Enhancement of ricin toxin A chain immunotoxin activity: synthesis, ionophoretic ability, and in vitro activity of monensin derivatives

Site-selective toxin delivery was achieved by coupling monoclonal antibody to the A chain subunit of ricin (RTA-IT). The cell-killing potency of RTA-IT can be drastically increased in vitro by using ionophores such as monensin. To reduce the intrinsic toxicity of monensin and to enhance its in vitro and in vivo activity, we synthesized 7 derivatives characterized by different lipophilicities. These derivatives were also analyzed for ionophoretic activity on intact cells, toxicity, and RTA-IT-enhancing activity. Two different RTA-IT were assayed on a human leukemia cell line. A correlation between lipophilicity, ionophoretic activity, and RTA-IT enhancement was observed. The compounds with the highest polar charge showed low intrinsic toxicity, revealed moderate ionophoretic activity, and were able to enhance RTA-IT only at high concentrations, whereas more lipophilic compounds (with a C28 tail or a phenyl group) showed significant ionophoretic activity and good enhancing properties.     

Cyclosporin A and cyclosporin SDZ PSC 833 enhance anti-CD5 ricin A-chain immunotoxins in human leukemic T cells

Recent studies have shown that cyclosporin A (CsA) may affect ricin A-chain immunotoxin (RTA-IT) therapy. In this study, we evaluated the ability of CsA and its nonimmunosuppressive analog, SDZ PSC 833, to enhance anti-CD5 T101 RTA-ITs in vitro. Both 4 mumol/L CsA and 4 mumol/L SDZ PSC 833 significantly and specifically enhanced the cytotoxic activity of T101 RTA-IT on the human lymphoblastic T-cell line, CEM III (101-fold and 105-fold, respectively). Furthermore, these Cs also enhanced the cytotoxicity of the more potent T101 F(ab')2 RTA-IT (ninefold and eightfold, respectively). The effect of human plasma, originating from four patients enrolled in a phase I high-dose CsA regimen, was examined on T101 RTA-IT cytotoxicity on CEM III cells. In each case, with plasma CsA levels between 3,090 and 4,860 ng/mL (2.5 to 4 mumol/L), a significant increase in T101 RTA-IT-mediated cytotoxicity was observed ranging from 31% to 60%. Neither CsA nor SDZ PSC 833 affected the rate of RTA-IT binding, internalization, intracellular trafficking, or degradation. Analysis of internalized T101 RTA-IT molecules showed that these were essentially intact, which suggests that these enhancers may act only on a small population of RTA-ITs that escapes present investigational techniques. In conclusion, because the concentrations used are clinically achievable, Cs appear to be promising agents for in vivo enhancement of RTA-ITs.     

Effect of monensin on rumen metabolism in vitro

The effect of Monensin (Rumensin, Eli Lilly & Co.) in incubations with mixed rumen microorganisms metabolizing carbohydrate or protein substrates was investigated. Monensin partly inhibited methanogenesis and increased propionate production, although the effect was not always statistically significant. Incubations with substrates specific for methane bacteria suggest that inhibition of methanogenesis by Monensin was not due to a specific toxic action on the methanogenic flora, but rather to an inhibition of hydrogen production from formate. Total and net microbial growth were considerably decreased by addition of Monensin, although the amount of substrate fermented was not altered, resulting in lowered values of microbial growth efficiency. In incubations with casein, Monensin lowered protein degradation in line with a lowered ammonia production, whereas a slight accumulation of alpha-amino nitrogen was observed. The results suggest that besides an influence of Monensin on the rumen carbohydrate fermentation pattern, another reason for the beneficial effects observed in vivo might be decreased food protein degradation in the rumen, altering the final site of protein digestion in the animal. Also, the possibility of a decrease in rumen microbial growth efficiency has to be considered when using Monensin as a food additive.     

