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1.
Abstract

A mathematical model which describes the kinetic behaviour of enzyme-loaded liposomes containing a substrate transporter in the lipid bilayer is presented. The model accounts for the facilitated diffusion across the membrane and the chemical reaction in the aqueous core. Both steady-state and transient kinetics are analysed. The model allows to quantify the influence of transport phenomena on the catalytic properties of the microencapsulated enzyme and provides some directions for the design of an artificial vesicle in which a selective substrate carrier has been included.  相似文献   

2.
Abstract

Enzymatic kinetic of enzyme Ascorbate Oxidase (AAO) loaded into liposomes has been studied during microwave (MW) fields irradiation at temperature of 25°C. DPPC:Chol (7:3 mole ratio) unilamellar vesicles of an average diameter of 110 nm were used. At the working frequency of 2.45 GHz, MW exposure at 2.8 mW/g and 5.6 mW/g Specific Absorption Rate (SAR) were investigated. At both SARs above cited, the free enzyme in solution did not show any effects induced by MW exposure. On the other hand, the enzyme loaded into liposomes exhibits a significant decrease of 13% (p<0.005, n=42) in the reaction velocity induced by MW exposure at 5.6 mW/g in comparison to control. At SAR of 2.8 mW/g no significant decrease was obtained.  相似文献   

3.
BackgroundThe permeability of a lipid bilayer is a function of its phase state and depends non-linearly on thermodynamic variables such as temperature, pressure or pH. We investigated how shear forces influence the phase state of giant unilamellar vesicles and their membrane permeability.MethodsWe determined the permeability of giant unilamellar vesicles composed of different phospholipid species under shear flow in a tube at various temperatures around and far off the melting point by analyzing the release of fluorescently labelled dextran. Furthermore, we quantified phase state changes of these vesicles under shear forces using spectral decomposition of the membrane embedded fluorescent dye Laurdan.ResultsWe observed that the membrane permeability follows a step function with increasing permeability at the transition from the gel to the fluid phase and vice versa. Second, there was an all-or-nothing permeabilization near the main phase transition temperature and a gradual dye release far off the melting transition. Third, the Laurdan phase state analysis suggests that shear forces induce a reversible melting temperature shift in giant unilamellar vesicle membranes.Major conclusionsThe observed effects can be explained best in a scenario in which shear forces directly induce membrane pores that possess relatively long pore lifetimes in proximity to the phase transition.General significanceOur study elucidates the release mechanism of thermo-responsive drug carriers as we found that liposome permeabilization is not continuous but quantized. Furthermore, the shear force induced melting temperature shift must be taken into consideration when thermo-responsive liposomes are designed.  相似文献   

4.
Abstract

Research has suggested that exposure to sub-micellar concentrations of bile salts (BS) increases the permeability of lipid bilayers in a time-dependent manner. In this study, incubation of soy phosphatidylcholine small unilamellar vesicles (liposomes) with sub-micellar concentrations of cholate (C), deoxycholate (DC), 12-monoketocholate (MKC) or taurocholate (TC) in pH 7.2 buffer increased membrane fluidity and negative zeta potential in the order of increasing BS liposome-pH 7.2 buffer distribution coefficients (MKC?<?C?≈?TC?<?DC). In liposomes labeled with the dithionite-sensitive fluorescent lipid N-(7-nitrobenz-2-oxa-1,3-diazol-4-yl)phosphatidylethanolamine (NBD-PE) in both leaflets and equilibrated with sub-micellar concentrations of BS, fluorescence decline during continuous exposure to dithionite was biphasic involving a rapid initial phase followed by a slower second phase. Membrane permeability to dithionite as measured by the rate of the second phase increased in the order control?<?MKC?<?TC?~?C?<?DC. In liposomes labeled with NBD-PE in the inner leaflet only and incubated with the same concentrations of C, DC and MKC, membrane permeability to dithionite initially increased very rapidly in the order MKC?<?C?<?DC before impermeability to dithionite was restored after which fluorescence decline was consistent with NBD-PE flip-flop. For liposomes incubated with TC, membrane permeability to dithionite was only slightly increased and the decline in fluorescence was mainly the result of NBD-PE flip-flop. These results provide evidence that BS interact with lipid bilayers in a time-dependent manner that is different for conjugated and unconjugated BS. MKC appears to cause least disturbance to liposomal membranes but, when the actual MKC concentration in liposomes is taken into account, MKC is actually the most disruptive.  相似文献   

