Global ETD Search

61	Antimicrobial surfaces based on self-assembled nanoreactors : from block copolymer synthesis to bacterial adhesion studies / Surfaces antimicrobiennes basées sur l'auto-assemblage de nanoréacteurs : de la synthèse du copolymère à l'étude de l'adhésion bactérienne Cottenye, Nicolas 14 December 2010 (has links) Ce travail a pour but le développement d'une nouvelle classe de surfaces destinée à la lutte contre la formation de biofilms. Ces surfaces se basent sur l'immobilisation de nanoréacteurs, résultant de l'auto-assemblage d'un copolymère amphiphile poly(isobutylène)-bloc-oligonucléotide sous forme de vésicules encapsulant une enzyme. Le rôle de cette enzyme est de produire des agents antimicrobiens à partir de précurseurs inactifs. Le copolymère a été synthétisé et caractérisé par des techniques complémentaires et le maintien de l'activité enzymatique a été démontré. Les surfaces bioactives sont finalement obtenues par l'immobilisation des nanoréacteurs grâce aux capacités d'hybridation des séquences nucléiques complémentaires. Nous avons d'abord montré l'influence des deux densités d'oligonucléotides utilisées sur le nombre d'E.coli adhérentes, due probablement aux variations de charges surfaciques associées. Nous avons ensuite confirmé l'influence des curli sur la cohésion des biofilms et mis en évidence une surexpression de la production de curli en présence d'oligonucléotides sur les surfaces, et ce, indépendamment de la séquence et de la topographie considérées. Finalement, nous avons observé un effet antiadhésif lié aux structures vésiculaires indépendant de la topographie de la surface. L'étude complémentaire, menée en mode de culture dynamique, a conduit à envisager que les propriétés mécaniques de la surface affectent la rétention des bactéries en modifiant leur mobilité sur la surface. L'analogie avec des résultats obtenus sur des hydrogels d'agar de différentes duretés conforte cette hypothèse. Ces résultats posent les fondements permettant d'envisager de nouvelles stratégies dans la lutte contre la formation des biofilms. / The aim of this work is to develop a new strategy for the prevention of biofilm growth. For this purpose, we prepared bioactive surfaces resulting from the surface-immobilization of nanoreactors self-assembled from amphiphilic poly(isobutylene)-block-oligonucleotide copolymers. The block copolymer was synthesized and characterized via appropriate complementary techniques. Self-assembly into vesicles allowed the functional encapsulation of enzymes, as assayed through enzyme activity monitoring, leading to a prodrug-drug system. The self-assembled structures were specifically immobilized on surfaces via base pairing between the oligonucleotide block of the copolymer and the surface tethered complementary nucleotide sequence. Using E.coli strains, we first observed an influence of the two density of oligonucleotides immobilized on the surface on the number of adherent bacteria. This influence may be due to an effect of surface charge density. We then confirmed the well-known role of curli in biofilm cohesion, and we showed gene over-expression associated with curli production on oligonucleotide-modified surfaces. We demonstrated that gene over-expression does not depend on the topographical features of the surface or on the composition of the nucleotide sequences used in this study. Finally, we demonstrated tha the presence of the vesicular structure is able to produce strong anti-adhesive properties of the surface. We assume, from observations of bacterial response in dynamic conditions, that this effect is due to increased bacterial motility on the surface, leading to a high detachment rate. Which is further confirms by a comparable bacterial response observed on agar hydrogel of different hardnesses. This result provides a preliminary outcome, paving the way to new approaches to antimicrobial strategies. Polymère Amphiphile Vésicule Bactérie Biofilm Antimicrobien Surfaces Polymer Amphiphile Vesicle Bacteria Biofilm Antimicrobial Surfaces
