Serum-induced leakage of liposome contents

Efflux of contents from small unilamellar vesicles of various compositions, containing a highly quenched fluorescent compound (calcein, 175 mM) was determined as a function of temperature in the presence and absence of human serum. Efflux of calcein from the liposomes was monitored as an increase in fluorescence as calcein became dequenched upon release from the liposomes. The presence of serum significantly increased liposome leakage in all cases. Incorporation of increasing molar ratios of cholesterol into liposomes reduced leakage of calcein from liposomes incubated with buffer and with serum. Leakage was significantly faster from liposomes with an osmotic gradient across the membrane (higher inside) than from equiosmolar liposomes. The leakage of [¹⁴C]sucrose from egg lecithin liposomes at 37°C was also dramatically increased in the presence of serum.     

An increase in model lipid membrane fluidity as a result of local anesthetic action

The effect of local anesthetics on the permeability of phospholipid liposomes of different composition for calcein has been investigated. The local anesthetics tested included amides (lidocaine, prilocaine, mepivacaine, and bupivacaine) and esters (benzocaine, procaine, and tetracaine). The permeability of large monolamellar liposomes was assessed by monitoring the fluorescence of calcein leaking from the phospholipid vesicles. All tested amide anesthetics exerted negligible effects on the permeability of dioleylphosphocholine (DOPC) liposomes for the fluorescent marker. The most efficient in this group was did bupivacaine. Amides had a more pronounced effect on membranes in which 20 mol % of DOPC was replaced by tetraoleoylcardiolipin (TOCL). Benzocaine and procaine at concentration up to 100 mM did not affect the permeability of DOPC liposomes. Membrane permeability of DOPC liposomes was not affected by the addition of tetracaine to the final concentration of 2 mM, while the increase of anesthetic concentration up to 50 mM was accompanied by an increase in the intensity of fluorescence of calcein released from the vesicles, and addition of the anesthetic to the concentration of 100 mM caused by complete release of the marker incorporated by the liposomes. The threshold concentration of tetracaine initiating calcein leakage from vesicles that contained 20 mol % TOCL was 7 mM, and the concentration corresponding to 100% calcein leakage was 20 mM. Confocal fluorescence microscopy of giant monolamellar liposomes formed from an equimolar mixture of DOPC and tetramiristoylcardiolipin demonstrated the destruction of solid ordered domains at the presence of anesthetics, and its destructive capacity increasing in the following order: procaine ≈ mepivacaine < bupivacaine ? tetracaine. Variability of the depth of anesthetic incorporation into the membrane may account for the dissimilar effects of local anesthetics on liposomes.     

Efficient cytoplasmic delivery of a fluorescent dye by pH-sensitive immunoliposomes

We previously showed that liposomes composed of dioleoylphosphatidyl-ethanolamine and palmitoyl-homocysteine (8:2) are highly fusion competent when exposed to an acidic environment of pH less than 6.5. (Connor, J., M. B. Yatvin, and L. Huang, 1984, Proc. Natl. Acad. Sci. USA. 81:1715-1718). Palmitoyl anti-H2Kk was incorporated into these pH-sensitive liposomes by a modified reserve-phase evaporation method. Mouse L929 cells (k haplotype) treated with immunoliposomes composed of dioleoylphosphatidylethanolamine/palmitoyl-homocysteine (8:2) with an entrapped fluorescent dye, calcein, showed diffused fluorescence throughout the cytoplasm. Measurements by use of a microscope-associated photometer gave an approximate value of 50 microM for the cytoplasmic calcein concentration. This concentration represents an efficient delivery of the aqueous content of the immunoliposome. Cells treated with immunoliposomes composed of dioleoylphosphatidylcholine (pH-insensitive liposomes) showed only punctate fluorescence. The cytoplasmic delivery of calcein by the pH-sensitive immunoliposomes could be inhibited by chloroquine or by incubation at 20 degrees C. These results suggest that the efficient cytoplasmic delivery involves the endocytic pathway, particularly the acidic organelles such as the endosomes and/or lysosomes. One possibility is that the immunoliposomes fuse with the endosome membranes from within the endosomes, thus releasing the contents into the cytoplasm. This nontoxic method should be widely applicable to the intracellular delivery of biomolecules into living cells.     