5.
Abstract

Liposomes entrapping enzymes behave as small membrane bioreactors which can be used in biotechnological and biomedical applications. Furthermore, liposomes loading enzymes are being used as model to mimic cellular and subcellular organel behaviour. This work deals with the study of the kinetic behaviour of carbonic anhydrase (CA) entrapped in lipid vesicle. CA is nearly ubiquitous, being present in many tissues of different species, in cells, subcellular particles and membranes. The carbonic anhydrase entrapment in liposomes, as a function of the lipid cocktail used, was studied preliminarily. Then kinetics of carbon dioxide hydration reaction, catalysed by CA entrapped in liposomes, has been studied.  相似文献   

6.
Abstract

Small unilamellar vesicles conjugated with an enzyme label and with specific ligands for biological molecules may prove to be useful as signal enhancement vehicles in the development of enzyme-linked immunoadsorbent assays and other detection applications. Bifunctional vesicles have been prepared by covalently attaching horseradish peroxidase (HRP) and monoclonal antibodies to the outside of the lipid bilayer. The reaction conditions were optimized to obtain 7-12 antibody molecules and 100-200 HRP molecules per vesicle. The enzyme retained 70-80% of its specific activity after immobilization with no apparent change in vesicle stability. These bifunctional vesicles were used in a noncompetitive immunoassay for D-Dimer, a fibrin dimer formed at the early stages of thrombogenesis. The assay results using vesicles led to a detection limit for D-Dimer in human plasma which was five times lower than what was achieved using a conventional enzyme-antibody conjugate assay. HRP labelled (bifunctional) liposomes can also be used in competitive assays for the detection of small ligands in bulk solution. HRP and biotin-conjugated vesicles were prepared and used in competitive assays for biotin in free solution. The lowest detection limit for biotin using vesicles as the signal generation mechanism was found to be a factor of 10 lower than what could be observed with a traditional biotin-HRP conjugate. A model has been developed for the competition between a small ligand in solution and a large ligand-conjugated vesicle for binding sites on a solid surface.  相似文献   

7.
Abstract

A series of positively charged phospholipid and cholesterol derivatives was synthesized and evaluated as membrane components for liposomes. Small unilamellar liposomes containing up to 40 mole% of the synthetic lipids were prepared by sonication. Selected liposome preparations containing these synthetic lipid materials were found to be noncytotoxic in vitro by using a cell growth inhibition assay, whereas liposomes containing more classic positively charged components (stearylamine and cetyltrimethylammonium bromide) showed considerable cytotoxicity. Using an unanesthetized rabbit eye model, we have found that inclusion of the positively charged lipid derivatives into the liposomes significantly enhanced the ocular retention compared to neutral or negatively charged liposomes, presumably by molecular association with poly anionic corneal and conjunctival surface mucoglycoproteins. the increased retention was dependent on charge density and rigidity of the lipid bilayer. An assay for primary amino groups in these liposomes suggested that the distribution of the charged molecules between the inner and outer leaflets of the bilayer could be manipulated by lipid composition. Studies of liposomes containing cholesteryl esters of amino acids of various carbon chain lengths indicated that the charged amino groups need to extend from the surface of the lipid bilayers for better adhesion and retention. the ocular surface was saturable with respect to applied liposomes, which were cleared slowly from the eye with a half-time of clearance of about 2 hr. these data suggest a specific adhesion of the cationic liposomes to the surface of mucosal tissues.  相似文献   

