to a stress by the activation of signaling redox pathways, and on the other hand, ROS and RNS can cause oxidative damages to tissues ensuing dysfunctions in the organism. The high reactivity of such species induce their short lifetimes (ns-min) and leads to uncertainties when it comes to the study of some enzymatic reactions in bulk. This PhD project aims to develop a biomimetic microreactor for the study of enzymatic ac-tivities producing ROS/RNS. Indeed, by confining a reaction within a cell-sized compartment (20-100 μm diameter), the generated species (H2O2, NO•, NO2-) could be analyzed in situ with a quantita-tive and kinetic resolution. Giant unilamellar vesicles are formed in physiological conditions and are used as microreactors for the monitoring of enzymatic activities of glucose oxidase and NO-synthases. Fluorescence microscopy allows individual vesicle observation and the monitoring of reactions trig-gered by microinjection. Then, released species are detected in real-time by electrochemistry in order to decipher the diverse enzymatic pathways of NO-Synthases.

Liposomes

Biomimétisme

Enzymes

Glucose oxydase

NO-Synthase

Peroxyde d’hydrogène

Monoxyde d’azote

Liposomes

Biomimicry

Enzymes

Glucose oxidase

NO-Synthase

Reactive Ox-ygen and Nitrogen Species

Hydrogen peroxide

Nitric oxide

Développement d’une méthode de production de vésicules membranaires permettant l’étude du mode d’action des toxines insecticides de Bacillus thuringiensis

Schmidt, Maxime

12 1900

La plupart des toxines de Bacillus thuringiensis perméabilisent la membrane intestinale des insectes sensibles en formant des pores qui abolissent le potentiel électrique et les gradients ioniques. Plusieurs toxines ont été étudiées avec des vésicules purifiées de la bordure en brosse intestinale des insectes. Malheureusement, la membrane intestinale de beaucoup d’insectes ne forme pas des vésicules suffisamment étanches pour les expériences de perméabilisation. Une nouvelle technique utilisant des liposomes géants et une sonde de perméabilité membranaire a été développée pour caractériser deux nouvelles toxines particulièrement prometteuses pour le biocontrôle d’un des principaux ravageurs du maïs, la chrysomèle des racines du maïs (Diabrotica virgifera virgifera LeConte), Cry6Aa1 et la toxine binaire DS10/DS11. Les deux toxines perméabilisent efficacement les liposomes. La toxine binaire forme des pores qui sont légèrement sélectifs pour les cations, comme la plupart des toxines de B. thuringiensis. Bien que la Cry6Aa1 puisse former des pores sélectifs pour les anions, les résultats suggèrent aussi qu’elle pourrait, contrairement aux autres toxines de cette bactérie, ne former des pores qu’en présence d’une force ionique élevée. La formation des pores par ces deux toxines semble être sensible à la courbure de la membrane cible étant donné qu’elle est beaucoup plus efficace dans des liposomes géants que dans des liposomes de même composition, mais plus petits. Ce travail jette les bases de la mise au point d’une technique qui permettrait l’étude des toxines dans des liposomes géants enrichis avec des protéines et des lipides provenant de la membrane intestinale des insectes cibles. / Most Bacillus thuringiensis toxins permeabilize the intestinal membrane of susceptible insects by forming pores that abolish transmembrane electrical potentials and ionic gradients. Several toxins have been studied using brush border membrane vesicles purified from the insect midgut. Unfortunately, the intestinal membrane from many insects does not form vesicles that are tight enough to be used in permeabilisation experiments. A new technique using giant liposomes and a membrane permeability probe was developed to evaluate the pore-forming ability of two particularly promising toxins for the biocontrol of a major corn pest, the Western corn rootworm (Diabrotica virgifera virgifera LeConte), Cry6Aa1 and the binary toxin DS10/DS11. Both toxins permeabilized the liposomes efficiently. However, analysis of the permeabilisation rates under different experimental conditions indicates that these toxins differ in their biophysical properties. The binary toxin forms pores which are slightly selective for cations, like most B. thuringiensis toxins. On the other hand, although the results suggest that Cry6Aa1 could form anion-selective pores, they could also indicate that, in contrast with other toxins produced by this bacterium, it could form pores only under high ionic strength conditions. Pore formation by both toxins appears to be sensitive to membrane curvature since it is much more efficient in giant liposomes than in liposomes with identical composition, but smaller in size. This study sets the bases for the development of a technique that would allow the toxins to be studied in giant liposomes enriched with proteins and lipids from the intestinal membrane of target insects.

