Induction of a cytotoxic T lymphocyte (CTL) response to plasmid DNA delivered via Lipodine liposomes

We have previously shown that liposome-mediated plasmid DNA immunisation may be a preferred alternative to the use of naked DNA. Lipodine DNA formulations consist of liposomes containing entrapped DNA plasmid by the dehydration-rehydration (DRV) method. Such liposome formulations are distinct from liposomes with externally complexed DNA in that the majority of the DNA is "internal" to the liposome structure and hence protected from DNAase degradation. Previous studies on the immune response induced by DNA vaccines entrapped in Lipodine have focused on the humoural response. In the present study, we have expanded the analysis profile in order to include the cytotoxic T lymphocyte (CTL) component of the immune response. We have analysed the immune response induced by DNA entrapped in Lipodine compared to that induced by DNA alone when delivered subcutaneously, a route of administration not normally inducing significant plasmid DNA mediated immune activation. Our results indicate that delivery of a small dose of plasmid DNA in Lipodine results in an improved antibody response to the plasmid encoded antigen and a strong antigen specific CTL response compared to that induced by DNA delivered alone.     

Interactions of antigen-sensitized liposomes with immobilized antibody: a homogeneous solid-phase immunoliposome assay

Dioleoyl phosphatidylethanolamine (DOPE) does not form stable bilayer liposomes at room temperature and neutral pH. However, stable unilamellar liposomes could be prepared by mixing DOPE with a minimum of 12% of a haptenated lipid, N-(dinitrophenylaminocaproyl)-phosphatidylethanolamine (DNP-cap-PE). When the liposomes bound to rabbit anti-DNP IgG that had been adsorbed on a glass surface, lysis of the liposome occurred with the release of the contents into the medium as judged by the fluorescence enhancement of an entrapped self-quenching dye, calcein. On the other hand, incubation of the same liposomes with glass surfaces coated with normal rabbit IgG had little effect. In addition, free anti-DNP IgG induced aggregation of the liposomes but did not cause any dye release. Liposomes composed of dioleoyl phosphatidylcholine (DOPC) and DNP-cap-PE did not lyse when added to the glass surfaces coated with either anti-DNP IgG or normal IgG. A likely mechanism for liposome lysis is that the DNP-cap-PE laterally diffuse to the contact area between the liposome and the glass. Binding of the haptenated lipid with the immobilized and multivalent antibody trap the haptenated lipids in the contact area. As a result of lateral phase separation, lipids may undergo the bilayer to hexagonal phase transition, leading to the leakage of the entrapped dye. Because both the free hapten and the free antibody inhibited the liposome leakage, this process could be used to assay for the free hapten or antibody. We have shown that inhibition assays performed by using this principle can easily detect 10 pmol of free DNP-glycine in 40 microliter. Furthermore, by substituting human glycophorin A, a transmembrane glycoprotein, for the lipid hapten, we have demonstrated that this assay system is also applicable to detect protein antigen with a sensitivity of sub-nanogram level.     

INDUCTION OF A CYTOTOXIC T LYMPHOCYTE (CTL) RESPONSE TO PLASMID DNA DELIVERED VIA LIPODINE™ LIPOSOMES*

ABSTRACT

We have previously shown that liposome-mediated plasmid DNA immunisation may be a preferred alternative to the use of naked DNA. Lipodine? DNA formulations consist of liposomes containing entrapped DNA plasmid by the dehydration–rehydration (DRV) method. Such liposome formulations are distinct from liposomes with externally complexed DNA in that the majority of the DNA is “internal” to the liposome structure and hence protected from DNAase degradation. Previous studies on the immune response induced by DNA vaccines entrapped in Lipodine? have focused on the humoural response. In the present study, we have expanded the analysis profile in order to include the cytotoxic T lymphocyte (CTL) component of the immune response. We have analysed the immune response induced by DNA entrapped in Lipodine? compared to that induced by DNA alone when delivered subcutaneously, a route of administration not normally inducing significant plasmid DNA mediated immune activation. Our results indicate that delivery of a small dose of plasmid DNA in Lipodine? results in an improved antibody response to the plasmid encoded antigen and a strong antigen specific CTL response compared to that induced by DNA delivered alone.     