Role of cross-linking agents in determining the biochemical and pharmacokinetic properties of Mgr6-clavin immunotoxins

Several immunotoxins (ITs) were synthesized by the attachment of clavin, a recombinant toxic protein derived from Aspergillus clavatus, to the monoclonal antibody Mgr6 that recognizes an epitope of the gp185(HER-2) extracellular domain expressed on breast and ovarian carcinoma cells. Conjugation and purification parameters were analyzed in an effort to optimize the antitumor activity and stability of the ITs in vivo. To modulate the in vitro and in vivo properties of the immunotoxins, different coupling procedures were used and both disulfide and thioether linkages were obtained. Unhindered and hindered disulfide with a methyl group linkage ethyl S-acetyl 3-mercaptopropionthioimidate ester hydrochloride (AMPT) or ethyl S-acetyl 3-mercaptobutyrothioimidate ester hydrochloride (M-AMPT) were obtained by reaction with recombinant clavin, while the monoclonal antibody Mgr6 was derivatized with ethyl 3-[(4-carboxamidophenyl)dithio]propionthioimidate ester hydrochloride (CDPT). To achieve higher hindrance (a disulfide bond with a geminal dimethyl group), Mgr6 was derivatized with the N-hydroxysuccinimidyl 3-methyl-3-(acetylthio)butanoate (SAMBA) and clavin with CDPT. To evaluate the relevance of the disulfide bond in the potency and pharmacokinetic behavior of the ITs, a conjugate consisting of a stable thioether bond was also prepared by derivatizing Mgr6 with the N-hydroxysuccinimidyl ester of iodoacetic acid (SIA) and clavin with AMPT. The immunotoxins were purified and characterized using a single-step chromatographic procedure. Specificity and cytotoxicity were assayed on target and unrelated cell lines. The data indicate that the introduction of a hindered disulfide linkage into ITs has little or no effect on antitumor activity and suggest that disulfide cleavage is essential for activity; indeed, the intracellularly unbreakable thioether linkage produced an inactive IT. Analysis of IT stability in vitro showed that the release of mAb by incubation with glutathione is proportional to the presence of methyl groups and increases exponentially with the increase in steric hindrance. Analysis of the pharmacokinetic behavior of ITs in Balb/c mice given intravenous bolus injections indicated that ITs with higher in vitro stability were eliminated more slowly; i.e., the disulfide bearing a methyl group doubled the beta-phase half-life (from 3.5 to 7.1 h) compared with that of the unhindered, while a geminal dimethyl protection increased the elimination phase to 24 h. The thioether linkage showed its intrinsic stability with a beta-phase half-life of 46 h. The thioether linkage also increased the distribution phase from 17 to 32 min. The in vitro characteristics and in vivo stability of Mgr6-clavin conjugates composed of a methyl and dimethyl steric hindered disulfide suggest clinical usefulness.     

Role of liposomes in selective proliferation of splenic lymphocytes

Purification of alpha-galactosidase from the roots of Verbascum thapsus L. was difficult to achieve using conventional methods due to the presence of coloured contaminants. A newly developed procedure, hybrid affinity chromatography, which was based on a mixed matrix separation procedure, using a substrate analogue and an immobilized metal affinity matrix as ligands, respectively, allowed the purification of this enzyme with good recovery. The method should be applicable to other proteins as well.     

Lipopolysaccharide, lipid A, and liposomes containing lipid A as immunologic adjuvants

Numerous studies have demonstrated that most or all of the potent adjuvant activity of Gram-negative bacterial endotoxin resides in the lipid A moiety of lipopolysaccharide (LPS). Synthetic analogues of lipid A have provided insights into structure-activity relationships. Several cellular mechanisms of LPS and lipid A adjuvant activities have been identified. Activation of macrophages by LPS or lipid A results in cytokine secretions that enhance the immune response. LPS and lipid A cause recruitment of antigen-presenting cells, particularly macrophages. Liposomes containing lipid A serve as an in vivo adjuvant to recruit increased numbers of macrophages. Liposomal lipid A that has been phagocytized by cultured macrophages also serves as an "intracellular adjuvant" to cause increased immunologic presentation of liposomal antigen by the macrophages to specific T lymphocytes. Lipid A can abolish suppressor T cell activity, resulting in increased immune responses to polysaccharide antigens. Upon combination of lipid A or lipid A analogues with nonionic block polymers, modulation of murine antibody isotypes can be achieved with antibodies against a variety of antigens in vivo. Liposomes containing monophosphoryl lipid A (MPL) have been utilized in a phase I clinical trial of a proposed malaria vaccine in humans. The liposomal malaria vaccine resulted in very high levels of antibodies against the malarial antigen, and despite the presence of huge amounts of MPL (up to 2.2 mg), the liposomal lipid A was nonpyrogenic and safe for use in humans. Lipid A and lipid A analogues, and liposomes or other carriers containing lipid A, have shown considerable promise both as adjuvants for immunization of animals and for human vaccines.     