Cry6Aa1

toxine binaire DS10/DS11

formation de pores

liposomes géants

carboxyfluorescéine

Bacillus thuringiensis

chrysomèle des racines du maïs

Diabrotica virgifera virgifera leConte

DS10/DS11 binary toxin

pore formation

giant liposomes

carboxyfluorescein

Western corn rootworm

Phospholipides bio-sourcés riches en acides gras oméga 3 pour la formulation de liposomes / Naturally occurring phospholipids rich in omega 3 fatty acids for liposome formulation

Bardeau, Tiphaine

11 December 2015

Les liposomes, vésicules à base de phospholipides, sont des systèmes colloïdaux utilisés en recherche et dans différents domaines industriels (pharmaceutique, cosmétique, nutrition). Néanmoins, leur développement se heurte au manque de diversité des sources de phospholipides (soja et jaune d’oeuf). Parallèlement, les méthodes industrielles d’extraction des phospholipides sont basées essentiellement sur l’utilisation de solvants organiques. Dans ce contexte, mon sujet de thèse a eu pour but d’étudier l’extraction de PL, par le CO2 supercritique, à partir de différentes sources avec comme objectif final la formulation de ces PL en liposomes. La démarche a consisté à explorer différents sous-produits de l’huilerie (tourteau d’oléagineux) et de la pêche (sous-produit de la coquille Saint Jacques), potentiellement riches en phospholipides, puis à mettre en place différentes techniques analytiques pour discriminer et quantifier les types de lipides. Parallèlement, l’influence de différents paramètres de l’extraction par CO2 supercritique sur la pureté des fractions obtenues est abordée ainsi qu’une première approche de formulation de PL en liposomes et la caractérisation de ces vésicules. / Liposomes, phospholipids vesicles, are colloidal systems used in search and different industrial fields (pharmaceutical, cosmetic, nutrition). Nevertheless their development face lack of phospholipid sources (soya and egg yolk). At the same time, industrial methods to extract phospholipids use organic solvents. In this context, the phospholipid extraction were studied using a green technology from new different sources in order to formulate liposomes. Oil mill and fishery by-products (seed cake and scallop) were studied to know phospholipid quantities. Analytical techniques were established to discriminate and quantify lipid types. Simultaneously, varying the operating conditions of CO2 supercritical extraction allowed obtaining extracts with different purities and contents in phospholipids and a first study of liposome formulation was carried out.

Phospholipides

Éthosomes

Liposomes

Éthanol

CO2

Extraction par fluide supercritique

Tourteaux de végétaux

Acides gras oméga 3

Phospholipids

Ethosomes

Liposomes

Ethanol

CO2

Supercritical fluid extraction

Seed cakes

Omega 3 fatty acids

Turning stealth liposomes into cationic liposomes for anticancer drug delivery

Gyanani, Vijay

01 January 2013

Targeting the anticancer agents selectively to cancer cells is desirable to improve the efficacy and to reduce the side effects of anticancer therapy. Previously reported passive tumor targeting by PEGylated liposomes (stealth liposomes) have resulted in their higher tumor accumulation. However their interaction with cancer cells has been minimal due to the steric hindrance of the PEG coating. This dissertation reports two approaches to enhance the interaction of stealth liposomes with cancer cells. First, we designed a lipid-hydrazone-PEG conjugate that removes the PEG coating at acidic pH as in the tumor interstitium. However, such a conjugate was highly unstable on shelf. Targeting the anticancer agents selectively to cancer cells is desirable to improve the efficacy and to reduce the side effects of anticancer therapy. Previously reported passive tumor targeting by PEGylated liposomes (stealth liposomes) have resulted in their higher tumor accumulation. However their interaction with cancer cells has been minimal due to the steric hindrance of the PEG coating. This dissertation reports two approaches to enhance the interaction of stealth liposomes with cancer cells. First, we designed a lipid-hydrazone-PEG conjugate that removes the PEG coating at acidic pH as in the tumor interstitium. However, such a conjugate was highly unstable on shelf. Second we developed lipids with imidazole headgroups. Such lipids can protonate to provide positive charges on liposome surface at lowered pH. Additionally, negatively charged PEGylated phospholipids can cluster with the protonated imidazole lipids to display excess positive charges on the surface of the liposomes, thus enhancing their interaction with negatively charged cancer cells. We prepared convertible liposome formulations I, II and III consisting of one of the three imidazole-based lipids DHI, DHMI and DHDMI with estimated pKa values of 5.53, 6.2 and 6.75, respectively. Zeta potential measurement confirmed the increase of positive surface charge of such liposomes at lowered pHs. DSC studies showed that at pH 6.0 formulation I formed two lipid phases, whereas the control liposome IV remained a one-phase system at pHs 7.4 and 6.0. The interaction of such convertible liposomes with negatively charged model liposomes mimicking biomembranes at lowered pH was substantiated by 3-4 times increase in average sizes of the mixture of the convertible liposomes and the model liposomes at pH 6.0 compared to pH 7.4. The doxorubicin-loaded convertible liposomes show increased cytotoxicity in B16F10 (murine melanoma) and Hela cells at pH 6.0 as compared to pH 7.4. Liposome III shows the highest cell kill at pH 6.0 for both the cells. The control formulation IV showed no difference in cytotoxicity at pH 7.4 and 6.0. Uptake of convertible liposome II by B16F10 cells increased by 57 % as the pH was lowered from 7.4 to 6.0.