Improved Cytoplasmic Delivery to Plant Protoplasts via pH-Sensitive Liposomes

We demonstrated that the liposomes composed of dioleolylphosphatidylethanolamine/cholesterol/oleic acid (4:4:2) dramatically release their contents at a pH of less than or equal to 6.0 and are capable of delivering their contents into the cytoplasm of higher plant protoplasts. This is shown by using a soluble fluorescent dye, calcein, as a liposome-entrapped marker. We found that calcein fluorescence was evenly distributed in the cytoplasm of wild carrot protoplasts after the incubation of protoplasts with liposomes in the presence of polyethylene glycol 6000. At 0.45 micro mole phospholipid per 6 × 10⁵ protoplast, for example, the percentage of protoplasts which took up liposomes was 89% which was much higher than that achieved by conventional pH-insensitive liposomes. In this study, liposomes were prepared by a detergent dialysis method which avoided sonication and organic solvents. Thus macromolecules such as proteins and nucleic acids could be entrapped in the liposomes and delivered to the cytoplasm of the protoplasts.     

Tumor necrosis factor-induced permeability increase of negatively charged phospholipid vesicles

The effect of human tumor necrosis factor (TNF) on the permeability properties of liposomes containing phosphatidylserine at pH 5-6, as demonstrated by the calcein efflux. However, it did not induce any permeability change in such liposomes at neutral pH. The TNF-induced calcein efflux was also observed when an other acidic lipid was used as a component of the liposomes, i.e., phosphatidic acid or dicetyl phosphate. On the other hand, liposomes composed of neutral phospholipids such as phosphatidylcholine, phosphatidylethanolamine, and sphingomyelin showed little increases in permeability when incubated with TNF above pH 5.0. The TNF-induced permeability change was inhibited by the addition of polyaspartic acid, while it was not affected by the presence of 0.5 mM calcium ions. These data suggest that the negative charges on the liposomal surface trigger the interaction between TNF and liposomes. However, when the pH of the reaction mixture was decreased to 4.5, TNF-induced calcein efflux was observed even from neutral liposomes. When TNF was incubated with 8-anilinonaphthalene-1-sulfonic acid, the fluorescence intensity of this fluorophore increased with a decrease in the pH of the solution from 7 to 5, and a drastic increase in fluorescence was observed at pH 4.5. These data suggest that the hydrophobic region of TNF is also important for liposomal damage. Furthermore, the potencies of TNF and its derivative as to the induction of the permeability change paralleled their cytotoxic effects on mouse L929 cells, suggesting that the effect of TNF on liposomal membranes is related to its biological action.     

Hydrophilic fluorescein derivatives: useful reagents for liposome immunolytic assays

Hydrophilic derivatives of fluorescein containing hydroxyalkyl substituents were synthesized and encapsulated within liposomes. The fluorophores showed significantly more retention with time than did fluorescein, carboxyfluorescein, or calcein. Unlike calcein, the fluorophores are minimally susceptible to fluorescence quenching by Co2+. The utility of these compounds as immunodiagnostic reagents was demonstrated by encapsulating 5(6)-carboxyfluorescein trismethylolamide in haptenized liposomes which were used in an immunoassay for digoxin.     

Stability of diether C(25,25) liposomes from the hyperthermophilic archaeon Aeropyrum pernix K1

Temperature and pH effects were studied for stability, structural organization, fluidity and permeability of vesicles from a polar lipid methanol fraction isolated from the Aeropyrum pernix. We determined the permeability of C_25,25 liposomes using fluorescence intensity of released calcein. At pH 7.0 and 9.0, and from 85 °C to 98 °C, only 10% of entrapped calcein was released. After 10 h at 90 °C, calcein release reached 27%, independent of pH. Fluorescence anisotropy measurements of hydrophobic probe 1,6-diphenyl-1,3,5-hexatriene revealed gradual changes up to 60 °C. At higher temperatures, the anisotropy did not change significantly. Fluorescence alone did not provide detailed and direct structural information about these C_25,25 liposomes, so we used electron paramagnetic resonance spectroscopy (EPR) and differential scanning calorimetry (DSC). From EPR spectra, mean membrane fluidity determined according to maximal hyperfine splitting and empirical correlation times showed continuous increases with temperature. Computer simulation of EPR spectra showed heterogeneous membranes of these C_25,25 liposomes: at low temperatures, they showed three types of membrane regions characterized by different motional modes. Above 65 °C, the membrane becomes homogeneous with only one fluid-like region. DSC thermograms of C_25,25 liposomes reveal a very broad and endothermic transition in the temperature range from 0 °C to 40 °C.     

Pore formation and translocation of melittin.

