Fosfolipidy jako základ biodegradabilních nosičových systémů / Phospholipids as the basis of biodegradable delivery systems

Burdíková, Jana

January 2013

This thesis is focused on investigation of phospholipid-hyaluronan system. First, appropriate method for preparation of bulk solution of phospholipid/lipid and suitable fluorescence probe were chosen. Sonification was selected as a method for preparation of bulk solution and pyrene was chosen as a fluorescence probe. From the group of phospholipids lecithin was selected. Next to phospholipid, lipid with no phosphate group (DPTAP) was utilized for comparison, alternatively a mixture of lipid (DPTAP) and phospholipid (DPPC). Instead of hyaluronan another polyelectrolytes (sodium polystyrene sulfonate, sodium alginate) were used too. Measurements were performed in water environment and in phosphate buffer saline (PBS). All investigation was accomplished by fluorescence spectroscopy and dynamic light scattering.

Theranostické systémy v sonografii / Theranostic systems in sonography

Říkovská, Klára

January 2016

This work deals with preparation of microbubble suspension from a mixture of phospholipids, palmitic acid and polyethylene glycol. Properties of prepared systems were studied using bubble tensiometry and dynamic light scattering method and were compared with commercial contrast agent SonoVue®. Suspensions were prepared in various conditions including different atmosphere and increased temperature in some steps of preparation and different solution. Effect of polyethylene glycol addition on surface activity of the system was studied. Surface activity of phospholipids was insignificant. Surface tension decreased with increasing concentration and molecular weight of polyethylene glycol in the system. Effect of different atmosphere and increased temperature showed no substantial trend. It emerged that dynamic light scattering is not suitable for this type of samples because of high polydispersity and phase separation of the system.

Phospholipid Transport in Silicon Hydrogel Contact Lenses

Zhao, Yibei

20 September 2011

Dry eye syndrome has been associated with the lack of phospholipids in the tear film, leading to disruption of the tear film and subsequent irritation. Characterization of the transport and release of phospholipids from a silicone hydrogel contact lens is required to assess the possible use of these lenses for phospholipid delivery to increase patient comfort. This thesis examines the use of silicone hydrogel contact lenses as phospholipid delivery devices. Contact lenses of silicone hydrogel composition were loaded with varying amounts of radiolabeled 1,2-dimyristoyl-sn-glycero-3-phosphocholine (DMPC) from a solution of n-propanol. These lenses were eluted at 35°C into artificial tear fluid (ATF) or ATFcontaining varying amounts of DMPC. The amount of DMPC loaded into a lens is a linear function of the time of exposure to the DMPC/propanol solution. The initial rate of elution into ATF appears to be diffusion controlled for at least 10 hrs and is proportional to the amount of DMPC loaded. The ease of loading and the controllable release of DMPC from silicone hydrogels present the possibility of using such lenses to counter eye discomfort caused by inherently low levels of phospholipid in tears. To reduce manufacturing steps and concern for residual n-propanol in the lens, it is beneficial to incorporate the DMPC into the monomer formulation and then photopolymerize the lens. Results showed that using this process, DMPC can be placed in the lens and then eluted at faster rates than when it was loaded from n-propanol.

silicone hydrogel contact lens

dry eye discomfort

phospholipid delivery

artificial tear fluid

elution

drug transport

Chemical Engineering

Lipid profilling of polyunsaturated fatty acid - treated mouse brain and plasma. Investigation into polyunsaturated fatty acid (PUFA)-induced neuroprotection

Williams, Anest

January 2010

Pre-treatment with polyunsaturated fatty acids or bioactive lipid mediators has been shown to reduce neuronal injury in rodent models of focal ischaemia, but the molecular mechanisms underlying this neuroprotection are unclear. In this study, we aimed to investigate whether systemic administration of alpha linolenic acid (ALA) leads to changes in the profile of mouse brain phospholipid and bioactive lipid mediators in both mouse brain and plasma within the previously determined neuroprotection time window. Mass spectrometry (MS) and tandem mass spectrometry (MS/MS) allowed us to detect and identify 47 phospholipids in mouse cerebral cortex, including several phospholipid species not previously reported in brain lipidomic studies. These included a phosphatidylethanolamine species with m/z 720 that has been associated with retinal stem cells. No widespread changes in cerebral cortex phospholipid composition were observed following intravenous ALA. Several significant changes in lipid mediators (P<0.05 with two-way ANOVA and post hoc Dunnett¿s t test) were detected in ALA-treated animals compared to untreated and vehicle-injected animals. Many of the affected lipid mediators are ligands for prostanoid receptors which have been demonstrated to play a role in the development of brain injury following cerebral ischaemia, implying that changes in bioactive lipid mediators or modulation of prostanoid receptors may occur following ALA pre-treatment in mice. This study illustrates the potential of advanced lipidomic analysis as a novel tool for neurochemists.