Pharmacy sciences

Health and environmental sciences

Anticancer drugs

Cationic liposomes

Drug delivery

Stealth liposomes

Chemicals and Drugs

Chemistry

Medical Pharmacology

Medicinal-Pharmaceutical Chemistry

Medicine and Health Sciences

Pharmaceutical Preparations

Pharmacy and Pharmaceutical Sciences

Physical Sciences and Mathematics

Antimycobacterial agents : a study of Liposomal-Encapsulation, comparitive permeability of bronchial tissue and in vitro activity against mycobacterium tuberculosis isolates

Van Rensburg, Lyne

12 1900

Thesis (MScMedSc)--Stellenbosch University, 2012. / Includes bibliography / ENGLISH ABSTRACT: In this thesis, research results are reported on the role of dipalmitoyl phosphatidyl choline (DPPC) and DPPC-liposomes on the in vitro permeability characteristics of various antimycobacterial drugs across porcine bronchial tissue. The permeability flux values of the different compounds (isoniazid, ofloxacin and moxifloxacin) and their relevant DPPC formulations were determined using a continuous flow through perfusion system. Mean steady state flux values were compared statistically by means of a t-test at a significance level of 5% as well as an F-test using whole curve comparisons. The results indicated that the different formulations of drug and their DPPC combinations retard the permeation of drug through bronchial tissue. However, moxifloxacin permeation was significantly enhanced when in a DPPC-liposomal formulation. These results demonstrate the important role that molecular weight, electrostatic charge, partitioning of the molecules in DPPC and DPPC-liposomes play in transmembrane diffusion. In addition, the effect of individual drugs and their DPPC combinations on the surface tension lowering property of DPPC was evaluated. The results obtained showed minimal decreases in the surface tension lowering capability of DPPC; however, the minimal increases in surface tension do not alter the integrity of DPPC to a large extent. Drug susceptibility testing of Mycobacterium tuberculosis cultures against the individual antitubercular drugs and their DPPC combinations was done by using the Radiometric BACTEC 460TB™ system. Drug-entrapped DPPC liposomes were tested at concentrations comparable to their relative minimum inhibitory concentrations (MIC). The results for the BACTEC assay indicated that the mycobacteria were susceptible to the developed drug entrapped liposomes; of which their encapsulation efficiencies for the relevant drugs were approximately ± 50%. It was concluded that drug-entrapped DPPC liposomes could fulfill the dual role of pulmonary drug delivery and alveolar stabilization due to antiatelectatic effect of DPPC which can improve the distribution of anti-tubercular drugs in the lung / AFRIKAANSE OPSOMMING: Hierdie tesis doen verslag oor navorsingsresultate met betrekking tot die rol van dipalmitoïel-fosfatidiel-cholien (DPPC) en DPPC-liposome in die in vitro-permeasiekenmerke van verskeie antimikobakteriese middels oor vark- brongiale weefsel. Die permeasievloedwaardes van die verskillende verbindings (isoniasied, ofloksasien en moksifloksasien) en hul betrokke DPPC-formules is met behulp van ’n deurlopende-deurvloei-perfusiestelsel bepaal. Gemiddelde vloedwaardes in ’n bestendige staat is statisties vergelyk met behulp van ’n t-toets op ’n beduidendheidsvlak van 5%, sowel as ’n F-toets met behulp van heelkurwevergelykings. Die resultate dui daarop dat die verskillende middelformules en hul DPPC-kombinasies middelpermeasie oor brongiale weefsel vertraag. Tog is die permeasie van moksifloksasien aansienlik versterk in ’n DPPC-liposomale formule. Hierdie resultate bevestig die belangrike rol van molekulêre gewig, elektrostatiese lading, die verdeling van molekules in DPPC sowel as DPPC-liposome in transmembraandiffusie. Daarbenewens is die uitwerking van individuele middels en hul DPPC-kombinasies op die oppervlakspanningsverligtingsvermoë van DPPC beoordeel. Die resultate toon minimale afnames in die oppervlakspanningsverligtingsvermoë van DPPC. Die minimale toenames in oppervlakspanning het egter meestal geen noemenswaardige effek op die integriteit van DPPC gehad nie. Voorts is die vatbaarheid van Mycobacterium tuberculosis-kwekings vir die individuele anti-tuberkulêre middels en hul DPPC-kombinasies met behulp van die radiometriese BACTEC 460TB™-stelsel getoets. Middel-ingeslote DPPC-liposome is getoets in konsentrasies wat met hul relatiewe minimum inhibisiekonsentrasies (MIK) vergelyk kan word. Die resultate van die BACTEC-toets toon dat die mikobakterieë vatbaar was vir die ontwikkelde middel-ingeslote liposome, met ’n enkapsuleringsdoeltreffendheid van ongeveer 50% vir die betrokke middels. Die studie kom tot die gevolgtrekking dat middel-ingeslote DPPC-liposome die dubbele rol van pulmonêre middel-lewering en alveolêre stabilisering kan vervul weens die anti-atelektatiese werking van DPPC, wat die verspreiding van anti-tuberkulêre middels in die long kan verbeter.