Melittin, a bee venom, is a basic amphiphilic peptide, which mainly acts on the lipid matrix of membranes, lysing various cells. To elucidate the molecular mechanism, we investigated its interactions with phospholipid vesicles. The peptide formed a pore with a short lifetime in the membrane, as revealed by the release of an anionic fluorescent dye, calcein, from the liposomes. Our new double-labeling method clarified that the pore size increased with the peptide-to-lipid ratio. Upon the disintegration of the pore, a fraction of the peptides translocated across the bilayer. The pore formation was coupled with the translocation, which was proved by three fluorescence experiments recently developed by our laboratory. A novel model for the melittin pore formation was discussed in comparison with other pore-forming peptides.     

Extracellular Space Volume Measured by Two-Color Pulsed Dye Infusion with Microfiberoptic Fluorescence Photodetection

The extracellular space (ECS) is the aqueous matrix surrounding cells in solid tissues. The only method to measure ECS volume fraction (α) in vivo has been tetramethylammonium iontophoresis, a technically challenging method developed more than 25 years ago. We report a simple, quantitative method to measure α by microfiberoptic fluorescence detection of a self-quenched green dye, calcein, and a reference red dye, sulforhodamine 101, after pulsed iontophoretic infusion. The idea is that the maximum increase in calcein fluorescence after iontophoresis is proportional to the aqueous volume into which the dye is deposited. We validated the method theoretically, and experimentally, using cell-embedded gels with specified α and ECS viscosity. Measurements in living mice gave α of 0.20 ± 0.01 in brain, 0.13 ± 0.02 in kidney and 0.074 ± 0.01 in skeletal muscle. The technical simplicity of the ”pulsed-infusion microfiberoptic photodetection” method developed here should allow elucidation of the relatively understudied biological roles of the ECS.     

Single giant unilamellar vesicle method reveals effect of antimicrobial peptide magainin 2 on membrane permeability

It is thought that magainin 2, an antimicrobial peptide, acts by binding to lipid membranes. Recent studies using a suspension of large unilamellar vesicles (LUVs) indicate that magainin 2 causes gradual leakage from LUVs containing negatively charged lipids. However, the details of the characteristics of the membrane permeability and the mechanism of pore formation remain unclear. In this report, we investigated the interaction of magainin 2 with single giant unilamellar vesicles (GUVs) composed of a dioleoylphosphatidylcholine and dioleoylphosphatidylglycerol mixture (50% DOPG/50% DOPC GUVs) containing the fluorescent dye, calcein, by phase contrast, fluorescence microscopy using the single GUV method. Low concentrations (3-10 microM) of magainin 2 caused the rapid leakage of calcein from single GUVs but did not disrupt the liposomes or change the membrane structure, showing directly that magainin 2 forms membrane pores through which calcein leaked. The rapid leakage of calcein from a GUV started stochastically, and once it began, the complete leakage occurred rapidly (6-60 s). The fraction of completely leaked GUV, P(L), increased with time and also with an increase in magainin 2 concentration. Shape changes in these GUVs occurred prior to the pore formation and also at lower concentrations of magainin 2, which could not induce the pore formation. Their analysis indicates that binding of magainin 2 to the external monolayer of the GUV increases its membrane area, thereby raising its surface pressure. The addition of lysophosphatidylcholine into the external monolayer of GUVs increased P(L). On the basis of these results, we propose the two-state transition model for the pore formation.     

Sendai virus induced leakage of liposomes containing gangliosides

Sendai virus induced liposome leakage has been studied by using liposomes containing a self-quenching fluorescent dye, calcein. The liposomes used in this study were prepared by a freeze and thaw method and were composed of phosphatidylcholine, phosphatidylserine, and phosphatidylethanolamine (1:2.60:1.48 molar ratio) as well as various amounts of gangliosides and cholesterol. The leakage rate was calculated from the fluorescence increment as the entrapped calcein leaked out of the liposomal compartment and was diluted into the media. It was shown that the target liposome leakage was virus dose dependent. Trypsin-treated Sendai virus in which the F protein had been quantitatively removed did not induce liposome leakage, indicating that the leakage was a direct result of F-protein interaction with the target bilayer membrane. The activation energy of this process was approximately 12 kcal/mol below 17 degrees C and approximately 25 kcal/mol above 17 degrees C. Gangliosides GM1, GD1a, and GT1b could serve as viral receptor under appropriate conditions. Liposome leakage showed a bell-shaped curve dependence on the concentration of ganglioside in the liposomes. No leakage was observed if the ganglioside content was too low or too high. Inclusion of cholesterol in the liposome bilayer suppressed the leakage rate of liposomes containing GD1a. It is speculated that the liposome leakage is a consequence of fusion between Sendai virus and liposomes.     