Paramagnetic liposomes as MRI contrast agents: influence of liposomal physicochemical properties on the in vitro relaxivity

Because of the possible application of tea in the prevention of oral and esophageal cancers, the salivary levels of tea catechins were determined in six human volunteers after drinking tea. Saliva samples were collected after thoroughly rinsing the mouth with water. After drinking green tea preparations equivalent to two to three cups of tea, peak saliva levels of (-)-epigallocatechin (EGC; 11.7-43.9 microg/ml), EGC-3-gallate (EGCG; 4.8-22 microg/ml), and (-)-epicatechin (EC; 1.8-7.5 microg/ml) were observed after a few minutes. These levels were 2 orders of magnitude higher than those in the plasma. The elimination half-life (t(1/2)) of the salivary catechins was 10-20 min, much shorter than that of the plasma. Holding a tea solution in the mouth for a few minutes without swallowing produced even higher salivary catechin levels, but taking tea solids in capsules resulted in no detectable salivary catechin level. Holding an EGCG solution in the mouth resulted in EGCG and EGC in the saliva and, subsequently, EGC in the urine. The results suggest that EGCG was converted to EGC in the oral cavity, and both catechins were absorbed through the oral mucosa. A catechin esterase activity that converts EGCG to EGC was found in the saliva. The enzyme was likely of human origin, but the activity was not inhibited by common human esterase inhibitor. The present results suggest that slowly drinking tea is a very effective way of delivering rather high concentrations of catechins to the oral cavity and then the esophagus.     

Effects of organic acid and monensin treatment on in vitro mixed ruminal microorganism fermentation of cracked corn

The objective of this study was to determine the effects of organic acids and monensin on the in vitro fermentation of cracked corn by mixed ruminal microorganisms. Ruminal fluid was collected from a steer fed 36.3 kg of wheat silage and 4.5 kg of concentrate supplement once daily. Mixed ruminal microorganisms were incubated in anaerobic media that contained 20% (vol/vol) ruminal fluid and .4 g of cracked corn. Incubations were carried out in batch culture for 24 h at 39 degrees C. Organic acids (L-aspartate, fumarate, and DL-malate) were added to serum bottles (n = 4) to achieve final concentrations of 0, 4, 8, or 12 mM. Monensin, dissolved in ethanol, was included in serum bottles at a final concentration of 0 or 5 ppm of culture fluid. The addition of 8 and 12 mM organic acids to cracked corn fermentations increased final pH (P < .05), tended to increase total gas production and CO2 concentration, and decreased the acetate:propionate ratio (P < .05). Organic acids tended to decrease methane concentrations and hydrogen concentration was not altered. DL-Malate addition at all levels reduced (P < .05) lactate accumulation. Additive effects of monensin and organic acids were observed in some fermentations. In conclusion, organic acid addition to in vitro mixed ruminal microorganism fermentations yielded beneficial results independent of monensin treatment by decreasing the acetate: propionate ratio and increasing final pH.     

PLGA nanoparticles prepared by nanoprecipitation: drug loading and release studies of a water soluble drug

The nanoprecipitation technique for preparation of nanoparticles suffers the drawback of poor incorporation of water soluble drugs. The aim of this study was therefore to assess various formulation parameters to enhance the incorporation of a water soluble drug (procaine hydrochloride) into poly(dl-lactide-co-glycolide) (PLGA) nanoparticles prepared by this technique. Approaches investigated for drug incorporation efficiency enhancement included the influence of aqueous phase pH, replacement of procaine hydrochloride with procaine dihydrate and the inclusion of excipients: poly(dl-lactide) (PLA) oligomers, poly(methyl methacrylate-co-methacrylic acid) (PMMA-MA) or fatty acids into the formulation. The nanoparticles produced were submicron size (<210 nm) and of low polydispersity. It was found that an aqueous phase pH of 9.3, replacement of procaine hydrochloride with procaine dihydrate and the incorporation of PMMA-MA, lauric and caprylic acid into the formulation could enhance drug incorporation efficiency without the size, morphology and nanoparticle recovery being adversely influenced. For instance changing the aqueous phase pH from 5.8 to 9.3 increased nanoparticle recovery from 65.1 to 93.4%, drug content from 0.3 to 1.3% w/w and drug entrapment from 11.0 to 58.2%. However, the presence of high ratios of lauric acid and procaine dihydrate in the formulation adversely affected the morphology and size of the nanoparticles. Also, PLA oligomers were not considered a feasible approach since it decreased drug entrapment from 11.0 to 8.4% and nanoparticle recovery from 65.1 to 19.6%. Drug release from nanoparticles appears to consist of two components with an initial rapid release followed by a slower exponential stage. This study has demonstrated that formulation variables can be exploited in order to enhance the incorporation of a water soluble drug into PLGA nanoparticles by the nanoprecipitation technique.     