Mouse

; Fatty acids

; Brain

; Cortex

; Phospholipid

; Plasma

; Tandem mass spectrometry

; Neuroprotection

; Alpha linolenic acid; ALA

; Lipidomic analysis

I. FLOW INJECTION CAPILLARY ELECTROPHORESIS USING ON-LINE ENZYMATIC AND DYE INTERACTION REACTIONS II. MINI—SOLID PHASE EXTRACTION OF PHARMACEUTICALS AND PHOSPHOLIPIDS IN CONJUNCTION WITH NANO-ELECTROSPRAY MASS SPECTROMETRY

Qi, Lining

28 July 2003

No description available.

Chemistry, Analytical

capillary electrophoresis

solid-phase extraction

preconcentration

cyclic reaction

nano-ESI MS

weak anion exchange

cardiolipin

phospholipid

The Fate of <i>Aeromonas hydrophila</i> in a Model Water Distribution System Biofilm Annular Reactor

Arambewela, Mahendranath K.J.

January 2008

No description available.

Environmental Science

Aeromonas hydrophila

Biofilm: Biofilm Reactors

Drinking water

Iron coupons

Phospholipid phosphate

Polycarbonate coupons

Water quality

Functional Responses of Stream Communities to Acid Mine Drainage Remediation

Drerup, Samuel A.

08 July 2016

No description available.

Freshwater Ecology

Acid mine drainage

remediation

phospholipid fatty acid

stable isotope food web

phosphorus limitation

Inhibition of the prothrombinase complex on phospholipid vesicles, activated platelets, and red blood cells by a covalently-linked antithrombin-heparin complex

Stevic, Ivan

04 1900

<p>Prothrombinase is composed of a proteinase, factor Xa (Xa), its cofactor Va (Va), Ca²⁺ and a zymogen, prothrombin (II), assembled on a phospholipid surface. During coagulation, prothrombinase accelerates II to thrombin conversion; but during anticoagulation, it protects the proteinase from inhibition by antithrombin (AT) ± unfractionated heparin (UFH). Although the degree of Xa protection by prothrombinase varies according to the reports in literature, moderate to significant protective effects have been consistently reported by most investigators. To overcome the limitations of UFH, our laboratory has developed a covalent complex of AT and UFH (ATH) with superior anticoagulant responses. To further understand the mechanisms of enhanced anticoagulant activity of ATH, we proceeded to study inhibition of the prothrombinase complex<em> </em>on synthetic vesicles, activated platelets and red blood cells (RBCs). Using discontinuous inhibition assays, we determined the rate of inhibition of prothrombinase-complexed Xa compared to control Xa. With synthetic vesicles, Xa was protected from inhibition by AT+UFH when in prothrombinase, while only a mild protective effect was observed with ATH. Omission of various components of the prothrombinase led to a reduction in Xa protection for AT+UFH. However, an increased Xa protection against ATH was observed when II was omitted from the prothrombinase. In comparison to the synthetic vesicle system, activated platelets showed a similar trend for protection of Xa in reactions involving prothrombinase ± components, while no protection of Xa was observed for ATH reactions. Alternatively, RBCs showed differences relative to vesicles in that increased protection of Xa occurred with omission of II and Va for AT+UFH, whereas omission of Va increased protection against ATH inhibition. In addition, ATH had improved inhibition of thrombin generation, fibrin formation and plasma coagulation compared to AT+UFH. Studies of fluorescently labelled Xa and inhibitors detailed binding interactions with prothrombinase subunits. Overall, the results suggest that a covalent linkage between AT and heparin improves inactivation of prothrombinase complexed-Xa leading to down-regulation of prothrombinase function.</p> / Doctor of Philosophy (Medical Science)