Preparation and characterization of heat-sensitive immunoliposomes

Immunoliposomes able to bind specifically to target cells and to release their encapsulated contents upon brief heating were prepared. Monoclonal anti-H2Kk was covalently derivatized with palmitic acid by the method of Huang, A. et al. (Huang, A., Tsao, Y.S., Kennel, S.J. and Huang, L. (1982) Biochim. Biophys. Acta 716, 140-150). The palmitoyl antibody was injected at a controlled rate into a suspension of fused unilamellar dipalmitoylphosphatidylcholine liposomes maintained at a constant temperature. The final protein-to-lipid ratio of the resultant liposomes with incorporated antibody (immunoliposomes) was dependent upon the rate of antibody injection and the lipid concentration. Injection of palmitoyl antibody into a liposome suspension containing 50 mM carboxyfluorescein at 41 degrees C resulted in simultaneous antibody incorporation and entrapment of dye. Immunoliposomes were able to release the entrapped carboxyfluorescein upon heating. The release of dye at temperatures between the pre- and main-transition temperatures of DPPC was abolished by the addition of calf serum (5%). Furthermore, the presence of serum resulted in an increase in the temperature of the maximal release rate and also in the rate of release at that temperature. Retention of antigen-binding capacity was demonstrated by the ability of the immunoliposomes to bind specifically to the target cells. Rapid release of entrapped carboxyfluorescein from immunoliposomes bound to target cells at 4 degrees C was achieved upon brief exposure (less than 3 min) at 41 degrees C. These heat-sensitive immunoliposomes may be useful in enhancing drug delivery to target cells.     

Investigation of the cellular uptake of E-Selectin-targeted immunoliposomes by activated human endothelial cells

In the present study the cellular uptake of targeted immunoliposomes by interleukin-1 activated human endothelial cells has been analysed by several spectroscopical and microscopical fluorescence techniques. Previous in vitro experiments demonstrated that the targeting of immunoliposomes to vascular selectins is a potential way for a selective drug delivery at inflammatory sites. In attempts to further adapt the targeting experiments to physiological conditions, we demonstrate that E-Selectin-directed immunoliposomes are able to bind their target cells under the simulated shear force conditions of capillary blood flow cumulatively for up to 18 h. In order to consequently follow the fate of liposomes after target binding, we analysed the route and degree of liposome internalization of the cells concentrating on cell activation state or various liposomal parameters, e.g., sterical stabilization, type of antibody or antibody coupling strategy. The use of NBD-labelled liposomes and subsequent fluorescence quenching outside the cells with dithionite show that circa 25% of the targeted immunoliposomes were internalized. According to inhibition experiments with agents that interfered with the endocytotic pathway, we found out that the major mechanism of liposome entry is endocytic. The entry involves, at least in part, receptor-mediated endocytosis via E-Selectin, a liposome accumulation in the endosomes and their acidification was proved by pyranine spectroscopic results. Furthermore, microscopical investigations demonstrate that also a fusion of liposomes with the cell membrane occurs followed by a release of entrapped calcein into the cytoplasm. These observations gain insight into the behaviour of E-Selectin-targeted immunoliposomes and indicate that these immunoliposomes have great potential to be used as drug carriers for intracellular drug delivery at inflammatory sites.     

