Cholesterol inhibition of the temporary increase of membrane fluidity of lymphocytes induced by mitogenic lectins

The mitogenic response of human peripheral lymphocytes to lectins can be decreased by brief treatment of the cells with lecithin-cholesterol liposomes. This fact indicates that the temporary increase of membrane fluidity, which occurs within 30 min after addition of mitogenic lectins, is an important early event for the subsequent activation of lymphocytes. This temporary increase of membrane fluidity is accompanied by neither a decrease in cellular cholesterol level nor by particular acceleration of the incorporation of polyunsaturated fatty acids into phospholipids. These facts suggest that this change in membrane fluidity is not due to the alteration of membrane lipid composition, but can be regarded as a result of temporary perturbation of membrane lipid bilayers induced by binding of the lectins to their membrane receptors.     

Plasma membrane fluidity gradients of human peripheral blood leukocytes

The shape of the fluidity gradient of the outer hemileaflet of the plasma membrane of normal, living, human white blood cells was determined using a series of n-(9-anthroyloxy) fatty acid probes where n = 2, 3, 6, 7, 9, 11, 12, and 16, to establish a baseline for future studies on the consequences of various pathological states. Fluorescence uptake and steady-state anisotropy values were obtained with a flow cytometer capable of continuous recording over time of vertical and horizontal emission intensities, with the output of these intensities as calculated anisotropy values. The fluorescence uptake of all of the membrane probes was rapid up to about 15 min. The magnitudes of the uptake of fluorescence was, for the n-(9-anthroyloxy) series, in the order 2 greater than 3 greater than 6 greater than 7 greater than 9 greater than 11 = 12 = 16 for neutrophils, lymphocytes, and monocytes. Anisotropy values were constant from 5 to 30 min after addition of the various probes. The orders of the anisotropy magnitudes, indicative of the shapes of the fluidity gradient, were, for neutrophils, 6 greater than 7 greater than 9 greater than 2 = 3 = 11 = 12 greater than 16, for lymphocytes, 7 greater than 6 greater than 9 greater than 11 greater than 2 = 3 greater than 11 = 12 greater than 16, and for monocytes, 9 greater than 7 greater than 6 greater than 11 greater than 2 = 3 greater than 12 greater than 16. The kinetics of anisotropy from 1 to 5 min after addition of the probes differed for each of the three cell types. Probes with an n-value less than or equal to the maxima (n = 6, neutrophils; n = 7, lymphocytes; n = 9, monocytes) rapidly (1.2 min) reached equilibrium, whereas those probes with n-values greater than the maxima took progressively longer times to equilibrate as n increased. This behavior is consistent with the existence of an energy barrier just below the approximate region sensed by the probes, which would correspond to just below 6AS for neutrophils, 7AS for lymphocytes, and 9AS for monocytes.     

超氧化物歧化酶对创伤小鼠淋巴细胞膜流动性及功能的影响

研究了超氧化物歧化酶（ＳＯＤ）对创伤小鼠淋巴细胞膜流动性及功能的影响。结果显示,ＳＯＤ体内应用（１００００Ｕ／ｋｇｄ,伤后０－３ｄ）可明显降低创伤小鼠血清、脾脏、胸腺、肠系膜淋巴结组织及Ｔ细胞中丙二醛（ＭＤＡ）含量,提高淋巴细胞膜及Ｔ细胞质膜、线粒体膜、微粒体膜的流动性,对创伤后Ｔ细胞转化活性降低、白细胞介素２（ＩＬ－２）生成减少、ＩＬ－２受体（ＩＬ－２Ｒ）表达受抑、ＩＬ－２介导的淋巴细胞增殖反应（ＩＬ－２ＭＬＰＲ）降低均具有不同程度的恢复作用。表明ＳＯＤ可保护创伤后淋巴细胞免受氧自由基的损害,并提高淋巴细胞的功能。     

Effect of ethanol intake on human erythrocyte membrane fluidity and lipid composition

Erythrocyte membrane fluidity was evaluated in chronic alcoholic patients without any liver alteration, assuming different daily ethanol amounts, and in normal subjects and related to ghost fatty acid and total lipid composition obtained by high resolution gas chromatography. Erythrocyte membrane fluidity was significantly increased in a dose dependent manner in chronic alcoholic patients respect to normal subjects. This real fluidizing effect of ethanol "in vivo" was attributed mainly to a significant increase in the polyunsaturated fatty acids amount in patient ghosts in comparison with control subjects. On the other hand the cholesterol/phospholipid ratio was not significantly affected by chronic ethanol assumption.     