62	Modulation des propriétés de membrane des polymersomes : perméabilité et évolution de forme / Modulation of polymersomes membrane properties : permeability and shape evolution Salva, Romain 18 December 2013 (has links) Les vésicules sont des structures auto-assemblées formant des compartiments clos à l’échelle nanométrique ou micrométrique. Les différentes applications envisagées pour ces objets vont de la vectorisation de principes actifs à leur utilisation en tant que nano/micro-réacteur. Elles nécessitent donc un contrôle fin des propriétés de perméabilité des membranes vésiculaires. Au cours de cette thèse, des vésicules dont les membranes sont formées par des copolymères à blocs amphiphiles, vésicules appelées polymersomes, ont été formulées et étudiées. Pour répondre au mieux aux applications mentionnées, nous avons synthétisé de nouveaux copolymères amphiphiles capables de s’auto-assembler sous forme de vésicules pour étudier l’influence de l’architecture moléculaire sur les propriétés de membrane. Différentes stratégies pouvant permettre de moduler la perméabilité de ces assemblages ont ainsi été mises au point et étudiées : la formation de membranes hybrides polymère / lipide pour l’eau et l’utilisation d’un transporteur ionique pour les ions calcium. Finalement, l’influence de l’architecture macromoléculaire du copolymère sur l’évolution de forme des vésicules sous l’action d’un stress osmotique a été déterminée. Cette étude, alliant des analyses par diffusion de lumière et de neutrons ainsi que des études en microscopie électronique, a permis d’établir une modélisation complète. / Vesicles are self-assembled structures which form closed compartments at the nanometric or micrometric scale. These synthetic objects can be used for several kinds of applications, ranging from drug delivery to nano / microreactor for confined chemical reactions. The need to precisely control the vesicle membrane permeability is common to all these applications. In this thesis, vesicles resulting from the self-assembly of amphiphilic block copolymers, namely polymersomes, were prepared and studied. For this purpose, we synthesized new amphiphilic copolymers that can self-assemble into vesicles to study the influence of macromolecular parameters on the membrane properties. The formation of polymer / lipid hybrid vesicles for the water permeability and the use of an ion carrier selective for divalent cations have been studied as different methods which should allow the tuning of the membrane permeability. Finally, the influence of the copolymer architecture, molecular weight and hydrophobic chemical nature on the shape evolution of vesicles submitted to an osmotic stress has been studied. This study, combining light and neutron scattering with electron microscopy, allowed us to establish a complete modelisation of the shape evolution trajectory. Polymère Vésicule Propriétés de membrane Perméabilité Forme Polymer Vesicle Membrane properties Permeability Shape
63	Synaptic vesicle recycling in preclinical models of intellectual disability, autism spectrum disorder and epilepsy Bonnycastle, Katherine January 2018 (has links) The development of the central nervous system is dysregulated in neurodevelopmental disorders such as intellectual disability, autism spectrum disorder, and epilepsy. These three disorders have different clinical features, yet there is high comorbidity between them. They can be difficult to study due to their highly complex aetiologies, however there are various monogenic diseases that can cause all of them, including SYNGAP1 haploinsufficiency where the synaptic guanosine triphosphatase (GTPase)-activating protein (SYNGAP) protein levels are highly reduced; Fragile X syndrome where the fragile X mental retardation protein (FMRP) is no longer translated; and DNM1 epileptic encephalopathy where mutations in the Dynamin1 gene alter the protein function. These monogenic conditions are synaptopathies as the proteins affected play important roles in synapse stability and neurotransmission. Because of the high comorbidity between these disorders, it is hypothesised that there may be a common mechanism underlying them. We hypothesise that a deficit in presynaptic vesicle recycling may be part of a common mechanism underlying intellectual disability, autism spectrum disorder, and epilepsy especially in SYNGAP1 haploinsufficiency, Fragile X syndrome, and DNM1 epileptic encephalopathy. Using various fluorescent presynaptic activity reporters including synaptic pHluorins, tetramethylrhodamine dextran and calcium dyes to compare presynaptic activity in in vitro models