Targeted Delivery of Drugs and DNA with Liposomes

Abstract

This presentation is divided into three parts: long-circulating liposomes, immunoliposomes and gene transfer with liposomes. The mechanism of action for the poly(ethylene glycol)-phospholipid conjugates to prolong the circulation time of liposomes can be understood on the basis of steric barrier activity imposed by the flexible PEG chains on the liposome surface. The action of ganglioside GM₁, on the other hand, probably involves specific interactions with serum protein(s). Immunoliposomes can efficiently bind with the target only if the target is readily accessible and the liposomes stay in the circulation for a relatively long period of time. Coating the liposome surface with PEG chains or GM₁ enhances the target binding of immunoliposomes, except when PEG of greater than 5000 dalton is used. In this case, immunoliposome binding to the target is sterically hindered by the long PEG chains. To overcome the problem, antibody molecule is conjugated to the distal end of the PEG chain. This approach works well except that the liver uptake of immunoliposomes is somewhat enhanced. For the delivery of DNA into cells, a novel cationic amphiphile (DC-chol) is synthesized and is now used in clinical trials of gene therapy for melanoma. Current effort is concentrated on the means to enhance the level and duration of transgene expression.     

Improved Encapsulation of DNA in pH-Sensitive Liposomes for Transfection

Abstract

A simple method has been developed to prepare liposomes containing large amounts of DNA. The procedure consisted of three cycles of freeze-thawing a mixture of sonicated liposomes and DNA. The encapsulation efficiency depended on the size of DNA. For a small plasmid (2.7 kb), approximately 40% of input DNA was entrapped with an efficiency of 16 μgDNA/μmol lipid. For larger plasmids, the encapsulation efficiency decreased considerably. Transfection of cultured mouse L929 cells mediated by the DNA-containing liposomes was assayed with a plasmid containing the E. coli chloramphenicol acetyl transferase gene. The transfection activity of the liposome was primarily determined by its pH sensitivity. Acid-sensitive liposomes transfected cells efficiently, whereas pH-insensitive liposomes were much less active. The level of the expression of the exogenous gene in the treated cells could be further modulated by protein kinase C (PKC) activators that were incorporated into the liposomal membrane as a minor lipid component. Transfection conditions were optimized with respect to DNA, lipid, and PKC activator concentrations. The results of the current study may help the use of liposomal delivery system for applications in gene therapy.     

A tumor vasculature targeted liposome delivery system for combretastatin A4: Design, characterization, and in vitro evaluation

The objective of this study was to develop an efficient tumor vasculature targeted liposome delivery system for combretastatin A4, a novel antivascular agent. Liposomes composed of hydrogenated soybean phosphatidylcholine (HSPC), cholesterol, distearoyl phosphoethanolamine-polyethylene-glycol-2000 conjugate (DSPE-PEG), and DSPE-PEG-maleimide were prepared by the lipid film hydration and extrusion process. Cyclic RGD (Arg-Gly-Asp) peptides with affinity for αvβ3-integrins expressed on tumor vascular endothelial cells were coupled to the distal end of PEG on the liposomes sterically stabilized with PEG (long circulating liposomes, LCL). The liposome delivery system was characterized in terms of size, lamellarity, ligand density, drug loading, and leakage properties. Targeting nature of the delivery system was evaluated in vitro using cultured human umbilical vein endothelial cells (HUVEC). Electron microscopic observations of the formulations revealed presence of small unilamellar liposomes of ∼120 nm in diameter. High performance liquid chromatography determination of ligand coupling to the liposome surface indicated that more than 99% of the RGD peptides were reacted with maleimide groups on the liposome surface. Up to 3 mg/mL of stable liposomal combretastatin A4 loading was achieved with ∼80% of this being entrapped within the liposomes. In the in vitro cell culture studies, targeted liposomes showed significantly higher binding to their target cells than non-targeted liposomes, presumably through specific interaction of the RGD with its receptors on the cell surface. It was concluded that the targeting properties of the prepared delivery system would potentially improve the therapeutic benefits of combretastatin A4 compared with nontargeted liposomes or solution dosage forms.     