Cell type regulation in response to expression of ricin A in Dictyostelium

Expression of ricin A in either prespore or prestalk cells of Dictyostelium discoideum results in cell-autonomous lethality. Strains expressing the toxic gene under the control of a prestalk-specific regulatory region fail to culminate or form stalks, but form spores normally. Strains expressing ricin A under the control of a prespore-specific regulatory region form neither spores nor stalks. Regulation of the cell types results in conversion of prestalk cells to prespore cells when the prespore cells are poisoned. The newly converted cells then express ricin A and die. In contrast, we could not detect any significant conversion of prespore cells to prestalk cells when the prestalk cells are poisoned under our experimental conditions. This regulation of cell types suggests that the tendency of prestalk cells to regulate and become prespore cells is inhibited by the already established prespore cells. It appears that prespore cells control prestalk cell regulation by producing an inhibitor of prespore differentiation to which they themselves are insensitive.     

An in vitro model for toxin-mediated vascular leak syndrome: ricin toxin A chain increases the permeability of human endothelial cell monolayers

Vascular leak syndrome (VLS) is the dose-limiting toxicity observed in clinical trials of immunotoxins containing ricin toxin A chain (RTA). RTA itself is thought to cause VLS by damaging vascular endothelial cells, but the exact mechanism remains unclear. This is partially due to the paucity of appropriate models. To study VLS, we developed an in vitro model in which human umbilical vein-derived endothelial cells were first grown to confluence on microporous supports and then cultured under low pressure in the presence or absence of RTA. Endothelial cell barrier function was assessed by measuring the volume of fluid that passed through each monolayer per unit time. We found that RTA significantly increased monolayer permeability at times and concentrations consistent with the onset of VLS in patients treated with RTA-based immunotoxins. Scanning electron microscopy showed that intercellular gaps formed in endothelial monolayers exposed to RTA. Intercellular gap formation followed endothelial cell death caused by the enzymatic activity of RTA. We conclude that RTA is directly toxic to endothelial cells in vitro and speculate that this contributes to VLS in vivo.     

HindIII liposomes suppress delayed-type hypersensitivity responses in vivo and induce epidermal IL-10 in vitro

The purpose of this study was to evaluate the effects of resident islet macrophage activation on beta cell function. Treatment of freshly isolated rat islets with TNF-alpha and LPS results in a potent inhibition of glucose-stimulated insulin secretion. The inhibitory actions of TNF + LPS are mediated by the intraislet production and release of IL-1 followed by IL-1-induced inducible nitric oxide synthase (iNOS) expression by beta cells. The IL-1R antagonist protein completely prevents TNF + LPS-induced nitrite production, iNOS expression and the inhibitory effects on glucose-stimulated insulin secretion by rat islets. Resident macrophages appear to be the source of IL-1, as a 7-day culture of rat islets at 24 degrees C (conditions known to deplete islets of lymphoid cells) prevents TNF + LPS-induced iNOS expression, nitrite production, and the inhibitory effects on insulin secretion. In addition, macrophage depletion also inhibits TNF + LPS-induced IL-1alpha and IL-1beta mRNA expression in rat islets. Immunocytochemical colocalization of IL-1beta with the macrophage-specific marker ED1 was used to provide direct support for resident macrophages as the islet cellular source of IL-1. IL-1beta appears to mediate the inhibitory actions of TNF + LPS on beta cell function as TNF + LPS-induced expression of IL-1beta is fourfold higher than IL-1alpha, and Ab neutralization of IL-1beta prevents TNF + LPS-induced nitrite production by rat islets. These findings support a mechanism by which the activation of resident islet macrophages and the intraislet release of IL-1 may mediate the initial dysfunction and destruction of beta cells during the development of autoimmune diabetes.     