of these monogenic conditions, we found differences in synaptic vesicle (SV) endocytosis in the genetically altered conditions compared to wildtype controls. We observed various SV endocytosis defects in clathrin-mediated endocytosis (CME) or activity-dependent bulk endocytosis (ADBE) in our models. We observed enhanced CME in SynGAP1 KO mouse hippocampal neurons. This enhanced SV endocytosis was accompanied by decreased SV cargo on the plasma membrane. Rat SynGAP1 KO hippocampal neurons did not display enhanced SV endocytosis, nor did neurons with the GTPase-activating (GAP) domain of SynGAP deleted. This was perhaps due to the altered time course of development between these rodent species. In mouse and rat models of Fragile X syndrome, CME was not altered compared to wildtype controls. However, in a rat model, we observed fewer nerve terminals undergoing ADBE which is the dominant SV endocytosis mode during elevated neuronal activity. De novo epileptic encephalopathy-associated mutations in DNM1 had differential effects on SV recycling through both CME and ADBE. Mouse hippocampal neurons overexpressing Dyn1R237W, Dyn1I289F and Dyn1H396D all showed less CME compared to overexpression of Dyn1WT. Moreover, fewer nerve terminals overexpressing Dyn1H396D were found to undergo ADBE. We also found that a large-conductance potassium (BK) channel opener can accelerate clathrin-mediated endocytosis and thus may be able to rescue the impaired SV endocytosis caused by these mutants. Although there is not yet a common underlying pathway at the presynaptic level between these conditions, SV recycling dysfunction is present across all of these models. Furthermore, we propose an axis of pathophysiology model where optimal SV endocytosis is required for optimised neural performance. We propose that either decreased or increased SV endocytosis can lead to the synaptic dysfunction observed in these models.
64	Mathematical models of hyphal tip growth Mohd Jaffar, Mai January 2012 (has links) Filamentous fungi are important in an enormous variety of ways to our life, with examples ranging from bioremediation, through the food and drinks industry to human health. These organisms can form huge networks stretching metres and even kilometres. However, their mode of growth is by the extension of individual hyphal tips only a few microns in diameter. Tip growth is mediated by the incorporation of new wall building materials at the soft apex. Just how this process is controlled (in fungi and in cell elongation in other organisms) has been the subject of intense study over many years and has attracted considerable attention from mathematical modellers. In this thesis, we consider mathematical models of fungal tip growth that can be classified as either geometrical or biomechanical. In every model we examine, a 2-D axisymmetric semihemisphere-like curve represents half the medial section of fungal tip geometry. A geometrical model for the role of the Spitzenkorper in the tip growth was proposed by Bartnicki-Garcia et al (1989), where a number of problems with the mathematical derivation were pointed out by Koch (2001). A suggestion is given as an attempt to revise the derivation by introducing a relationship between arc length of a growing tip, deposition of wall-building materials and tip curvature. We also consider two types of geometrical models as proposed by Goriely et al (2005). The first type considers a relationship between the longitudinal curvature and the function used to model deposition of wall-building materials. For these types of models, a generalized formulae for the tip shape is introduced, which allows localization of deposition of wall-building materials to be examined. The second type considers a relationship between longitudinal and latitudinal curvatures and the function used to model deposition of wall-building materials. For these types of models, a new formulation of the function used to model deposition of wall-building materials is introduced. Finally, a biomechanical model as proposed by Goriely et al (2010). Varying arc length of the stretchable region on the tip suggests differences in geometry of tip shape and the effective pressure profile. The hypothesis of orthogonal growth is done by focusing only on the apex of a "germ tube". Following that, it suggests that material points on the tip appear to move in a direction perpendicular to the tip either when surface friction is increased or decreased. 519