Fatty acid metabolism in human lymphocytes. I. Time-course changes in fatty acid composition and membrane fluidity during blastic transformation of peripheral blood lymphocytes

The time-course changes in fatty acid composition of human T-lymphocytes during blastic transformation were analysed, as well as the variations in membrane fluidity determined by fluorescence polarization of 1,6-diphenyl-1,3,5-hexatriene (DPH), using a fluorescence-activated cell sorter. The more important changes observed, in activated relative to quiescent cells, started after 24 h and consisted in an increase in the proportion of oleic (18:1(n - 9)), docosapentaenoic (22:5(n - 3)) and docosahexaenoic (22:6(n - 3)) acids and a decrease in that of linoleic (18:2(n - 6)) and arachidonic (20:4(n - 6)) acids. This represented a relative increase of 26% for 18:1, 56% for 22:5 and 84% for 22:6 in peripheral blood mononuclear cells (PBMC) and 35%, 182% and 94%, respectively, in purified T-lymphocytes, both activated for 72 h. The decrease in n - 6 fatty acids was of 42% for 18:2 and 14% for 20:4 in PBMC and 30% and 19%, respectively, for 72 h. The decrease in n - 6 fatty acids was of 42% for 18:2 and 14% for 20:4 in PBMC and 30% and phosphatidylethanolamine) rather than neutral lipids. The 18:1/18:0 ratio increased greatly in major cell phospholipids. The proportion of 20:4, 22:5 and 22:6 in phosphatidylinositol was not significantly altered after 72 h of activation. The molar ratio cholesterol/phospholipids was reduced in 72-h-activated lymphocytes (0.29) compared to quiescent cells (0.5). On the other hand, the stimulation of human T-lymphocytes caused a significant decrease in the order parameter (S) of DPH, according to the observed changes in lipid composition. After 72 h in culture, the S value for quiescent and stimulated T-lymphocytes was 0.530 and 0.326, respectively. In conclusion, the blastic transformation of human T-lymphocytes is associated with changes in lipid composition which modify the physical properties of their membranes. These modifications could modulate, in turn, the activity of membrane proteins implicated in the process of blastic transformation.     

Effect of anti-inflammatory drugs on splenocyte membrane fluidity

In this study, fluorescence anisotropy measurements were performed using the fluorescent probe 1,6-diphenyl-1,3,5-hexatriene to investigate the effects on membrane fluidity resulting from the interaction between nonsteroidal anti-inflammatory drugs (NSAIDs)-indomethacin, diclofenac, piroxicam, tenoxicam, indoprofen, clonixin, and etodolac-and mouse splenocyte membranes. This study was performed in splenocyte membranes because most of the fluidity studies have been performed in membrane models; thus, clear correlations of the pharmacological action of drugs with molecular effects at the cellular membrane level were lacking. Besides providing a basis for studying the molecular mechanism of pharmacological action of NSAIDs, this research provides a data analysis of steady-state anisotropy measurements, taking into account that the probe itself strongly influences the data given that this problem is usually overlooked. Results show that the anti-inflammatory drugs indomethacin, diclofenac, piroxicam, and tenoxicam increase the membrane fluidity in a concentration-dependent manner. Their order of effectiveness reflected in their respective IC50 values (concentration of each NSAID required to increase the fluidizing effect ratio by 50%) is as follows: tenoxicam>piroxicam>indomethacin>clonixin. For the other drugs, the perturbation in membrane fluidity is not evident under these circumstances.     

Effects of pH on membrane fluidity of human erythrocytes

The effects of pH on the membrane fluidity of intact human erythrocytes, ghosts, and their lipid vesicles were studied by spin label techniques in the range of pH 3.0 to 9.1. Two fatty acid spin labels, 5-nitroxide stearic acid (5NS) and 12-nitroxide stearic acid (12NS), and a maleimide spin label were used for the labeling of the membrane lipids and proteins, respectively. The outer hyperfine splitting (T parallel) was measured as a parameter of membrane fluidity. In the case of 5NS, the T parallel values for intact erythrocytes and ghosts remained almost constant over the entire pH range at 22 degrees C but those for their lipid vesicles changed slightly, indicating the vertical displacement of the labels in lipid bilayers. On the other hand, the ESR spectra of 12NS incorporated into intact erythrocytes and ghosts, as compared with their lipid vesicles, showed marked pH dependence. By means of spin labeling of membrane proteins, the conformational changes of the proteins were observed in the pH range mentioned above. These results suggest a possible association between the strong pH dependence of the T parallel values and the conformation changes of membrane proteins. The pH dependence of the membrane fluidity was also investigated in cholesterol-enriched and -depleted erythrocytes. The effects of cholesterol demonstrated that the membrane fluidity was significantly mediated by cholesterol at low pH, but not at high pH.     

Capping of saccharides on the plasma membrane of lymphocytes as studied by fluorescein-labelled lectins

The capping of saccharides on the plasma membrane of rat splenic lymphocytes was studied by means of fluorescein-labelled lectins. Treatment of unfixed splenic lymphocytes with any one of the three lectins, concanavalin A (Con A), Ricinus communis agglutinin (RCA) and wheat germ agglutinin (WGA) led to the formation of caps of each saccharide receptor on the plasma membrane. Treatment of unfixed lymphocytes with Con A was found to result in the formation of caps of saccharide receptors for RCA, whereas cap formations were never noted in such double treatment of the cells with all other combined uses of two lectins. These results are taken to indicate that the saccharide receptors for Con A are associated with those for RCA in the plasma membrane of rat splenic lymphocytes.     