Fusogenic potential of sperm membrane lipids: nature's wisdom to accomplish targeted gene delivery

The membrane-membrane fusion during fertilization of oocyte by spermatozoa is believed to be mainly mediated by so called "fusion proteins". In the present study we have tried to demonstrate that beside the proteins, lipid components of membrane may play an important role in fusion of oocyte with spermatozoa. Conventional membrane-membrane fusion assays were used as means to demonstrate fusogenic potential of human sperm membrane lipids. The liposomes (spermatosomes) made of the lipids isolated from sperm membrane were found to undergo strong membrane-membrane fusion as evident from fluorescence dequenching and resonance energy transfer assays. Furthermore, the fusion of these liposomes with living cells (J774 A.1 macrophage cell line) was demonstrated to result in an effective transfer of a water-soluble fluorescent probe (calcein) to cytosol of the target cell. Lastly, the liposomes were demonstrated to behave like efficient vehicles for the in vivo cytosolic delivery of the antigens to target cells resulting in elicitation of antigen specific CD8(+) T cell responses.     

Liposome-mediated DNA transfer in eukaryotic cells: Dependence of the transfer efficiency upon the type of liposomes used and the host cell cycle stage

The pBR322 plasmid containing the sequence encoding β-lactamase, the enzyme conferring resistance to ampicillin, was encapsulated in liposomes of different phospholipid composition and incubated with synchronized cells. In mitotic cells as compared to cells synchronized in G₁, twice as many exogeneous DNA molecules were found associated with the cell nuclear DNA, when fluid, neutral liposomes were used. These liposomes are taken up by the cells mainly via endocytosis. When fluid, negatively charged liposomes were used as carriers about the same number of exogeneous DNA molecules were found associated with the nuclear DNA both in mitotic and in G₁-synchronized cells. The efficiency for gene transfer of liposomes entering the cells by different mechanisms was further studied and expressed both by the fraction of the radioactive plasmid associated with the nuclear DNA and by the level of the β-lactamase activity detected in the transfected cells. It appears that liposomes entering the cells mainly via an energy-dependent mechanism are more efficient for this type of DNA transfer.     

脂质体通透性与脂多型性关系的研究

本文以TPE和TPE/DOPE(1:1.mol:mol)制成包裹荧光分子calcein的脂质体,通过测量荧光强度随扫描温度的变化,探讨了脂质体通透性与脂多型性之间的关系.结果表明,在不发生双层相(L)变成六角形Ⅱ相(H)相转变时,脂质体悬液的荧光强度不增加;当发生该转变时,脂质体悬液的荧光强度开始增加;完成该相转变后,脂质体悬液的荧光强度仍继续增加.据此,我们认为:脂质体的通透性与脂的多型性密切相关,当发生L→HⅡ相转变时,脂质体的通透性增加.由于荧光强度的变化对相变非常敏感,我们建议用测量脂质体荧光强度随温度的变化来监测脂质体稀悬液中脂的多型性.     

Characterization of a fluorescence assay to monitor changes in the aqueous volume of lipid vesicles

The fluorescent compound, 4',5'-bis[N,N-bis(carboxymethyl)aminomethyl] fluorescein (calcein) has been characterized for use in lipid vesicle studies. Particularly useful is its reaction with Co2+, which results in fluorescence quenching. This is accompanied by about a 10-nm blue shift in the uv absorbance bands and a small reduction in the visible absorbance band. For vesicle studies, Co2+ may be combined with citrate, which does not significantly hinder calcein quenching by Co2+. It does augment the absorbance of the metal ion. No significant interaction of citrate X Co2+ with phosphatidylserine vesicles was observed. Zn2+ is capable of displacing Co2+ and restoring calcein fluorescence. Fluorescence quenching due to formation of the calcein X Co2+ complex can also be reversed with EDTA. Thus, calcein is the basis of some simple reactions which can be used to assay changes in the aqueous volume of lipid vesicles.     