65	Rôle des vésicules extracellulaires sécrétées par les adipocytes dans la progression du mélanome : impact de l'obésité / Role of extracellular vesicles secreted by adipocytes in melanoma progression : impact of obedity Clement, Emily 13 December 2018 (has links) La progression tumorale dépend d'un dialogue entre les cellules cancéreuses et leur environnement. Parmi les cellules du microenvironnement du mélanome, les adipocytes ont longtemps été ignorés. Pourtant, ces cellules sont le composant majeur de l'hypoderme, la couche la plus profonde de la peau. Ainsi, elles sont proches du mélanome lors de la tumorigenèse et, lorsque la tumeur envahi les couches profondes de la peau, les deux types cellulaires entrent en contact. Il est donc important de comprendre l'impact des adipocytes sur la progression du mélanome, d'autant plus que des études épidémiologiques montrent que l'obésité est un facteur de mauvais pronostic pour ce cancer. Le surpoids et l'obésité sont en hausse constante avec près d'un tiers de la population mondiale affectée, faisant du lien entre l'obésité et le cancer un enjeu de santé publique majeur. Parmi les différents moyens de communication cellulaire, les vésicules extracellulaires (VE) jouent un rôle important dans le cancer. Les VE régulent la communication entre les cellules cancéreuses mais aussi entre les composants du microenvironnement et la tumeur. Les VE sécrétées par les adipocytes sont peu caractérisées et leur rôle sur la progression tumorale reste à élucider. Les VE adipocytaires pourraient être modifiées qualitativement et quantitativement en obésité car différents stress (inflammation, hypoxie...), connus pour modifier les VE, sont retrouvées dans le tissu adipeux d'individus obèses. Dans ce contexte, le premier objectif de ma thèse était de caractériser les VE adipocytaires et déterminer leur impact sur le mélanome dans un contexte normopondéral et d'obésité. Les résultats obtenus montrent que ces VE favorisent la migration et l'invasion des cellules de mélanome. Une analyse protéomique a révélé une signature spécifique dans ces VE, fortement enrichies en protéines du métabolisme des acides gras (AG).[...] / It is now clear that tumor progression is the result of a permanent dialog between cancer cells and the tumor microenvironment (TME). Among the cells found within the melanoma microenvironment, adipocytes had long been ignored. However, adipocytes are the main component of the hypodermis, the deepest skin layer, and are therefore close to melanoma from tumorigenesis and, as the tumor becomes aggressive and invades the deeper skin layers, the two cell types come into contact. Thus, understanding how adipocytes influence melanoma progression is of major importance, especially since epidemiological studies show that obesity is a poor prognosis factor for melanoma. As overweight and obesity are constantly rising and affect around a third of the World's population, the link between obesity and cancer is a major public health issue. Among the different ways in which cells communicate, extracellular vesicles (EV) play a particularly important role in cancer. Moreover, not only can tumor cells communicate with each other through EV, but the cellular components of the TME also use EV to communicate with cancer cells. Adipocyte-derived EV are poorly characterized and their role in tumor progression remains to be determined. In obesity, adipocyte EV may be qualitatively and quantitatively altered since various stresses (inflammation, hypoxia etc.), which are known to modify EV, are found in the adipose tissue of obese individuals. In this context, the first aim of my thesis was to characterize adipocyte EV and their impact on melanoma in lean and obese individuals. The results obtained show that EV secreted by adipocytes promote migration and invasion of melanoma cells. Analysis of their proteome revealed a protein signature specific to adipocyte EV, which was highly associated with fatty acid (FA) metabolism, a metabolic pathway involved in tumor aggressiveness. In melanoma treated with adipocyte EV, fatty acid oxidation (FAO) is increased and FAO inhibitors reverse their pro-invasive effect. Moreover, adipocytes secrete increased numbers of EV in obesity and, using equal numbers of EV from lean or obese subjects, their effect on tumor aggressiveness is increased and remains dependent on FAO. T[...] Vésicule extracellulaire Adipocyte Obésité Mélanome Exosome Extracellular vesicle Adipocyte Obesity Melanoma Exosome