antithrombin

covalent antithrombin-heparin complex

heparin

platelets

phospholipid vesicles

prothrombinase complex

red blood cells

Medical Sciences

Medical Sciences

Adsorption Studies of Polysaccharides and Phospholipids Onto Cellulose

Du, Xiaosong

18 January 2012

Interactions between biomolecules and cellulose films at solid/liquid interfaces was studied by surface plasmon resonance spectroscopy (SPR), quartz crystal microbalance with dissipation monitoring (QCM-D) and in situ atomic force microscopy (AFM) measurements. This dissertation shows the porous character of nanocrystalline cellulose films as the key feature for enhanced adsorption of chemically modified polysaccharides and provides quantitative analysis of polymer supported phospholipid structures as a stable platform for studying membrane-related processes. Smooth cellulose I films were prepared by spincoating cellulose nanocrystal suspensions onto positively charged self-assembled monolayers on gold. The adsorption of pullulan cinnamate (PC) onto cellulose surfaces increased with increasing degree of cinnamate substitution. The interactions between PCs with higher degree of substitution (DS) and porous nanocrystalline cellulose (NC) films presumably generated looped multilayer PC structures that adsorbed more than twice as much onto NC films than onto regenerated cellulose (RC) films. PC chains not only covered the NC surface but also penetrated into the porous film. The porous features of NC film are responsible for the greater adsorption of polymer chains relative to tightly packed RC films. Adsorption of phospholipid vesicles onto RC and NC films was also studied. Aggregates of intact vesicle were observed on NC surfaces with high water content ~ 84 % by mass. Phospholipid patches with smooth features were found to assemble onto RC surfaces with a lower degree of hydration ~ 30 % by mass. Vesicle membrane breakage was triggered by a destabilizing agent, LysoPC. The great mass decrease, and changes in dissipation and degree of hydration for phospholipid structures after exposure to LysoPC corresponded to the transformation from vesicles to layered structures. Initial binding of LysoPC micelles to unruptured vesicles was clearly resolved in SPR, whereas the huge mass decrease associated with bound water hides the initial adsorption of LysoPC onto vesicles in QCM-D experiments. The intitial binding of LysoPC micelles onto vesicle membranes lasted for 200 seconds with a maximal increase of 14 % by mass prior to vesicle collapse. The role of cholesterol in phospholipid interactions with model cellulose surfaces was also considered. Supported vesicle layers over RC surfaces were observed for vesicle membranes containing ≥ 6.3 % by mole cholesterol, whereas phospholipid or phospholipid with lower cholesterol content formed disconnected lipid islands on RC surfaces. Meanwhile, intact vesicles were always observed on NC surfaces for phospholipid/cholesterol blends regardless of the cholesterol content. The intact vesicles on cellulose surfaces were attributed to the ability of cholesterol to accommodate vesicle deformation. These studies showed the impact of mesoscale structure of cellulose films on adsorbates. It sheds light on the role of the lignin-carbonhydrate-complex in plant cell wall structure and will inform the next generation of biomimetic nanocomposites. The designed polymer supported biomimetic membranes provide a perfect platform to develop intact and ruptured protoplast systems for the study of plant cell wall self-assembly. / Ph. D.

Phospholipid Vesicles

Cellulose Film

Atomic Force Microscopy

Surface Plasmon Resonance Spectroscopy

Polysaccharide

Etude des interactions polluants aromatiques polycycliques (HAP)-récepteurs adrénergiques-phospholipides membranaires dans le tissu adipeux / Interrelationship between PAH – adrenergic receptors – phospholipid membranes in adipose tissue

Fagla-Amoussou, Akouavi Balbine

29 November 2010

L'obésité est une maladie définie par une accumulation de masse grasse dans le tissu adipeux ayant des conséquences néfastes pour la santé. Les causes de l’obésité sont multiples. Dans un travail récent, il y a été démontré le rôle de la pollution environnementale dans la prise de poids. Dans ce travail, les hypothèses selon lesquelles les récepteurs adrénergiques situés à la surface des cellules adipeuses seraient le siège de l’action des polluants aromatiques polycycliques ont été vérifiées par le dosage de plusieurs agonistes et antagonistes spécifiques et non spécifiques en présence ou non du benzo[a]pyrène sur des récepteurs humains et de cellules d’hamster chinois (CHO). Les quantités d’AMPc obtenues montrent que les HAP ne se déposent pas sur les récepteurs β1, β2, β3 adrénergiques.Cette accumulation se fait au niveau des phospholipides de la membrane cytoplasmique des cellules. Ce qui cause une rigidité des membranes.Cette observation tend à renforcer l'hypothèse selon laquelle le benzo[a]pyrène induirait une inhibition de la lipolyse par l'accumulation au niveau de la bicouche de phospholipides et des changements de conformation de la bicouche de phospholipides dans les environs des récepteurs à sept domaines transmembranaires qui sont β-adrénergiques.La liaison de la bicouche phospholipidique avec les HAP utilisés est une réaction exothermi-que avec un faible dégagement de chaleur / Obesity is a disease defined by an accumulation of fat in adipose tissue with adverse consequences for health. The causes of obesity are many.In recent work, there was demonstrated the role of environmental pollution in weight gain.In this work, the assumptions that the adrenergic receptors on the surface of fat cells would home to the accumulation of polycyclic aromatic pollutants have been verified by measurement of several agonists and antagonists specific and non-specific in the presence or absence of benzo[a]pyrene receptors on human cells and Chinese hamster (CHO). The amounts of cAMP obtained showed that PAHs are not deposited on β-receptors, β1, β2, β3 adrenergic receptors.This accumulation occurs at the cytoplasmic membrane phospholipids of the cells. What cau-ses stiffness of the membranes. This observation tends to reinforce the hypothesis that benzo [a]pyrene induce an inhibition of lipolysis by the accumulation in the phospholipid bilayer and conformational changes of the bilayer phospholipids in the vicinity of receptors seven transmembrane domains which are β-adrenergic receptors

Benzo[a]pyrène

Pyrène

Fluoranthène

Lipolyse

Adrénaline

Liposomes

Benzo[a]pyrene

Pyrene

Fluoranthen

Lipolysis

Epinephrine

Giants phospholipid vesicles (GUVs)

Liposomes