Preparation, characterization and in vitro antimicrobial activity of ampicillin-loaded polyethylcyanoacrylate nanoparticles

In this paper, the experimental conditions for preparing ampicillin-loaded polyethylcyanoacrylate (PECA) nanoparticles are described. The effects of drug concentration and surfactant type in the polymerization medium on the particle size distribution and loading capacity were studied. The results of these studies show that only the type of surfactant has an impact on the nanoparticle dimensions. The release rate of ampicillin from PECA nanoparticles at pH 7.4 (extracellular value pH) performed either with and without esterases, show that the drug release is considerably increased in the presence of these exzymes. The results of drug release study at pH 1.1 (simulated gastric juice) are very interesting. This study has evidenced that the 70% of ampicillin is released quickly, while the remaining fraction is firmly incorporated in nanoparticles. The released ampicillin is quickly degraded in acid medium while the entrapped fraction is protected from acid degradation and afterwards, when nanoparticles reach the small intestine, can be readily released in the presence of esterases. This result could be exploited for the oral administration of the ampicillin-PECA system. Finally, studies of antimicrobial activity of prepared systems evidenced that ampicillin-loaded PECA nanoparticles exhibit an activity equal or higher than the free drug.     

Application of alginate gel as a vehicle for liposomes. II. Erosion of alginate gel beads and the release of loaded liposomes

Short chain fatty acids (SCFAs) stimulate electroneutral sodium absorption by activation of apical Na/H exchange in colonocytes. It is often assumed that activation of Na/H exchange is via an intracellular acidification caused by SCFA uptake. These lecture notes review shortcomings in this model of SCFA-stimulated sodium absorption, revealed by recent reports in the literature. This is supplemented by information generated in our laboratory using both a tissue culture model of colonocytes (HT29-C1 cells) and a native tissue preparation (mouse distal colonic mucosa). In both preparations, evidence suggests that physiologic SCFA gradients may generate pH heterogeneity in aqueous microdomains near the plasma membrane of colonocytes. Finally, direct observation of such extracellular microdomains with confocal microscopy is used to support a new model, in which pH microdomains play an important role in regulating both SCFA fluxes and sodium absorption.     

Prophylactic and therapeutic efficacy of an avian antitoxin in ricin intoxication

This study was designed to demonstrate the efficacy in animals of a ricin antitoxin consisting of purified avian antibodies. Antitoxins consisting of avian antibodies have significant advantages when compared to conventional mammalian (e.g. horse) antibodies; (a) avian antibodies do not fix human complement, eliminating associated inflammatory reactions, and, (b) avian antibodies can be manufactured more economically. Ricin toxoid was injected into laying hens followed by collection of eggs bearing hyperimmune immunoglobulin. Immunoglobulin was extracted from yolks and purified by immunoaffinity chromatography. In a mouse model for toxin neutralization it was shown that immunoaffinity purified ricin antibodies could prevent ricin lethality. Furthermore, it was shown that passive antibody treatment leads to active ricin immunization in animals given lethal ricin doses. Highly purified avian antibodies, as developed in this study, should offer enhanced clinical effectiveness, greater safety, and reduced manufacturing costs when compared to other technologies.     

A spectrophotometric method for the determination of hydroperoxides in liposomes

A modification of the Asakawa-Matsushita iodometric assay method for the determination of the content of lipid hydroperoxides was developed which permits the simultaneous processing of many samples of high lipid content. The method has the advantages of simplicity as well as good reproducibility, so it is not necessary to process standards with each determination. Our technique exceeds the sensitivity attained with other spectrophotometric determinations reported in the literature. The method requires the total elimination of water from the samples, and this was accomplished using an azeotropic mixture of ethanol:water of 96:4. The results obtained with liposomes indicate that the method is applicable to biological material limited to small volume samples, ranging 5-50 microliters. We want to emphasize that this method permits the study of the peroxidation process as function of time.     