66	Prolonged Drug Release from Gels, using Catanionic Mixtures Bramer, Tobias January 2007 (has links) <p>The use of catanionic drug-surfactant mixtures was proven to be an efficient novel method of obtaining prolonged drug release from gels. It was shown that various commonly used drug compounds are able to form catanionic mixtures together with oppositely charged surfactants. These mixtures exhibited interesting phase behaviour, where, among other structures, vesicles and large worm-like or branched micelles were found. The size of these aggregates makes them a potential means of prolonging the drug release from gels, as only monomer drugs in equilibrium with larger aggregates were readily able to diffuse through the gel. When the diffusion coefficient for drug release from the formulation based upon a catanionic mixture was compared to that obtained for the drug substance and gel alone, the coefficient was some 10 to 100 times smaller.</p><p>The effects of changes in the pH and ionic strength on the catanionic aggregates was also investigated, and this method of prolonging the release was found to be quite resilient to variations in both. Although the phase behaviour was somewhat affected, large micelles and vesicles were still readily found. The drug release was significantly prolonged even under physiological conditions, that is, at a pH of 7.4 and an osmolality corresponding to 0.9% NaCl.</p><p>Surfactants of low irritancy, capric and lauric acid, may successfully be used instead of the more traditional surfactants, such as sodium lauryl sulfate (SDS), and prolonged release can still be obtained with ease.</p><p>Some attempts to deduce the release mechanism from the proposed systems have also been made using transient current measurements, dielectric spectroscopy, and modelling of the release using the regular solution theory. In these studies, the previous assumptions made concerning the mechanism responsible for the release were confirmed to a large extent. Only small amounts of the drug existed in monomer form, and most seemed to form large catanionic aggregates with the oppositely charged surfactant.</p> Pharmaceutics gel catanionic vesicle micelle controlled release diffusion surfactant drug delivery Galenisk farmaci
67	Interactions of functionalized vesicles in the presence of Europium (III) Chloride / Interactions of functionalized vesicles in the Presence of Europium (III) Chloride Haluska, Christopher K. January 2004 (has links) We incorporate amphiphilic receptors bearing ß-diketone functional units into large (LUV's) and giant unilamellar vesicles (GUV's). Electrolyte solutions containing di- and trivalent ions were used to induce inter-membrane interactions. Measurements performed with isothermal titration calorimetry (ITC) revealed that interaction between EuCl3 and ß-diketone receptors was characterized by a molar enthalpy 126 ± 5 kcal/mole and an equilibrium binding constant 26 ± 4 mM-1. The results indicate a molecular complex formed binding two ß-diketone receptors to one Eu3+ ion. Dynamic light scattering (DLS) was used to follow changes in LUV diameter indicated in an increase in vesicle size distribution of on average 20 %. Optical microscopy was employed to visualize the inter-membrane interaction measured using DLS and ITC. Depending on membrane composition of the functionalized vesicles we found that local injections of micromolar EuCl¬3 induced membrane pore formation and membrane fusion. Our collection of results leads to the conclusion that formation of intra-molecular ligand receptor complexes leads to pore formation and inter-membrane complex formation leads to membrane fusion. Detailed characterization of the fusion process shows that irreversible opening of the fusion pore can be extrapolated to times below 50 µsec. We have found that formation of membrane bound ligand (Eu3+)-receptor complexes provides versatility to the function of vesicle membranes. / Die Fusion von Membranen ist ein entscheidender Prozeß bei der Entwicklung von Zellen im