Synergistic effect of phospholipid-based liposomes and propylthiouracil on U-937 cell growth

Scientific evidence indicates that exogenous phospholipids in the form of liposomes can affect cell growth. Effects of liposomes on cell growth depend on several factors including composition of liposomes, lipid concentration, and type of cells studied. Because phagocytic cells such as monocytes and macrophages are natural targets of liposomes, intracellular delivery of drugs to modulate cellular activity of these cells is of interest. We explored the effects of phospholipid-based liposomes composed of soy bean phosphatidylcholine (PC) as the main lipid component on U-937 cell growth. Effects of charge-imposing lipids and cholesterol were also studied. In addition, we investigated whether phospholipid-based liposomes would exert any interaction on cell growth with propylthiouracil, a drug with known antiproliferative activity. We found that PC in the form of extruded liposomes had intrinsic antiproliferative activity on U-937 cells at concentrations of 200 microM and up without any appreciable cytotoxicity. Phosphatidylserine and phosphatidylglycerol, but not dicetlylphosphate, at 10 mol% increased growth retardation activity of PC liposomes. Cholesterol at 30 mol% did not have any effect on cell growth, except for liposomes composed of PC and phosphatidylserine, where growth retardation was negated in the presence of cholesterol. Synergistic effect on cell growth was seen with certain liposome compositions when 5.5 microg/mL of propylthiouracil was coincubated. The results of this study suggest that the effects of exogenous lipids on cell growth should be taken into consideration when PC-based liposomes are to be used as drug delivery systems, especially when the targets are cells with phagocytic activity.     

Differentiation in hepatic and splenic phagocytic activity during reticuloendothelial blockade with cholesterol-free and cholesterol-rich liposomes

We have shown earlier that liver and spleen reticuloendothelial cells have low affinity to phagocyte liposomes containing cholesterol. In the present study, we predosed mice with cholesterol-rich (identical to = 46.6 mol% cholesterol content) and cholesterol-free (identical to 0 mol%) liposomes to saturate the reticuloendothelial cells and examined the tissue distribution of the second dose of the test liposomes containing an aqueous marker, 125I-labelled poly(vinylpyrrolidone). The result shows that both preparations of the predosed liposomes caused suppression in hepatic uptake and delay in the blood clearance of the test liposomes, but the cholesterol-free liposomes were more effective in producing these effects than the cholesterol-rich liposomes. The suppression in hepatic phagocytic function, in accordance with the 'spillover' phenomenon [16, 17], caused an enhancement in spleen and lung uptake. The increase in lung uptake was proportionally related to the degree of suppression in the hepatic uptake, but the results of the splenic uptake showed some discrepancy. The predosed cholesterol-free liposomes which caused the maximum spillover of the test liposomes from the liver did not achieve maximum enhancement in the splenic uptake. Instead, the maximum enhancement was recorded with the predosed cholesterol-rich liposomes. This discrepancy in splenic uptake suggests that the predosed liposomes caused saturation of not only liver also the spleen reticuloendothelial system. However, instead of suppression in the splenic uptake due to the saturation, enhancement in uptake of the test liposomes was observed. We suggest the cause of this apparent increase the splenic phagocytic activity may be due to stimulation, by some unknown mechanism of splenic macrophages endothelial cells and/or lymphocytes, to phagocyte the excess of the test liposomes spillover from the liver with impaired phagocytic function.     

Induction of macrophage growth by lipids

Lipoproteins from ascitic tumors in mice and lipids extracted from these lipoproteins induced growth of murine peritoneal macrophages in vitro. The lipid components with activity were examined by use of lipid vesicles or liposomes. Liposomes prepared from egg-yolk PC alone did not induce macrophage growth, but those prepared from mixtures of egg-yolk PC and cholesterol or cholesteryl esters other than cholesteryl oleate, or triglycerides other than triolein, enhanced 3H-TdR incorporation into macrophages. The free fatty acids examined had no effect on 3H-TdR incorporation. These results suggest that growth of macrophages is induced by ordinary lipids present in lipoproteins or cell membranes that the macrophages scavenge in the body.     