8.
Abstract

Small unilamellar vesicles of egg phosphatidylcholine were prepared and injected intravenously at dose levels of 250 or 625 mg/kg into 4 adult Beagle dogs 3 times for each dose, once every other day. Plasma unesterified cholesterol increased and RBC unesterified cholesterol decreased in a dose-related manner. At the larger, but not the smaller dose, there was a reversible rise in some liver enzymes in the serum: alanine aminotransferase > > aspartate aminotransferase = sorbitol dehydrogenase > alkaline phosphatase at their peak levels. Normal bromosulfophthalein clearance, metabolite levels, and plasma protein profiles were observed following both doses of liposomes, indicating normal liver function. The rise in liver enzymes in serum may be due to changes in hepatocyte membrane permeability caused by a loss of cholesterol, resulting in enzyme leakage from the cells.  相似文献   

9.
Abstract

Chlorpromazine (CPZ) is an amphipathic antipsychotic drug that binds to erythrocytes reaching in this way the central nervous system. CPZ is a basic molecule with pK = 8.6. This paper reports on CPZ-induced lysis of red blood cells and liposomes. Haemolysis was tested under hypotonic conditions, in the pH range 5.0–10.0. Cell sensitivity towards CPZ increased with increasing pH. Increasing pH caused also a decrease in the critical micellar concentrations of CPZ. These results are interpreted in terms of a competition between repulsive electrostatic forces and attractive hydrophobic forces, that would act both in pure CPZ and in mixed CPZ-phospholipid micelles. In order to eliminate possible pH effects mediated by red blood cell proteins, experiments were carried out in which CPZ induced release of a fluorescent dye from liposomes (large unilamellar vesicles). The latter observations confirmed that membrane sensitivity towards CPZ was increased at higher pH.  相似文献   

10.
The influence of 2.45 GHz microwave exposure (6 mW/g) on the diffusion processes in enzyme-loaded unilamellar liposomes as bioreactors was studied. The enzyme carbonic anhydrase (CA) was entrapped into cationic unilamellar vesicles. Previous kinetic experiments showed a very low self-diffusion rate of the substrate p-nitrophenyl acetate (PNPA) across intact liposome bilayer. A twofold increase in the diffusion rate of PNPA through the lipid bilayer was observed after 120 min of microwave radiation compared to temperature control samples. The microwave effect was time dependent. The enzyme activity, as a function of increased diffusion of PNPA, rises over 120 min from 22.3% to 80%. The increase in stearylamine concentration reduces the enzyme activity from 80% to 65% at 120 min. No enzyme leakage was observed. © 1994 Wiley-Liss, Inc.  相似文献   