Characterization of in vitro and in vivo mutations in non-conserved nucleotides in the ribosomal RNA recognition domain for the ribotoxins ricin and sarcin and the translation elongation factors

The sarcin/ricin domain in 23 S/28 S rRNA is crucial for ribosome function, since it constitutes at least part of the binding site for the elongation factors and hence is essential for binding aminoacyl-tRNA and for translocation. The domain is also the site of action of ricin and sarcin and analysis of the effect of mutations in the RNA on recognition by the cytotoxins has helped to define the structure and to understand the function of the region. We have constructed deletions, separately, of pairs of non-conserved, juxtaposed but non-hydrogen-bonded nucleotides that correspond to C4317 and C4331, and to U4316 and C4332, in an oligoribonucleotide that mimics the sarcin/ricin domain in rat 28 S rRNA. The deletions had no effect on the depurination of A4324 by ricin nor on the cleavage of the phosphodiester bond on the 3' side of G4325 by sarcin. However, simultaneous deletion of the four nucleotides decreased cleavage by sarcin but did not affect depurination by ricin. Removal of the non-canonical A4318.A4330 pair abolished recognition by both toxins. Deletion from oligoribonucleotides, that reproduce the sarcin/ricin domain of Escherichia coli 23 S rRNA, of U2653 and C2667 (equivalent to U4316, C4317 and C4331, C4332 in 28 S rRNA), or substitution of guanosine for U2653 (designed to form a Watson-Crick G2653.C2667 pair), reduced cleavage by sarcin whereas depurination by ricin was slightly increased. An increase in the stability of the mutant oligoribonucleotides may be the basis of the impairment in sarcin action. The tm for the wild-type RNA is 60 degreesC; for the double-deletion mutant U2653Delta/C2667Delta it is 65 degreesC; and for the U2653G transversion it is 69 degreesC. Expression of a mutant 23 S rRNA gene lacking U2653 and C2667 is lethal and a U2653G transversion mutation impairs growth. The mutant ribosomes are less active in protein synthesis than the wild-type and ribosomes with the U2653G mutation are resistant to sarcin. The binding of EF-G to oligoribonucleotides with a U2653/C2667 double deletion is reduced and an effect on the affinity of the factor for the sarcin/ricin domain may account in part for the decrease in ribosome efficiency. The results stress the potential importance in rRNA structure and function of non-conserved nucleotides, and suggest that the sarcin/ricin domain in ribosomes requires a region of structural flexibility for optimal efficiency.     

In vitro and in vivo gene delivery mediated by a synthetic polycationic amino polymer

The r?le of chemotherapy in the treatment of operable soft tissue sarcomas is still debatable. In high-grade tumors, randomized trials using adjuvant chemotherapy have resulted in controversial results. A recent meta-analysis showed a higher median disease-free survival in groups with chemotherapy compared to controls. Doxorubicin, ifosfamide and dacarbazine are the majors drugs. Their combination in adjuvant treatment is currently being investigated. Neoadjuvant chemotherapy has allowed conservative surgery in initially unoperable tumors, but its role in primarily operable tumors remains to be defined.     

Liposome-cell interactions in vitro: effect of liposome surface charge on the binding and endocytosis of conventional and sterically stabilized liposomes

The cellular uptake of liposomes is generally believed to be mediated by adsorption of liposomes onto the cell surface and subsequent endocytosis. This report examines the effect of liposome surface charge on liposomal binding and endocytosis in two different cell lines: a human ovarian carcinoma cell line (HeLa) and a murine derived mononuclear macrophage cell line (J774). The large unilamellar liposomes were composed of 1, 2-dioleolyl-sn-glycero-3-phosphatidylcholine with and without the addition of either a positively charged lipid, 1, 2-dioleoyl-3-dimethylammonium propanediol (DODAP), or a negatively charged lipid, 1,2-dioleolyl-sn-glycero-3-phosphatidylserine. In some experiments 5 mol % of the anionic PEG2000-PE or a neutral PEG lipid of the same molecular weight was added. HeLa cells were found to endocytose positively charged liposomes to a greater extent than either neutral or negatively charged liposomes. This preference was not lipid-specific since inclusion of a cationic cyanine dye, DiIC18(3), to impart positive charge in place of DODAP resulted in a similar extent of endocytosis. In contrast the extent of liposome interaction with J774 cells was greater for both cationic and anionic liposomes than for neutral liposomes. The greater uptake of positively charged liposomes by HeLa cells was also observed with sterically stabilized liposomes (PEG liposomes). Although the overall amount of endocytosis for all the PEG liposomes examined was attenuated relative to conventional liposomes, the extent of endocytosis was greatest for positively charged PEG liposomes, whereas negatively charged PEG2000-PE liposomes were hardly endocytosed by the HeLa cells. Incorporation of a neutral PEG lipid into liposomes permits the independent variation of liposome steric and electrostatic effects in a manner that may allow interactions with cells of the reticuloendothelial system to be minimized, yet permit strong interactions between liposomes and proliferating cells.