Surfactants

Theses -- Pharmacology

Dissertations -- Pharmacology

Theses -- Medicine

Dissertations -- Medicine

Permeability

Liposomes

Medical Sciences, Pharmacology

The Critical Role of Mechanism-Based Models for Understanding and Predicting Liposomal Drug Loading, Binding and Release Kinetics

Modi, Sweta

01 January 2013

Liposomal delivery systems hold considerable promise for improvement of cancer therapy provided that critical formulation design criteria can be met. The main objective of the current project was to enable quality by design in the formulation of liposomal delivery systems by developing comprehensive, mechanism-based mathematical models of drug loading, binding and release kinetics that take into account not only the therapeutic requirement but the physicochemical properties of the drug, the bilayer membrane, and the intraliposomal microenvironment. Membrane binding of the drug affects both drug loading and release from liposomes. The influence of bilayer composition and phase structure on the partitioning behavior of a model non-polar drug, dexamethasone, and its water soluble prodrug, dexamethasone phosphate, was evaluated. Consequently, a quantitative dependence of the partition coefficient on the free surface area of the bilayer, a property related to acyl chain ordering, was noted. The efficacy of liposomal formulations is critically dependent on the drug release rates from liposomes. However, various formulation efforts to design optimal release rates are futile without a validated characterization method. The pitfalls of the commonly used dynamic dialysis method for determination of apparent release kinetics from nanoparticles were highlighted along with the experimental and mathematical approaches to overcome them. The value of using mechanism-based models to obtain the actual rate constant for nanoparticle release was demonstrated. A novel method to improve liposomal loading of poorly soluble ionizable drugs using supersaturated drug solutions was developed using the model drug AR-67 (7-t-butyldimethylsilyl-10-hydroxycamptothecin), a poorly soluble camptothecin analogue. Enhanced loading with a drug to lipid ratio of 0.17 was achieved and the rate and extent of loading was explained by a mathematical model that took into account the chemical equilibria inside and outside the vesicles and the transport kinetics of various permeable species across the lipid bilayer and the dialysis membrane. Tunable liposomal release kinetics would be highly desirable to meet the varying therapeutic requirements. A large range of liposome release half-lives from 1 hr to 892 hr were obtained by modulation of intraliposomal pH and lipid composition using dexamethasone phosphate as a model ionizable drug. The mathematical models developed were successful in accounting for the change in apparent permeability with change in intraliposomal pH and bilayer free surface area. This work demonstrates the critical role of mechanism-based models in design of liposomal formulations.

Liposomes

Membrane Binding

Loading

Release Kinetics

Models

Dexamethasone

Nanoscience and Nanotechnology

Physical Chemistry

Science and Technology Studies

Transport Phenomena