Leishmanicidal activity of stearylamine-bearing liposomes in vitro

Liposomes consisting of stearylamine (SA) and egg yolk phosphatidylcholine (PC) were studied for their cytotoxic activity against freshly transformed promastigotes and intracellular amastigotes of Leishmania donovani, the causative agent of visceral leishmaniasis. More than 99% of the parasites of strain AG83 were killed within 60 min by treatment with 22 mol% SA-PC liposomes (132 microg/ml total lipids). This was further confirmed by incubating the liposome-treated promastigotes at 22 C for 96 hr. The killing activity of the liposomes progressively decreased with lowering lipid concentration. However, weak cytotoxic activity was still detected at 6.6 microg/ml lipids. Leishmanicidal activity of the liposomes became stronger with increasing SA content but was reduced with the incorporation of cholesterol in the liposomes. A similar cytotoxic effect was observed on other Indian strains of L. donovani, for example PKDL and DD8, as well as on species such as Leishmania donovani S1, Leishmania donovani infantum, Leishmania tropica, Leishmania amazonensis, and Leishmania mexicana. However, freshly transformed promastigotes appeared to be more susceptible than the ones subcultured. The strong leishmanicidal activity of SA-PC liposomes was also demonstrated toward intracellular L. donovani amastigotes. The SA-bearing vesicles could effectively inhibit the growth and multiplication of the parasites within the macrophages. The cytolytic activity of these liposomes on leishmanial parasites and low toxicity on host macrophages may, thus, find application in the therapy of leishmaniasis.     

Uptake of Archaeobacterial Liposomes and Conventional Liposomes by Phagocytic Cells

Abstract

Liposomes in the 200 nm size range were prepared from the ether lipids extracted from various Archaeobacteria (coined archaeosomes), and from conventional lipids. The entrapment of peroxidase or carboxyfluorescein was used to compare the in vitro uptake of various liposomes by murine peritoneal macrophages, J774A.1 macrophages and several non phagocytic cell lines. While liposomes composed of ester lipids dipalmitoylphosphatidylcholine, or dimyristoylphosphatidylcholine: dimyristoylphosphatidylglycerol: cholesterol (1.8:0.2:1.5, molar ratio) were taken up by macrophage species, the uptake of archaeosomes was 3 to 53 times greater. Uptake by non phagocytic HEp-2, HeLa, and EJ/28 cells was considerably less. Evidence from time-course studies using cytochalasins B+D, sub-optimal temperature or formaldehyde treatments of macrophages, indicated that the archaeosomes lost structural integrity following internalization within the J774A. 1 phagocytic cells. No cytotoxicity was observed in viability or growth assays with J774A. 1 cells, using high doses of three representative types of archaeosomes and one type of conventional-liposome. Therefore, archaeosomes may be well suited to applications where phagocytic cells are a target site.     

The role of surface charge in the activation of the classical and alternative pathways of complement by liposomes

We have studied the complement-activating properties of liposomes. We show that surface charge is a key determinant of complement-activating liposomes. The nature of the charge, whether negative or positive, appears to dictate which pathway of the complement system is activated. Phosphatidylcholine:cholesterol (PC:CHOL, 55:45 mol/mol) liposomes were made to exhibit a positive or negative surface charge by the addition of cationic or anionic lipids, respectively. Normal human or guinea pig serum was incubated with liposomes, followed by determining the residual hemolytic activity of the serum as a measure of complement activation. Negatively charged liposomes containing phosphatidyl-glycerol, phosphatidic acid, cardiolipin, phosphatidylinositol, or phosphatidylserine activated complement in a Ca(2+)-dependent manner suggesting activation occurred via the classical pathway. Positively charged liposomes containing stearylamine or 1,2-bis(oleoyloxy)-3-(trimethylammonio)propane activated complement via the alternative pathway. Neutral liposomes, PC:CHOL (55:45) and PC:CHOL:dipalmitoylphosphatidylethanolamine (35:45:20), failed to activate complement as measured by the hemolytic assays. We show that unsaturated liposomes are more potent complement activators than saturated liposomes and that 45 mol% cholesterol promotes complement protein-liposome interactions. Immunoblot analysis of phosphatidylglycerol-containing liposomes showed that C3b and C9 were associated with these liposomes. Thus, the complement consumption measured in the hemolytic assays represents active cleavage of the complement components and not passive adsorption to the liposome surface. These studies suggest that membranes composed of net charged phospholipids can activate the complement system. This observation underlines the importance in biologic membranes of complement regulatory proteins that protect normal cells from complement attack.     