Körper. Beispielsweise ist sie eine der Voraussetzungen bei der Befruchtung einer Eizelle durch ein Spermium oder für das Eindringen von Viren in eine Zelle. Membranfusion ist auch notwendig für den Stofftransport in die Zelle hinein oder aus ihr heraus. Die Membranfusion ist daher auch von praktischen Interesse auf den Gebieten der Pharmazeutik und des 'Bioengineering'. Oft muss eine Membran mit der infiziertin Zelle fusionieren, um ein Medikament an sein Zeil zu bringen. Deshalb ist ein Verständnis der Membranfusion von großem Interesse für die Entwicklung von gezielten und effizienten Methoden des 'drug delivery'. Dasselbe gilt für die gezielte Zufuhr von Genen bei der Gentherapie. Obwohl die Membranfusion schon vor nahezu 200 Jahren von dem deutschen Biologen und Mediziner Johannes Müller beobachtet wurde, liegt ein vollständiges Verständnis des Fusionsprozesses von Zellen und (Modell-) Membranen auch heute noch in weiter Ferne. Allerdings hat im letzten Jahrzehnt das Interesse für dieses Forschungsgebiet stark zugenommen. Wissenschaftler der unterschiedlichsten Disziplinen arbeiten daran, die Mechanismen der Membranfusion aufzudecken. Biologen untersuchen Proteine, die die Fusion auslösen, Chemiker entwickeln Moleküle, die die Fusion erleichtern, und Physiker versuchen die Antriebsmechanismen der Membranfusion zu verstehen. Neue Mikroskopietechniken und die hohe Rechenleistung moderner Computer helfen die molekulare und die makroskopische Welt der Membranfusion in einem Bild zusammenzufügen. Für unsere Untersuchungen haben wir Modellmembranen, die aus Lipiddoppelschichten bestehen, benutzt. Diese Membranen formen sogenannte Vesikel oder Liposomen, abgeschlossene Membrane, in denen eine bestimmte Menge an Flüssigkeit enthalten ist. Indem wir Rezeptoren in die Membran einbringen, schaffen wir funkionalisierte Vesikel, die sich differenzieren, kooperieren und selektiv reagieren können. Wir benutzen positiv geladene wasserlösliche Ionen, um Wechselwirkungen zwischen den Vesikeln zu vermitteln, und lassen die Rezeptoren und die Ionen den Fusionsprozess auslösen. Die Wechselwirkungen werden unter dem Mikroskop durch spezielle Mikromechanischn Gerätz Mikromechinerien kontrolliert. Mit Hilfe einer sehr schnellen digitale Bildaufnahmetechnik ist es uns gelungen, die Fusion unserer Modellmembranen aufzunehmen und in Echtzeit zu dokumentieren mit einer Auflösung von 50 µs. Unsere Messungen können vergleichen werden mit Computersimulationen des Fusionsprozesses. Diese Simulationen untersuchen Prozesse, die zwischen 0.1 und 1 Mikrosekunde dauern. Eine Herausforderung für die Zukunft wird es sein, die Lücke zwischen den in Experimenten (50µs) und den in Simulationen zugänglichen Zeitskalen von beiden Seiten her zu schließen. Biophysik Membrane Fusion, Vesiklen, Micropipetten Physics
68	Phase separation in giant vesicles Li, Yanhong January 2008 (has links) Giant vesicles may contain several spatial compartments formed by phase separation within their enclosed aqueous solution. This phenomenon might be related to molecular crowding, fractionation and protein sorting in cells. To elucidate this process we used two chemically dissimilar polymers, polyethylene glycol (PEG) and dextran, encapsulated in giant vesicles. The dynamics of the phase separation of this polymer solution enclosed in vesicles is studied by concentration quench, i.e. exposing the vesicles to hypertonic solutions. The excess membrane area, produced by dehydration, can either form tubular structures (also known as tethers) or be utilized to perform morphological changes of the vesicle, depending on the interfacial tension between the coexisting phases and those between the membrane and the two phases. Membrane tube formation is coupled to the phase separation process. Apparently, the energy released from the phase separation is utilized to overcome the energy barrier for tube formation. The tubes may be absorbed at the interface to form a 2-demensional structure. The membrane stored in the form of tubes can be retracted under small tension perturbation. Furthermore, a wetting transition, which has been reported only in a few experimental systems, was discovered in this system. By increasing the polymer concentration, the PEG-rich phase changed from complete wetting to partial wetting of the membrane. If sufficient excess