The transfection of Jurkat T-leukemic cells by use of pH sensitive immunoliposomes

A gene transfer vector has been developed utilising anionic liposomes as a carrier of plasmid DNA (pEGlacZ, 7.6 kb) to transfect CD3+ T lymphocytes (Jurkat cells). The plasmid DNA that contained the Escherichia coli beta-galactosidase reporter gene was condensed using poly-l-lysine of molecular mass 20,700 (PLK99) to form a polyplex which was interacted with several anionic liposome formulations to form lipopolyplexes. The liposome formulations where based on dioleoylphosphatidylethanolamine (DOPE) in combination with cholesterol and dioleoylphosphatidylcholine (DOPC) and oleic acid, or dimyristoylphosphatidylethanolamine (DMPE). For targeting to the Jurkat cells distearoylphosphatidylethanolamine (DSPE) linked to poly (ethylene glycol) molecular mass 2,000 and coupled to anti-CD3 antibody was incorporated. The polyplexes and lipopolyplexes were characterised in terms of size, zeta potential, agarose gel electrophoresis and electron microscopy and the permeability of the lipopolyplexes to liposome-encapsulated glucose was determined. The polyplexes consisted of a mixed population of rod-like structures (53-160 nm long and 23-31 nm diameter) and spheres (18-30 nm diameter). The lipopolyplexes retained a permeability barrier although were more permeable to glucose than their component liposomes. The poly-l-lysine condensing agent was still susceptible to pronase digestion suggesting that the polyplex was associated with the outer surface of the liposome. The lipopolyplexes with lipid composition DOPE/cholesterol/OA/DSPE-PEG2000 anti-CD3+ PLK99-plasmid DNA had significant gene transfer activity, as monitored by beta-galactosidase expression, that depended on the charge ratio of the component polyplex and the lipid/DNA weight ratio. The anti-CD3 antibody, the liposomal lipid and pH sensitivity were essential for transfection activity.     

Liposome-mediated delivery of deoxyribonucleic acid to cells: enhanced efficiency of delivery related to lipid composition and incubation conditions

Delivery of liposome-encapsulated simian virus 40 (SV40) DNA to African green monkey Related to been used as a probe to study liposome--cell interactions and to determine conditions which favor the intracellular delivery of liposome contents to cells. The efficiency of DNA delivery by various liposome preparations (monitored by infectivity assays) was found to be dependent both on the magnitude of vesicle binding to cells and on the resistance of liposomes to cell-induced leakage of contents. Acidic phospholipids were much more effective in both binding and delivery, and phosphatidylserine (PS) was the best in both aspects. The inclusion of 50 mol % cholesterol in liposomes reduces the cell-induced leakage of vesicle contents (2--5-fold) and substantially enhances the delivery of DNA to cells (2--10-fold). Following incubation of cells with negatively charged liposomes containing SV40 DNA, infectivity can be enhanced greatly by brief exposure of the cells to glycerol solutions. In contrast, only slight enhancement by glycerol was observed for SV40 DNA encapsulated in neutral or positively charged liposomes. The results of competition experiments between empty phosphatidylcholine liposomes and DNA-containing PS liposomes also suggest possible differences in the interaction of neutral and negatively charged liposome preparations with cells. Morphological studies indicate that the glycerol treatment stimulates membrane ruffling and vacuolization and suggest that the enhanced uptake of liposomes occurs by an endocytosis-like process. Results obtained with metabolic inhibitors are also consistent with the interpretation that the enhancement of liposome delivery in glycerol-treated cells occurs via an energy-dependent endocytotic pathway. Pretreatment of cells with chloroquine, a drug which alters lysosomal activity, further enhanced infectivity in glycerol-treated cells (4-fold). This observation suggests the involvement of a lysosomal processing step at some point in the expression of liposome-encapsulated DNA and, more importantly, illustrates the possibility of altering cellular mechanism to engineer more efficient delivery by liposomes. Under optimal conditions determined in this study, the efficiency of liposome-mediated SV40 DNA delivery was increased more than 1000-fold over that obtained by simply incubating cells with liposomes. It is also demonstrated that these conditions enhance delivery of other molecules, besides DNA, which are encapsulated in liposomes.     