Interferon gamma encapsulated into liposomes enhances the activity of monocytes and natural killer cells and has antiproliferative effects on tumor cells in vitro

The effects of human interferon gamma (IFN gamma) encapsulated into liposomes were investigated in vitro. Monocytes were induced to release a cytotoxic factor with either IFN gamma encapsulated into liposomes, free IFN gamma or lipopolysaccharide (LPS). If IFN gamma was applied in the liposomal form, less IFN activity was required to stimulate monocytes. Most of the cytotoxic factor was secreted during the first 4 h of stimulation. The cytotoxic factor in supernatants from PMNLs was completely neutralized by a monospecific polyclonal antiserum to tumor necrosis factor (TNF). Combining subthreshold doses of IFN gamma liposomes or IFN gamma with lipopolysaccharide synergistically enhanced the release of TNF. In fluorescence analysis, altered expression of the class II HLA-DR antigen on LeuM3 positive monocytes was induced with IFN gamma liposomes as well as with IFN gamma. Not only monocytes but also natural killer (NK) cells were stimulated to higher cytotoxicity by IFN gamma liposomes in a dose-dependent manner. In comparison with IFN gamma, the same amount of activity was necessary for adequate stimulation of NK-cells against the K562 target cells. Furthermore, the antiproliferative effects of IFN gamma liposomes and free IFN gamma on several human tumor cell lines was compared. Among several cell lines tested, U937 and A549 turned out to be sensitive to IFN gamma, and both cell lines reacted with 50% growth inhibition at a lower amount of gamma presented by liposomes than in the free form. These data show production of IFN gamma liposomes which possess immunomodulatory and antiproliferative activity in vitro. In several of the test systems studied, liposome-encapsulated IFN gamma was more effective than free IFN gamma.     

Involvement of mitogen-activated protein kinases in class B scavenger receptor type I-induced phagocytosis of apoptotic cells

Class B scavenger receptor type I (SR-BI) is a multiligand membrane protein expressed in a variety of cell types. This receptor is responsible for the incorporation of lipids from high density lipoprotein (HDL) by steroidogenic cells, as well as for the phosphatidylserine (PS)-mediated phagocytosis of apoptotic cells by some phagocytic cell types, such as testicular Sertoli cells. Although SR-BI directly binds to PS present on the surface of apoptotic cells, as to whether SR-BI transmits signals to induce engulfment has not been clear. In the present study, we examined this issue using a monoclonal antibody that neutralizes SR-BI activity and a chemical known to be an inhibitor of the SR-BI-mediated incorporation of HDL lipids. The chemical compound inhibited the incorporation of HDL lipids and PS-containing liposomes by an SR-BI-expressing culture cell line, with no effect on the binding of these targets. Similarly, the phagocytosis of PS-exposing apoptotic cells by primary cultured rat Sertoli cells was inhibited in the presence of either reagent, not at the recognition but at the engulfment step. The addition of apoptotic cells or PS-containing liposomes caused a temporal increment of the phosphorylation of all three mitogen-activated protein kinases, p38, extracellular-signal-regulated kinase (ERK) and c-Jun amino-terminal kinase (JNK), in Sertoli cells. The increase of phosphorylated p38 and ERK, but not of phosphorylated JNK, was cancelled in the presence of the monoclonal antibody. Furthermore, the level of Sertoli cell phagocytosis of PS-exposing apoptotic cells, as well as that of PS-containing liposomes, was reduced only when the actions of p38 and ERK were simultaneously repressed. In conclusion, these results indicate that SR-BI, when it binds to PS, transmits signals to activate the mitogen-activated protein kinase pathway, which leads to the induction of the engulfment of PS-exposing apoptotic cells by phagocytic cells.     