Femtoliter compartment in liposomes for in vitro selection of proteins

The aqueous compartment in liposomes provides a reaction resembling the cell and therefore is used as a microcompartment in which to study enzymatic reactions. However, regardless of their method of preparation, the heterogeneity in size of cell-size liposomes limits their potential uses. We established a strategy to estimate the internal aqueous volume of cell-size liposomes using a fluorescence-activated cell sorter (FACS). Reactions inside individual liposomes can be measured in a high-throughput format provided that the encapsulated proteins give rise to a fluorescent signal such as by exhibiting fluorescence themselves or by catalyzing production of a fluorescent compound. The strategy of volume estimation was applied to in vitro selection experiments. The green fluorescent protein (GFP) gene was encapsulated into liposomes together with an in vitro translation system. Here liposomes carrying a single copy of the gene were identified using the internal aqueous volume information of individual liposomes, and those exhibiting higher green fluorescence intensity were sorted by the FACS machine. This system was able to enrich those encoding GFP with higher fluorescence intensity over those with lower intensity. These results suggest the possibility of performing evolutionary experiments in an environment that mimics the cell.     

荧光脂质体导入黄瓜悬浮细胞原生质体的研究

用“脱水再加水法”制成包裹荧光黄的脂质体,通过PEG诱导融合或保温共培养法,成功地将脂质体导入了黄瓜悬浮细胞原生质体。PEG处理组摄入脂质体的细胞可达80—90%,其中50—60%的细胞荧光较强,均匀一致。脂质体/原生质体保温共培养半小时,荧光细胞达95%以上,荧光较弱,在细胞中呈点状分布,3—4天后脂质体逐渐破裂,点状荧光变为均匀一致的荧光。导入荧光黄脂质体的原生质体经持续分裂形成愈伤组织和胚状体,进一步分化出芽和根。     

Properties of nonfused liposomes immobilized on an L1 Biacore chip and their permeabilization by a eukaryotic pore-forming toxin

The L1 chip is used intensively for protein-membrane interaction studies in Biacore surface plasmon resonance systems. The exact form of captured lipid membranes on the chip is, however, not precisely known. Evidence exists that the vesicles both remain intact after the binding to the chip and fuse to form a large single-bilayer membrane. In this study, we were able to bind up to approximately 11,500 resonance units of zwitterionic liposomes (100 nm in diameter) at a low flow rate. We show by fluorescence microscopy that the entire surface of the flow cell is covered homogeneously by liposomes. Negatively charged vesicles (i.e., those composed of phosphatidylcholine/phosphatidylglycerol [1:1]) always deposited less densely, but we were able to increase the density slightly with the use of calcium chloride that promotes fusion of the vesicles. Finally, we used zwitterionic liposomes loaded with fluorescent probe calcein to show that they remain intact after the capture on the L1 chip. The fluorescence was lost only after we used equinatoxin, a well-studied pore-forming toxin, to perform on-chip permeabilization of vesicles. The characteristics of permeabilization process for chip-immobilized liposomes are similar to those of liposomes free in solution. All results collectively suggest that liposomes do not fuse to form a single bilayer on the surface of the chip.     

抗菌肽BF2-A/B对细菌表面特性的影响及与脂质体的相互作用

研究抗菌肽BuforinⅡ的衍生肽BF2-A/B对细菌表面特性的影响,以及与脂质体的作用模式。Zeta电位仪和十六烷萃取法检测发现BF2-A/B作用G-菌和G+菌后,能够提高细胞表面电负性和疏水性。选用卵磷脂和心磷脂制备包裹钙黄绿素的脂质体,模拟细菌胞膜,考察发现BF2-A/B能够引起荧光素从脂质体中泄漏,BF2-B对膜的扰动作用更大,引起的泄漏率比BF2-A高,但它们都不破裂脂质体膜。用FITC标记衍生肽,研究发现加入脂质体后,FITC-肽荧光光谱蓝移,量子产率增大,并且脂质体保护FITC-肽免受丙烯酰胺的荧光淬灭,说明BF2-A/B的N-端插入了脂质体的磷脂双分子层中。     

Fusion of alphaviruses with liposomes is a non-leaky process

It has been reported that low-pH-induced fusion of influenza virus with liposomes results in rapid and extensive release of both low- and high-molecular-weight substances from the liposomes [Günther-Ausborn et al., J. Biol. Chem. 270 (1995) 29279-29285; Shangguan et al., Biochemistry 35 (1996) 4956-4965]. Here, we demonstrate retention of encapsulated water-soluble compounds during fusion of Semliki Forest virus (SFV) or Sindbis virus with liposomes at low pH. Under conditions allowing complete fusion of the liposomes, a limited fluorescence dequenching of liposome-encapsulated calcein was observed, particularly for SFV. Also, radioactively labeled inulin or sucrose were largely retained. Freezing and thawing of the viruses in the absence of sucrose resulted in an enhanced leakiness of fusion. These results support the notion that the alphavirus fusion event per se is non-leaky and may well involve a discrete hemifusion intermediate.