Biologically active, recombinant DNA in clathrin-coated vesicles isolated from rat livers after in vivo injection of liposome-encapsulated DNA

DNA entrapped in liposomes containing lactosylceramide in the bilayers is found to be associated with clathrin-coated vesicles isolated from the rat livers after intravenous injection of these liposomes. The presence of the exogenous DNA in the coated vesicles was detected by Southern blotting. The amount of DNA present in the coated vesicles does not appear to vary up to 4 h after injection of the liposomes into the animals. The recognition of the lactosyl group present in the liposome by the galactose receptor present on the surface of the different liver cells may lead to their internalization in a way analogous to receptor-mediated endocytosis of various macromolecules. DNA present in the lumen of the coated vesicles is found to be biologically active as evidenced by its replication in bacterial cells and mouse fibroblasts.     

Interaction of alkylphospholipid liposomes with MT-3 breast-cancer cells depends critically on cholesterol concentration

We have investigated interaction of alkyphospholipid (APL) liposomes consisting of 1,1-dimethylpiperidin-1-ium-4-yl) octadecyl phosphate (OPP) and different concentrations of cholesterol (CH) with human MT-3 breast-cancer cells using electron paramagnetic resonance method (EPR) with advanced characterization of EPR spectra of spin labeled liposome membranes. After incubation of OPP liposomes with MT-3 cells, a reduction of liposome entrapped, water soluble spin-probe tempocholine (ASL) was observed, indicating that ASL is released from liposomes and is reduced by oxy-redoxy systems inside the cells. This process is fast if cholesterol content in the bilayer was 29 or 45 mol%, whereas at 56 mol% cholesterol the process is almost stopped. The rate of spin-probe reduction in first 10 min after incubation with cells is even faster as for the free ASL, indicating that liposomes with low amount of cholesterol accelerate penetration of ASL into the cells. A faster release of hydrophilic material from liposomes with low cholesterol content coincides with the presence of domains with highly disordered alkyl chain motion that disappears at 50 mol% of cholesterol. We propose that these highly fluid domains are responsible for interaction of OPP liposomes with cells and fast release of the entrapped material into the cells. These results suggest that micelles are not the only reason for cytotoxic effect of OPP liposome formulations, as it was suggested before. OPP in liposomes, containing 45 mol% cholesterol or less, also contributes to the cytotoxic effect, due to their fast interaction with breast-cancer cells.     

Targeting of anti-Thy 1.1 monoclonal antibody conjugated liposomes in Thy 1.1 mice after intravenous administration

125I-labeled liposomes, conjugated to an anti-Thy 1.1 monoclonal antibody (MRCOX7), demonstrated up to 7.4-fold greater lymph node uptake than liposomes conjugated to non-specific monoclonal antibody (R-10) after intravenous injection into Thy 1.1 (AKR-J) mice. Uptake of anti-Thy 1.1-conjugated liposomes by the lymph nodes of AKR-J mice was 3-times greater than their uptake by lymph nodes of Thy 1.2 (AKR-Cu) mice. Lymph node localization of anti-Thy 1.1-liposomes was equal to that of control monoclonal antibody-liposomes in Thy 1.2 mice. Conjugation to either monoclonal antibody substantially increased liposome clearance by the liver, while decreasing liposome uptake in a number of organs outside the reticuloendothelial system. Changes in liposome size and phospholipid composition did not significantly alter these results. Administration of a large predose of unconjugated liposomes prior to injection of MRCOX7-conjugated liposomes increased blood levels and reduced liver uptake of the monoclonal antibody-liposome conjugates, but did not further enhance lymph node uptake. This study demonstrates that targeting of liposomes by conjugation to the appropriate monoclonal antibody, can significantly increase their uptake in lymph nodes which contain high levels of cells expressing the target antigen. However, conjugation to monoclonal antibody also increases clearance of liposomes by the liver. To increase the uptake of monoclonal antibody-conjugated liposomes in target tissue, substantial reduction of their clearance by the reticuloendothelial system will be required.     