Molecular probes for sensing the cholesterol composition of subcellular organelle membranes

Neuroendocrine cells contain two types of secretagogue-regulated acidic compartments: secretory granules (SGs) and synaptic-like microvesicles (SLMVs), which can be identified by acidotropic probes such as acridine orange (AO) and DAMP. We investigated the accumulation of these probes in SGs and SLMVs as a function of glucose levels in the culture media using a pancreatic beta-cell line MIN6. AO was accumulated in the low-glucose condition, but not in the high-glucose condition. The AO accumulation correlated well with the SLMV dynamics by glucose and DAMP was localized in the SGs. Because SG membranes are reportedly high in cholesterol, we prepared liposomes with increasing cholesterol levels. AO is well incorporated into liposomes having a 20 to 40 mol% cholesterol composition, whereas DAMP was so in those having over 40 mol% cholesterol levels. Indeed, when cholesterol was depleted from MIN6 SG membranes, DAMP incorporation decreased, instead AO was incorporated. In PC12 cells, AO incorporation into SGs was significant but DAMP incorporation was limited. Consistently, the cholesterol composition was found 37 to 39 mol% in the SG membrane of PC12 cells. We suggest that cholesterol-sensing probes, AO and DAMP, are useful tools for investigating cholesterol compositions in acidic organelle membranes.     

Changes in the morphology of cell-size liposomes in the presence of cholesterol: Formation of neuron-like tubes and liposome networks

Spontaneous changes in the morphology of cell-size liposomes (dioleoylphosphatidylcholine, DOPC and egg PC) as model cells were investigated in the presence of cholesterol. Tube structures and liposome networks connected by the tubes were observed in the presence of 5-30% cholesterol by dark-field and laser-scanning microscopy. Furthermore, in the presence of more than 40 mol% of cholesterol, the tubes disappeared and changed to small liposomes. Thus, cholesterol induced a morphological change in giant liposomes from tubes to small liposomes. These phenomena may be related to the role of cholesterol in the morphological changes in living cells such as neurons.     

Changes in the morphology of cell-size liposomes in the presence of cholesterol: formation of neuron-like tubes and liposome networks

Spontaneous changes in the morphology of cell-size liposomes (dioleoylphosphatidylcholine, DOPC and egg PC) as model cells were investigated in the presence of cholesterol. Tube structures and liposome networks connected by the tubes were observed in the presence of 5-30% cholesterol by dark-field and laser-scanning microscopy. Furthermore, in the presence of more than 40 mol% of cholesterol, the tubes disappeared and changed to small liposomes. Thus, cholesterol induced a morphological change in giant liposomes from tubes to small liposomes. These phenomena may be related to the role of cholesterol in the morphological changes in living cells such as neurons.     

Comparison of steady-state fluorescence polarization and urea permeability of phosphatidylcholine and phosphatidylsulfocholine liposomes as a function of sterol structure

The well-known reduction in the permeability properties of liposomes of dimyristoylphosphatidylcholine (DMPC) by sterols has also been demonstrated for its sulfonium analog (DMPSC) in which the N+(CH3)3 group of choline is replaced by S+(CH3)2. We have now compared the effects of 25 mol% 24-methylenecholesterol and cholesterol on the initial rates of urea permeation into dipalmitoyl-PC (DPPC) and dipalmitoyl-PSC (DPPSC) liposomes above the gel-to-liquid-crystalline phase transition temperature and found a greater reduction with 24-methylenecholesterol/DPPSC than with cholesterol/DPPSC liposomes but little difference between the two sterols in DPPC liposomes. Fluorescence polarization studies, using diphenylhexatriene as a probe, show that polarization (P) values are considerably higher in DMPSC liposomes containing 20 and 30 mol% 24-methylenecholesterol than in DMPC liposomes containing 20 and 30 mol% cholesterol. Higher P values were also obtained in DMPSC liposomes containing other 24-alkyl-substituted sterols (beta-sitosterol, ergosterol and campesterol) than in DMPC liposomes containing the same sterols. Reduced permeability rates in PSC liposomes containing 24-alkyl-substituted sterols are correlated with higher polarization values, reflecting an increased degree of order and/or motion in these liposomes compared with liposomes from the corresponding PC. These results suggest that alkyl substitution at C-24 of the sterol molecule results in tighter interactions with the sulfonium analog of PC than with PC.     