11.
Liposomes are artificially prepared vesicles consisting of natural and synthetic phospholipids that are widely used as a cell membrane mimicking platform to study protein-protein and protein-lipid interactions3, monitor drug delivery4,5, and encapsulation4. Phospholipids naturally create curved lipid bilayers, distinguishing itself from a micelle.6 Liposomes are traditionally classified by size and number of bilayers, i.e. large unilamellar vesicles (LUVs), small unilamellar vesicles (SUVs) and multilamellar vesicles (MLVs)7. In particular, the preparation of homogeneous liposomes of various sizes is important for studying membrane curvature that plays a vital role in cell signaling, endo- and exocytosis, membrane fusion, and protein trafficking8. Several groups analyze how proteins are used to modulate processes that involve membrane curvature and thus prepare liposomes of diameters <100 - 400 nm to study their behavior on cell functions3. Others focus on liposome-drug encapsulation, studying liposomes as vehicles to carry and deliver a drug of interest9. Drug encapsulation can be achieved as reported during liposome formation9. Our extrusion step should not affect the encapsulated drug for two reasons, i.e. (1) drug encapsulation should be achieved prior to this step and (2) liposomes should retain their natural biophysical stability, securely carrying the drug in the aqueous core. These research goals further suggest the need for an optimized method to design stable sub-micron lipid vesicles.Nonetheless, the current liposome preparation technologies (sonication10, freeze-and-thaw10, sedimentation) do not allow preparation of liposomes with highly curved surface (i.e. diameter <100 nm) with high consistency and efficiency10,5, which limits the biophysical studies of an emerging field of membrane curvature sensing. Herein, we present a robust preparation method for a variety of biologically relevant liposomes.Manual extrusion using gas-tight syringes and polycarbonate membranes10,5 is a common practice but heterogeneity is often observed when using pore sizes <100 nm due to due to variability of manual pressure applied. We employed a constant pressure-controlled extrusion apparatus to prepare synthetic liposomes whose diameters range between 30 and 400 nm. Dynamic light scattering (DLS)10, electron microscopy11 and nanoparticle tracking analysis (NTA)12 were used to quantify the liposome sizes as described in our protocol, with commercial polystyrene (PS) beads used as a calibration standard. A near linear correlation was observed between the employed pore sizes and the experimentally determined liposomes, indicating high fidelity of our pressure-controlled liposome preparation method. Further, we have shown that this lipid vesicle preparation method is generally applicable, independent of various liposome sizes. Lastly, we have also demonstrated in a time course study that these prepared liposomes were stable for up to 16 hours. A representative nano-sized liposome preparation protocol is demonstrated below.  相似文献   

12.
Unilamellar liposomes are used as a simple two-compartment model to study the interaction of antioxidants. The vesicle membrane can be loaded with lipophilic compounds such as carotenoids or tocopherols, and the aqueous core space with hydrophilic substances like glutathione (GSH) or ascorbate, mimicking the interphase between an aqueous compartment of a cell and its surrounding membrane.

Unilamellar liposomes were used to investigate the interaction of GSH with the carotenoids lutein, β-carotene and lycopene in preventing lipid peroxidation. Lipid peroxidation was initiated with 2,2′-azo-bis-[2,4-dimethylvaleronitrile] (AMVN). Malondialdehyde (MDA) formation was measured as an indicator of oxidation; additionally, the loss of GSH was followed. In liposomes without added antioxidant, MDA levels of 119 ± 6 nmol/mg phospholipid were detected after incubation with AMVN for 2 h at 37°C. Considerably lower levels of 57 ± 8 nmol MDA/mg phospholipid were found when the liposomal vesicles had been loaded with GSH. Upon incorporation of β-carotene, lycopene or lutein, the resistance of unilamellar liposomes towards lipid peroxidation was further modified. An optimal further protection was observed with 0.02 nmol β-carotene/mg phospholipid or 0.06 nmol lycopene/mg phospholipid. At higher levels both these carotenoids exhibited prooxidant effects. Lutein inhibited lipid peroxidation in a dose-dependent manner between 0.02 and 2.6 nmol/mg phospholipid. With increasing levels of lycopene and lutein the consumption of encapsulated GSH decreased moderately, and high levels of β-carotene led to a more pronounced loss of GSH.

The data demonstrate that interactions between GSH and carotenoids may improve resistance of biological membranes towards lipid peroxidation. Different carotenoids exhibit specific properties, and the level for optimal protection varies between the carotenoids.  相似文献   

13.
Abstract

We describe the preparation of small unilamellar and multilamellar vesicles from hexadecylphosphocholine, cholesterol and 1,2-dipalmitoyl-sn-glycero-phosphoglycerol in the molar ratio 4/5/1. Particle size and chemical stability of two types of liposomes, small unilamellar vesicles and lyophilized, freshly resuspended multilamellar vesicles were proved to be stable for at least 12 months. Compared to hexadecylphosphocholine in free form, liposomal hexadecylphosphocholine showed remarkably reduced hemolysis which did not change during storage. Fluorescence microscopy showed the uptake of propidium iodide containing hexadecylphosphocholine liposomes by KB and MDA-MB 231 tumor cells. Free propidium iodide was not incorporated into these cells. Although cytotoxicity seemed to be reduced in liposomal preparations, hexadecylphosphocholine liposomes still affected cultured tumor cells to a great extent. In relatively low concentrations they induced shape alteration, smoothing of the cell surface and blebbing.  相似文献   