Growth control of mouse mammary epithelial cells by keratin antibody-targeted liposome containing oligonucleotides antisense to epidermal growth factor receptor

NMuMG cells were incubated with 17beta-estradiol (E)+progesterone (P)+epidermal growth factor (EGF), with or without various types of oligomers (21-mers) to the EGF receptor activity domain (amino acid residues 718 to 724). Sense or antisense oligomers were encapsulated in protein A-bearing liposomes. Uncoupled protein A and unencapsulated sense or antisense oligomers were separated from liposomes on a Sepharose 4B column (the encapsulation efficiency of oligomers in liposome-protein A was 0.8%). The addition of various concentrations of EGF to E+P showed an interaction between them during DNA synthesis (P<0.05). Antisense oligomers (1 microM) decreased DNA synthesis induced by E+P+EGF (65.0% inhibition, P<0.05). Sense oligomers also inhibited DNA synthesis induced by E+P+EGF (P<0.05). However, random-sequence oligomers did not inhibit EGF-induced DNA synthesis. We cannot rule out the possibility that sense oligomers match an unknown functional gene mRNA involved in cell growth, which causes their inhibitory effect. Cells were incubated with a keratin monoclonal antibody and then with dilutions of protein A-bound liposomes containing sense or antisense oligomers in the presence of E+P+EGF. Dose dependent inhibition of DNA synthesis was observed. The encapsulated oligomers in protein A-bound liposomes inhibited DNA synthesis at a 100-fold lower concentration than that of unencapsulated oligomers or the oligomer+liposome mixture. The tyrosine kinase activity domain has an important role in EGF regulation of mammary growth. The effect of a cytokeratin-targeted antibody on DNA synthesis in normal mouse mammary epithelial cells was marginal.     

Interaction of pH-Sensitive Liposomes With Blood Components

Abstract

Avoidance of lysosomal degradation of drugs entrapped in liposomes has been one of the major efforts in liposome research. The achievement of high drug deliver}' efficiency using pH-sensitive liposomes over the pH-insensitive liposomes has greatly influenced our strategies in liposome drug delivery. The success of pH-sensitive liposomes in delivering compounds such as fluorescence dye, anti-cancer reagents, toxins and DNA to target cells with high efficiency in vitro shows a great potential to apply the same strategy to in vivo systems. Using human plasma as a simplified model for blood, we have systematically examined the interaction of pH-sensitive liposomes composed of dioleoylphosphatidyl-ethanolamine (DOPE) and oleic acid (OA) with plasma components. Our results show that the bilayer structure of liposomes in plasma depends on their sizes. Small liposomes (d<200nm) were stabilized by plasma components while the larger ones (d>600nm) were rapidly lysed upon the exposure to plasma. Such differences in their stability in plasma may derive from their differences in lipid packing which determines the surface pressure of the membrane. Using purified serum proteins, we found that albumin such as bovine serum albumin (BSA) lyse liposomes by extracting OA from the bilayer. However, BSA induced lysis could be blocked by lipoproteins including HDL, LDL and VLDL, but not by immunoglobulins. Further studies with purified components of HDL demonstrated that apoAl, not the lipids of the HDL, contains the stabilization activity. The extraction of OA from liposomes and the insertion of plasma components into the bilayer modified the bilayer properties such that plasma stabilized liposomes were no longer pH sensitive. Using dipalmitoylsuccinylglycerol (DPSG), a double-chain pH senser for DOPE liposomes, we could preserve 50% pH sensitivity after plasma treatment. The potential application of such liposomes and other essential properties of pH-sensitive liposomes for drug delivery in vivo are also discussed.     