Liposomalization of lactoferrin enhanced its anti-tumoral effects on melanoma cells

A number of studies have reported the anti-tumoral activity of lactoferrin, a property mediated by a variety of mechanisms such as inhibitory effects on tumor cell growth, NK cell activation, and enhancement of apoptosis. Liposomes are known to be an efficient drug delivery system which can enhance the therapeutic potential of the encapsulated compounds. We have used positively charged liposomes composed of phosphatidylcholine (PC), dioleoylphosphatidylethanolamine (DOPE), cholesterol (Chol) and stearylamine (SA) (6:1:2:1 M ratio) as a carrier system for bovine iron-free Lf (ApoBLf), and compared the in vitro effect of free and liposome-entrapped ApoBLf on the growth and morphology of murine melanoma B16-F10 cells. Liposomal formulation of ApoBLf was found to enhance the capacity of the protein to inhibit the cell proliferation by affecting cell cycle progression. The effect appeared to be due to the capacity of liposomes to increase the uptake of the protein and its accumulation into cells and probably to protect it from degradation, as revealed by fluorescence microscopy and flow cytometry. Our results demonstrate the ability of liposomes to improve the anti-tumor activity of Lf and suggest that liposomal protein may have a potential therapeutic use in the prevention and/or treatment of cancer diseases.     

Cholesterol is required for the reconstruction of the sodium- and chloride-coupled, gamma-aminobutyric acid transporter from rat brain

The reconstruction of the purified sodium- and chloride-coupled gamma-aminobutyric acid transporter from rat brain into asolectin liposomes requires the addition of brain lipids (Radian, R., and Kanner, B. I. (1985) J. Biol. Chem. 260, 11859-11865). The reconstitution assay was used to identify the component(s) from brain lipids responsible for the stimulation during the fractionation of brain lipids. The distribution of the active component was found to be similar to that of cholesterol. Furthermore, cholesterol was found to mimic the effect of brain lipids and it stimulated the transport activity up to 20-fold. Optimal reconstituted transport activity was achieved with mixtures of cholesterol and any one of several phospholipids, such as phosphatidylcholine, phosphatidylserine or phosphatidylglycerol. gamma-Aminobutyric acid transport in these liposomes of defined composition exhibited all the properties of the native transporter, such as the absolute dependence on sodium and chloride and electrogenicity. Cholesterol could not be replaced by cholest-4-en-3one and other steroids, and thus its effect is probably not due to effects on membrane fluidity. The requirement was also not due to effects on intactness of the liposomes or incorporation of proteins into them. Furthermore it was found that the reconstitution of the sodium and potassium coupled L-glutamic acid transporter from rat brain also required cholesterol. However, in this case the optimal activity was reached by 4-5-fold lower levels of cholesterol than those necessary for gamma-aminobutyric acid transport. When cholesterol depletion from the transporters was incomplete, addition of exogenous brain lipids was not required. Thus, if the cholesterol was still associated with the transporter proteins, its final concentration, as a fraction of the total lipids present in the reconstitution mixture, was only about 0.01 mol%. Thus, it is likely that the effects of cholesterol are due to direct interactions with the cotransporters and not to an average effect on membrane properties.     

The effect of 25-hydroxycholesterol on accumulation of intracellular calcium.

Liposomes prepared with 25-hydroxycholesterol and egg phosphatidylcholine (PC) were incubated with bovine arterial smooth muscle cells for 8 h at 37 degrees C. Cells incubated in the absence of liposomes or with liposomes containing cholesterol and PC were used as controls. The results indicated that calcium accumulated in the smooth muscle cells incubated in the presence of 25-hydroxycholesterol containing liposomes in an amount proportional to the time of incubation. The calcium accumulation, as indicated by kinetic analysis, resulted from an increased compartment size. (Ca(2+)+Mg2+)-ATPase exhibited decreased activity after pretreatment with 25-hydroxycholesterol containing liposomes and the increased intracellular calcium content was directly proportional to the decreased (Ca(2+) + Mg2+)-ATPase activity. When lipids in the cell membrane were examined, a failure to change the cholesterol/phospholipids ratio in the membrane was noted. The 25-hydroxycholesterol content in the membrane determined by HPLC did not increase. An increase in sphingomyelin and a decrease in phosphatidylethanolamine and acidic phospholipids in the membrane was noted. We suggest that the accumulation of intracellular calcium comes from both an increase of calcium influx and a decrease of (Ca(2+) + Mg2+)-ATPase activity, which may be the consequence of changes in membrane phospholipid composition.     