membrane area is available in the vesicle where both phases wet the membrane, one of the phases will bud off from the vesicle body, which leads to the separation of the two phases. This wetting-induced budding is governed by the surface energy and modulated by the membrane tension. This was demonstrated by micropipette aspiration experiments on vesicles encapsulating two phases. The budding of one phase can significantly decrease the surface energy by decreasing the contact area between the coexisting phases. The elasticity of the membrane allows it to adjust its tension automatically to balance the pulling force exerted by the interfacial tension of the two liquid phases at the three-phase contact line. The budding of the phase enriched with one polymer may be relevant to the selective protein transportation among lumens by means of vesicle in cells. / In der wässrigen Lösung im Inneren von Riesenvesikeln können sich mehrere, räumlich getrennte Phasen ausbilden. Dieses Phänomen könnte im Zusammenhang stehen mit wichtigen Prozessen innerhalb von Zellen, wie etwa Fraktionierung und Sortieren von Proteinen, oder etwa das sog. “Molecular Crowding”. Wir studieren diesen Prozess am Beispiel von zwei unterschiedlichen Polymeren, Polyethylen Glycol (PEG) und Dextran, innerhalb von Riesenvesikeln. Die Dynamik der Phasentrennung dieser eingeschlossenen Polymerlösung lässt sich untersuchen, indem man die Vesikel einer hypertonischen Lösung aussetzt. Durch die Dehydrierung entsteht dabei überschüssige Membranfläche. Je nach Grenzflächenspannung zwischen den koexistierenden Phasen, sowie zwischen der Membran und den beiden Phasen, wird diese überschüssige Fläche entweder zur Ausbildung röhrchenartiger Strukturen verwendet, oder aber es stellen sich morphologische Veränderungen am Vesikel ein. Die Ausbildung der Membranröhrchen ist offenbar gekoppelt an den Phasentrennungsprozess: Die Energie, die bei Phasentrennung frei wird, dient offenbar dazu, die Energiebarriere der Röhrchenbildung zu überwinden. Die Röhrchen können an der Grenzfläche absorbiert werden und dort eine zweidimensionale Struktur ausbilden. Durch kleine Störungen in der Spannung kann die in Form von Röhrchen gespeicherte Membran wieder in deren Oberfläche zurückgezogen werden. Desweiteren wurde in diesem System ein Benetzungsübergang entdeckt, der bisher nur in wenigen experimentellen Systemen beobachtet werden konnte: Erhöht man die Polymerkonzentration, so geht die PEG-reiche Phase von vollständiger zu unvollständiger Benetzung der Membran über. Steht in einem Vesikel, in dem beide Phasen die Membran benetzen, ausreichend überschüssige Membranfläche zur Verfügung, so wird sich eine Phase aus dem Vesikelkörper herauswölben, was zur Trennung der beiden Phasen führt. Dieser benetzungsinduzierte Auswölbungsprozess wird durch die Oberflächenenergie bestimmt und von der Membranspannung moduliert. Dies konnte experimentell an Vesikeln gezeigt werden, die zwei Phasen beinhalten, indem durch eine Mikropipette ein Unterdruck erzeugt wurde. Die Oberflächenenergie kann durch Auswölbung einer der Phasen signifikant verringert werden, da die Kontaktfläche zwischen den koexistierenden Phasen verkleinert wird. Die Elastizität der Membran erlaubt es, die Spannung automatisch anzupassen, sodass die ziehende Kraft ausgeglichen wird, die durch die Grenzflächenspannung der beiden flüssigen Phasen an der drei-Phasen Kontaktlinie ausgeübt wird. Die Auswölbung einer durch Polymere angereicherten Phase könnte relevant sein für den selektiven Transport von Proteinen mit Vesikeln in der Zelle. Membranröhrchen Benetzungsübergang Knospung Vesikel Phasentrennung membrane tube wetting transition budding vesicle phase separation Physics