14.
Abstract

Our recent in vivo studies have investigated the surface adsorption property of various circulating liposomes to blood proteins, and have related this property to liposome clearance behavior. In particular, we have investigated liposomes composed of different charged or neutral lipids, fatty acyl chain length and saturation, and cholesterol content. From these studies an apparent inverse relationship between the amount of blood protein that associates with large unilamellar vesicles and the circulation half-lives of the liposomes is observed, indicating that protein-mediated liposome clearance mechanisms are dominant. Furthermore, by comparing the protein profiles of rapidly cleared liposomes with liposomes exhibiting enhanced circulation times, key blood proteins have been identified and implicated in the clearance process.  相似文献   

15.
Abstract

Permeabilization of phospholipid/sterol unilamellar vesicles by polyene antibiotics (amphotericin B and lucensomycin) was studied by measuring proton leakage with a pH-stat method. The percentage of proton release was directly related to the antibiotic concentration. Using ergosterol-containing vesicles, a relevant proton efflux was induced by micromolar concentrations of amphotericin B, whereas lucensomycin caused membrane permeabilization at higher concentrations (0.1 mM). Cholesterol-containing vesicles were less sensible to the lytic action of polyenes. When amphotericin B was carried in cholesterol-containing liposomes, the selectivity towards ergosterol-containing vesicles was enhanced. An increase in drug selectivity was also observed by dissolving amphotericin B in fresh human plasma. At concentrations one order of magnitude lower than those necessary to induce a detectable proton efflux, lucensomycin seemed to protect the vesicles from the subsequent permeabilizing action of amphotericin B.  相似文献   

16.
Abstract

Incorporation of the lipopolysaccharide (LPS) and polysaccharide (PS) from Aeromonas salmonicida into liposomes of varying lipid composition and lamellarity as a function of the LPS and PS concentration was investigated. Positively-charged multilamellar vesicles (MLV) composed of phosphatidylcholine (PC): cholesterol (CH): stearylamine (SA) (6:3:1, mole: mole: mole) incorporated the LPS more readily than negatively-charged liposomes composed of PC: CH: phosphatidylglycerol (PG) in the same molar ratios. Regardless of surface charge, more LPS was incorporated into MLV than into vesicles prepared by relatively mild sonication (SV) or large unilamellar vesicles prepared via extrusion through 200 nm pore size filters (LUVET200). In contrast, SV and LUVET200 incorporated more PS than did MLV. The total amount of liposomally-incorporated LPS or PS among the three vesicle types was proportional to the concentration of antigen in the hydrating solutions.  相似文献   

17.
Recently we have studied thermodynamics of membrane-mediated β-amyloid formation in equilibrium experiments using penetratin-lipid mixtures. The results showed that penetratin bound to the membrane interface in the α-helical conformation when the peptide/lipid (P/L) ratios were below a lipid-dependent critical value P/L. When P/L reached P/L, small β-aggregates emerged, which served as the nuclei for large β-aggregates. Here we studied the corresponding kinetic process to understand the potential barriers for the membrane-mediated β-amyloid formation. We performed kinetic experiments using giant unilamellar vesicles made of 7:3 DOPC/DOPG. The observed time behavior of individual giant unilamellar vesicles, although complex, exhibited the physical effects seen in equilibrium experiments. Most interestingly, a potential barrier appeared to block penetratin from translocating across the bilayer. As a result, the kinetic value for the critical threshold P/L is roughly one-half of the value measured in equilibrium where peptides bind symmetrically on both sides of lipid bilayers. We also investigated the similarity and differences between the charged and neutral lipids in their interactions with penetratin. We reached an important conclusion that the bound states of peptides in lipid bilayers are largely independent of the charge on the lipid headgroups.  相似文献   