Effects of combinations of transforming growth factor-beta 1 and tumor necrosis factor on induction of differentiation of human myelogenous leukemic cell lines

Effects of transforming growth factor-beta 1 (TGF-beta 1), either alone or in combination with TNF, on the induction of differentiation of human myelogenous leukemic cell lines were examined. TGF-beta 1 alone induced differentiation of a human monocytic leukemia U-937 line into the cells with macrophage characteristics. When combined with TNF, TGF-beta 1 synergistically or additively induced differentiation associated properties. A human myeloblastic leukemia cell line, ML-1, differently responded to TGF-beta 1 in induction of differentiation. FcR activity and phagocytic activity induced by TNF were suppressed by TGF-beta 1. However, nitroblue tetrazolium reducing activity was synergistically induced by combinations of TGF-beta 1 and TNF. Scatchard analysis of TNF receptors indicated that the number of binding sites and dissociation constant of TNF for its receptors on U-937 or ML-1 cells were not changed by treatment with TGF-beta 1. Although IFN-gamma, IL-6, granulocyte CSF, and granulocyte-macrophage CSF-induced nitroblue tetrazolium reducing activity of U-937 cells, only IFN-gamma, and TNF induced it synergistically in combination with TGF-beta 1. Synergism between TGF-beta 1 and TNF was also observed in inhibition of growth of U-937 and ML-1 cells. Although TGF-beta 1 induction of differentiation of other monocytoid leukemic THP-1 cells was similar to that of U-937 cells, TGF-beta 1 only slightly induced differentiation of promyelocytic leukemic HL-60 cells, either alone or in combination with TNF. Our observations indicate that TGF-beta 1 strongly modulates differentiation and proliferation of human myelogenous leukemia cells, macrophage precursors.     

The relationship between plasma membrane lipid composition and physical-chemical properties. III. Detailed physical and biochemical analysis of fatty acid-substituted EL4 plasma membranes

Murine leukemia EL4 cells were modified by supplementation of culture media with fatty acids for 24 h. A plasma membrane-enriched fraction was prepared from substituted and normal cells. Analyses were performed to determine fatty acyl composition, phospholipid headgroup composition and cholesterol content. The two major membrane phospholipids, phosphatidylethanolamine (PE) and phosphatidylcholine (PC) were isolated by thin-layer chromatography and ESR measurements were done on liposomes prepared from these lipids as well as on the intact plasma membrane preparations. Slight perturbations in overall plasma membrane lipid composition were observed when EL4 cells were supplemented with a single exogenous fatty acid. This may be consistent with the idea that the incorporation of exogenous fatty acid induces compensatory changes in membrane lipid composition. On the other hand, we observed no significant difference in two ESR motional parameters between the unsubstituted control and various fatty acid-substituted plasma membranes. ESR measurements carried out on PE and PC liposomes derived from 17:0- and 18:2c-substituted membranes also failed to detect major differences between these liposomes and those made from normal EL4 phospholipids. In the case of liposomes prepared from 18:2t,-substituted membranes, the order parameter was significantly changed from the normal. However, the change was in opposite directions in PE and PC, perhaps accounting for the fact that no change parameter is seen in intact 18:2t-substituted plasma membrane. Measurements of order parameter (S) in mixed lipid vesicles showed that at up to 50 mol% mixture of a synthetic PC with plasma membrane PC, the value of S was only marginally different from that of the plasma membrane PC vesicles. We interpret these data as an indication that the two ESR parameters used are not sufficiently sensitive to detect changes due to modifications of the acyl chain composition of a complex biological membrane.     

Inhibitory effect of liposomes containing sulfatide or cholesterol sulfate on syncytium formation induced by bovine immunodeficiency virus-infected cells

The effect of galactocerebroside 3'-sulfate (sulfatide) or cholesterol sulfate on syncytium formation induced by bovine immunodeficiency virus (BIV)-infected cells was investigated in vitro. Sulfatide was purified from bovine brain and incorporated in liposomes which were composed of egg phosphatidylcholine (PC), cholesterol (Chol), and dipalmitoylphosphatidic acid (DPPA). Either sulfatide- or cholesterol sulfate-containing liposomes effectively prevented syncytium formation induced by BIV-infected cells, but the inhibitory effect of sulfatide alone on syncytium formation was low. On the other hand, neither liposomes containing galactocerebroside nor liposomes composed of egg PC, Chol, and DPPA had any effect on syncytium formation induced by BIV-infected cells. These results suggest that liposomes containing sulfatide or cholesterol sulfate are an efficient agent to inhibit syncytium formation induced by BIV-infected cells, and that sulfate residue might play an important role in the inhibition of syncytium formation.     