69	Prolonged Drug Release from Gels, using Catanionic Mixtures Bramer, Tobias January 2007 (has links) The use of catanionic drug-surfactant mixtures was proven to be an efficient novel method of obtaining prolonged drug release from gels. It was shown that various commonly used drug compounds are able to form catanionic mixtures together with oppositely charged surfactants. These mixtures exhibited interesting phase behaviour, where, among other structures, vesicles and large worm-like or branched micelles were found. The size of these aggregates makes them a potential means of prolonging the drug release from gels, as only monomer drugs in equilibrium with larger aggregates were readily able to diffuse through the gel. When the diffusion coefficient for drug release from the formulation based upon a catanionic mixture was compared to that obtained for the drug substance and gel alone, the coefficient was some 10 to 100 times smaller. The effects of changes in the pH and ionic strength on the catanionic aggregates was also investigated, and this method of prolonging the release was found to be quite resilient to variations in both. Although the phase behaviour was somewhat affected, large micelles and vesicles were still readily found. The drug release was significantly prolonged even under physiological conditions, that is, at a pH of 7.4 and an osmolality corresponding to 0.9% NaCl. Surfactants of low irritancy, capric and lauric acid, may successfully be used instead of the more traditional surfactants, such as sodium lauryl sulfate (SDS), and prolonged release can still be obtained with ease. Some attempts to deduce the release mechanism from the proposed systems have also been made using transient current measurements, dielectric spectroscopy, and modelling of the release using the regular solution theory. In these studies, the previous assumptions made concerning the mechanism responsible for the release were confirmed to a large extent. Only small amounts of the drug existed in monomer form, and most seemed to form large catanionic aggregates with the oppositely charged surfactant. Pharmaceutics gel catanionic vesicle micelle controlled release diffusion surfactant drug delivery Galenisk farmaci
70	Defining the function of the Chediak-Higashi syndrome related protein, LvsB, in Dictyostelium discoideum : functional interactions that antagonize vesicle fusion Falkenstein, Kristin Nicole 07 October 2013 (has links) Lesions in the human Lyst gene are associated with the lysosomal disorder Chediak Higashi Syndrome. The absence of Lyst causes the formation of enlarged lysosome related compartments in all cells. This defect results in severe immunodeficiency, neurological dysfunction, and ultimately in death. Despite decades of research, the mechanism for how these enlarged compartments arise is not well established. Two opposing models have been proposed for Lyst function. The fission model describes Lyst as a positive regulator of fission from lysosomal compartments, while the fusion model identifies Lyst as a negative regulator of fusion between lysosomes. To date, a consensus on which model is correct has not been reached. This thesis details my investigation of Lyst function using Dictyostelium discoideum. To establish a definitive model for the function of the Dictyostelium Lyst ortholog, LvsB, we used assays that distinguish between defects in vesicle fusion versus fission. We compared the phenotype of cells defective in LvsB with that of two known fission defect mutants ([mu]3 and WASH null mutants). The temporal localization characteristics of the post-lysosomal marker vacuolin, as well as vesicular acidity and fusion dynamics of LvsB null cells are distinct from those of both fission defect mutants. These distinctions are predicted by the fusion defect model and implicate LvsB as a negative regulator of vesicle fusion. This work also presents evidence that LvsB antagonizes the function of two fusion regulatory proteins, Rab14 and dLIP5. The Dictyostelium Rab14 GTPase is known to stimulate lysosome fusion, and here we implicate dLIP5 as a promoter of Rab14 activity. Constitutive activation of Rab14 increases vesicle fusion in wild type cells but not in dLIP5 mutant cells. Thus, Rab14 activity is dependent on dLIP5. Additionally, the aberrant vesicle morphology and fusion phenotypes of LvsB mutant cells are suppressed by expression of dominant inactive Rab14 or disruption of dLIP5. This suppression suggests that LvsB antagonizes Rab14 activity to negatively regulate vesicle fusion. These studies validate the fusion model for LvsB function and provide new insights into the relationships that dictate vesicle fusion regulation. By extension, we propose that Lyst negatively regulates vesicle fusion by antagonizing the activity of a RabGTPase. / text Lyst LvsB Chediak-Higashi syndrome Vesicle fusion LIP5 Rab14 Dictyostelium discoideum

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