Synthesis of calcium phosphate-binding liposome for drug delivery

Metastatic bone disease is often associated with bone pain, pathologic fractures, and nerve compression syndromes. Effective therapies to inhibit the progression of bone metastases would have important clinical benefits. Therefore, we developed a novel calcium phosphate-binding liposome for a bone-targeting drug delivery system. We synthesized a novel amphipathic molecule bearing a bisphosphonate (BP) head group to recognize and bind to hydroxyapatite (HA). We demonstrated that the liposomes having BP moieties show high affinity for HA. Doxorubicin-loaded liposomes adsorbed on the surface of HA significantly reduce the number of viable human osteosarcoma MG63 cells. This shows that the liposomes can be excellent carriers for anticancer drugs because they specifically target bone tissue. This calcium phosphate-binding liposome system could be used with many drugs for bone-related diseases such as osteoporosis, rheumatoid arthritis, and multiple myeloma.     

Room temperature electron spin resonance of superoxide dismutase-loaded liposomes and erythrocytes. A direct approach to the interaction of O2- with cells

Human erythrocytes were enriched with bovine superoxide dismutase by fusion with liposomes containing the entrapped enzyme. Liquid solution ESR of intact cells at room temperature was used to measure directly the increase in the superoxide dismutase content. From the spectral characteristics (g-value and hyperfine splitting tensor), the structural integrity of the Cu site of the enzyme was found to be unaffected by the liposome preparation procedure or the incubation with cells. Changes in the ESR signal size were used to test directly the interaction of superoxide with the enzyme entrapped in liposomes or delivered to erythrocytes. It was found that the liposome-entrapped enzyme does not react with externally generated O2-, but once delivered to red blood cells this reaction can take place. This is the first demonstration of O2- -scavenging activity by superoxide dismutase delivered into an intact cell structure and is therefore to be considered as strong evidence for activity of this enzyme under in vivo conditions.     

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.     

Stimulating Role of Toxoids-laden Liposomes in Oral Immunization against Diphtheria and Tetanus Infections

Liposomes have been produced by injecting an ether solution of a mixture of lecithin and cholesterol into a diluted solution of prewarmed diphtheria and tetanus toxoids followed by elimination of the stream of ether vapour by vacuum.In a preliminary study, adjuvant effects of liposomes on the systemic and mucosal immune response have been studied. When a mixture of diphtheria toxoid (DT) and tetanus toxoid (TT) entrapped in liposomes were administered parenterally or orally in rabbit, a significant rise of specific antibodies against both toxoids was noticed. In monkeys receiving a mixture of DT and TT entrapped in liposomes orally, the antibody response after two and three ingestions of this product was mild but when liposomes containing toxoids were adsorbed with aluminium hydroxide in a similar experiment, a significant rise in the specific antibody response in monkey against both toxoids was recorded. Adult volunteers, similarly receiving a mixture of DT and TT, entrapped in liposomes and adsorbed with aluminium hydroxide have shown a significant rise in specific circulating antitoxins. In order to compare the efficacy of this technique of human oral immunization with the previous method, whereby a plant medicinal seed (LRS) was used as adjuvant in oral immunization of man, a second group of volunteers were simultaneously and similarly treated as suggested previously. The comparative results are discussed in the present report.     

The transfection of Jurkat T-leukemic cells by use of pH-sensitive immunoliposomes

An effective pH-sensitive gene transfer vector has been developed utilising anionic liposomes with various formulations as a carrier of plasmid DNA (pEGlacZ, 7.6 kb) to transfect CD3 T+ lymphocytes (Jurkat cells). The plasmid DNA was condensed using poly-l-lysines with a range of molecular masses to form polyplexes that were interacted with several anionic liposome formulations to form lipopolyplexes. For targeting to the Jurkat cells, distearoylphosphatidylethanolamine (DSPE) linked to poly (ethylene glycol) molecular mass 2000 and coupled to anti-CD3 antibody was incorporated in the liposomes. The polyplexes and lipopolyplexes were characterised in terms of size, zeta potential, gel electrophoresis and electron microscopy. The gene transfer activity of the lipopolyplexes, assessed from beta-galactosidase expression, depended on the charge ratio (NH(3)+/PO(4)-) of the component polyplex and the lipid/DNA weight ratio of the lipopolyplex.