Phosphatidylcholine-rich acceptors, but not native HDL or its apolipoproteins, mobilize cholesterol from cholesterol-rich insoluble components of human atherosclerotic plaques

To examine the potential of high density lipoproteins (HDL) to ameliorate atherosclerotic plaques in vivo, we examined the ability of native HDL, lipid-free HDL apolipoproteins (apo HDL), cholesterol-free discoidal reconstituted HDL (R-HDL) comprised of apo HDL and phosphatidylcholine (PC) and PC liposomes to release cholesterol from cholesterol-rich insoluble components of plaques (ICP) isolated from atherosclerotic human aorta. Isolated ICP had a free cholesterol (FC) to phospholipid (PL) mass ratio (0.8-3.1) and a sphingomyelin (SPM) to PC mass ratio (1.2-4.2) that exceeded those of plasma membranes of cultured cells. Surprisingly, native HDL and its apolipoproteins were not able to release cholesterol from ICP. However, R-HDL and PC liposomes were effectively released cholesterol from ICP. The release of ICP cholesterol by R-HDL was dose-dependent and accompanied by the transfer of > 8 x more PC in the reverse direction (i.e., from R-HDL to ICP), resulting in a marked enrichment of ICP with PC. Compared to R-HDL, PC liposomes were significantly less effective in releasing cholesterol from ICP but were somewhat more effective in enriching ICP with PC. Native HDL was minimally effective in enriching ICP with PC, but became effective after prior in vitro enrichment of HDL with PC from multilamellar PC liposomes. The enrichment of ICP with PC resulted in the dissolution of cholesterol crystals on ICP and allowed the removal of ICP cholesterol by apo HDL and plasma. Our study revealed that the removal of cholesterol from ICP in vivo will be possible through a change in the level, composition, and physical state of ICP lipids mediated by PC-enriched HDL.     

The effects of charge and size on the interaction of unilamellar liposomes with macrophages

The effect of the positive surface charge of unilamellar liposomes on the kinetics of their interaction with rat peritoneal macrophages was investigated using three sizes of liposomes: small unilamellar vesicles (approx. 25 nm diameter), prepared by sonication, and large unilamellar vesicles (100 nm and 160 nm diameter), prepared by the Lipoprep dialysis method. Charge was varied by changing the proportion of stearylamine added to the liposomal lipids (egg phosphatidylcholine and cholesterol, molar ratio 10:2.5). Increasing the stearylamine content of large unilamellar vesicles over a range of 0-25 mol% enhanced the initial rate of vesicle-cell interaction from 0.1 to 1.4 microgram lipid/min per 10(6) cells, and the maximal association from 5 to 110 micrograms lipid/10(6) cells. Cell viability was greater than 90% for cells incubated with large liposomes containing up to 15 mol% stearylamine but decreased to less than 50% at stearylamine proportions greater than 20 mol%. Similar results were obtained with small unilamellar vesicles except that the initial rate of interaction and the maximal association were less sensitive to stearylamine content. The initial rate of interaction, with increasing stearylamine up to 25 mol%, ranged from 0.5 to 0.7 microgram lipid/min per 10(6) cells, and the maximal association ranged from 20 to 70 micrograms lipid/10(6) cells. A comparison of the number and entrapped aqueous volume of small and large vesicles containing 15 mol% stearylamine revealed that although the number of large vesicles associated was 100-fold less than the number of small vesicles, the total entrapped aqueous volume introduced into the cells by large vesicles was 10-fold greater. When cytochalasin B, a known inhibitor of phagocytosis, was present in the medium, the cellular association of C8-LUV was reduced approx. 25% but association of SUV increased approx. 10-30%. Modification of small unilamellar vesicles with an amino mannosyl derivative of cholesterol did not increase their cellular interaction over that of the corresponding stearylamine liposomes, indicating that cell binding induced by this glycolipid may be due to the positive charge of the amine group on the sugar moiety. The results demonstrate that the degree of liposome-cell interaction with macrophages can be improved by increasing the degree of positive surface charge using stearylamine. Additionally, the delivery of aqueous drugs to cells can be further improved using large unilamellar vesicles because of their greater internal volume. This sensitivity of macrophages to vesicle charge and size can be used either to increase or reduce liposome uptake significantly by this cell type