18.
Human placental syncytiotrophoblast basal membrane plays an important role in transfer of nutrients from the mother to the growing fetus all throughout gestation. The membrane lipid composition together with the bilayer fluidity is found to be the major index in modulation of these transport processes. In the present study, the effects of changing lipid composition on the placental basal membrane fluidity and the modulating influence of the latter on membrane enzyme and transport functions with progress of gestation,were investigated. Steady-state fluorescence analysis using 1,6-diphenyl-1,3,5 hexatriene as the probe, indicated a decrease in fluorescence anisotropy of both labeled native membrane vesicles and liposomes prepared from lipids extracted from the basal membrane vesicles, signifying increased bilayer fluidity with progress of gestation. This in turn, was successfully correlated to the lowering of cholesterol content and enhanced phospholipid concentration with a steady decrease in cholesterol/phospholipid ratio during placental development. Enhanced Na+-K+-ATPase activity and steady-state glucose uptake across basal membrane with gestational progress suggested modulation of membrane protein functions by the fluidity, which was further corroborated by the increased bilayer fluidity and enzyme activity in benzyl alcohol treated basal membrane in each gestational age group.  相似文献   

19.
Lipid asymmetry, the difference in lipid distribution across the lipid bilayer, is one of the most important features of eukaryotic cellular membranes. However, commonly used model membrane vesicles cannot provide control of lipid distribution between inner and outer leaflets. We recently developed methods to prepare asymmetric model membrane vesicles, but facile incorporation of a highly controlled level of cholesterol was not possible. In this study, using hydroxypropyl-α-cyclodextrin based lipid exchange, a simple method was devised to prepare large unilamellar model membrane vesicles that closely resemble mammalian plasma membranes in terms of their lipid composition and asymmetry (sphingomyelin (SM) and/or phosphatidylcholine (PC) outside/phosphatidylethanolamine (PE) and phosphatidylserine (PS) inside), and in which cholesterol content can be readily varied between 0 and 50 mol%. We call these model membranes “artificial plasma membrane mimicking” (“PMm”) vesicles. Asymmetry was confirmed by both chemical labeling and measurement of the amount of externally-exposed anionic lipid. These vesicles should be superior and more realistic model membranes for studies of lipid-lipid and lipid-protein interaction in a lipid environment that resembles that of mammalian plasma membranes.  相似文献   

20.
The ADP/ATP Carrier (AAC) is the most abundant transporter of the mitochondrial inner membrane. The central role that this transporter plays in cellular energy production highlights the importance of understanding its structure, function, and the basis of its pathologies. As a means of preparing proteoliposomes for the study of membrane proteins, several groups have explored the use of cell-free translation systems to facilitate membrane protein integration directly into preformed unilamellar vesicles without the use of surfactants. Using AAC as a model, we report for the first time the detergent-free reconstitution of a mitochondrial inner membrane protein into liposomes using a wheat germ-based in vitro translation system. Using a host of independent approaches, we demonstrate the efficient integration of AAC into vesicles with an inner membrane-mimetic lipid composition and, more importantly, that the integrated AAC is functionally active in transport. By adding liposomes at different stages of the translation reaction, we show that this direct integration is obligatorily cotranslational, and by synthesizing stable ribosome-bound nascent chain intermediates, we show that the nascent AAC polypeptide interacts with lipid vesicles while ribosome-bound. Finally, we show that the presence of the phospholipid cardiolipin in the liposomes specifically enhances AAC translation rate as well as the efficiency of vesicle association and integration. In light of these results, the possible mechanisms of liposome-assisted membrane protein integration during cell-free translation are discussed with respect to the mode of integration and the role of specific lipids.  相似文献   

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