Effect of membrane fluidity on photosynthetic oxygen production reactions

The effect of changes of membrane fluidity on the oxygen evolving capability of isolated thylakoids was investigated. Alteration of the lipid phase fluidity was achieved by incorporation of the plant sterol stigmasterol. Incorporation of stigmasterol in the lipid bilayer of thylakoid membranes results in rigidization of the hydrophobic phase of thylakoid membranes and decreases the degree of packing of the lipid head groups. These changes of lipid order are accompanied by a reduction of oxygen evolution, measured with 1,4-benzoquinone as an electron acceptor, and by a more pronounced inhibition of PSI-mediated electron transport. By analysis of the parameters of oxygen flash yields and oxygen burst under continuous illumination it was shown that after treatment with stigmasterol: 1.) the number of active oxygen-evolving centres decreased; 2.) the remaining active oxygen-evolving centres were not affected in respect to the oscillation pattern; 3.) the contribution of the slow oxygen-evolving centres in oxygen burst yield was increased. The effect of stigmasterol was compared with the well-studied effect of cholesterol. Results were discussed in terms of determining the role of lipid order for the organization and functioning of the photosynthetic machinery.     

Effect of temperature on membrane fluidity and protoplast fusion

Summary The fusion of plant protoplasts is greatly enhanced by a rise in temperature in the presence of the fusion-inducing agents polyethylene glycol or polyvinyl alcohol. Kinetic analysis of this reaction reveals that membrane fluidity is important in regulating the fusion process.This work was supported by a grant from the Japanese Ministry of Education. (No. 310410 and No. 211115).     

Effect of sulfur exposure on protease activity in human peripheral blood lymphocytes

Sulfur mustard is a waemical warfare blistering agent for which neither the mechanism of action nor an antidote is known. Papirmeister et al. (1985) have postulated a biochemical hypothesis for mustard-induced cutaneous injury involving a sequelae of DNA alkylation, metabolic disruption and activation of protease. Human peripheral blood lymphocytes in cell cultures were employed as an in vitro model for alkylating agent toxicity. A chromogenic peptide substrate assay was used for detection of protease in lymphocytes treated with sulfur mustard or chloroethyl ethyl sulfide. Exposure of human peripheral blood lymphocytes from normal donors to these alkylating agents resulted in an increase in cell associated protease activity. This increase in protease activity may contribute to the pathology or act as an indicator to predict methods of therapeutic intervention for sulfur mustard toxicity.Abbreviations PBL peripheral blood lymphocytes - CEES chloroethyl ethyl sulfide - DFP diisopropyl fluoro-phosphate - pNA p-nitroaniline - CPSPA Chromogenic Peptide Substrate Protease AssayThe opinions or assertions herein are the private views of the authors and are not to be construed as official or as reflecting the views of the Department of the Army or the Department of Defense.     

Interaction of human erythrocyte Band 3 with Ricinus communis agglutinin and other lectins

Agglutination and competition studies suggest that human erythrocyte Band 3 can interact with both mannose/glucose- and galactose-specific lectins. Purified Band 3 reconstituted into lipid vesicles binds concanavalin A, but the nonspecific binding component, measured in the presence of alpha-methylmannoside, is very high. This glycoprotein also carries binding sites for the galactose-specific lectin Ricinus communis agglutinin. Binding was inhibited poorly by lactose, but much more effectively by desialylated fetuin glycopeptides, suggesting that the lectin recognizes a complex oligosaccharide sequence on Band 3. The glycoprotein bears two separate classes of binding sites for R. communis agglutinin. High-affinity binding sites exist which show strong positive cooperativity and correspond in number to the outward-facing Band 3 molecules. A low-affinity binding mode is abolished by 40% ethyleneglycol, suggesting the involvement of hydrophobic lectin-glycoprotein interactions. Studies on binding of R. communis agglutinin to human erythrocytes indicate positively cooperative binding to 7 X 10(5) very-high-affinity sites per cell, and lectin binding is completely inhibitable by lactose. Based on its binding characteristics in vesicles, it seems likely that Band 3 forms the major receptor for this lectin in human erythrocytes. Properties such as positive cooperativity thus appear to be a common feature of the interaction of Band 3 with a variety of lectins of different specificity, both in erythrocytes and lipid bilayers.     

Mitogenic receptors on human peripheral blood lymphocytes: the interaction of Phaseolus vulgaris erythroagglutinating phytohemagglutinin and anti-thymocyte globulin on the human peripheral blood lymphocyte membrane.

A horse anti-human thymocyte antibody (ATG) obtained from the Upjohn Company was shown to stimulate DNA synthesis in human lymphocytes with a time course and magnitude of radioactive thymidine uptake comparable to that seen with phytohemagglutinin (E-PHA) and concanavalin A (Con A). Low mitogenic or nonmitogenic concentrations of intact ATG or its Fab fragments inhibited E-PHA-induced mitogenesis, whereas the response to Con A was unaffected. Competitive binding studies with ATG and E-PHA revealed mutual inhibition of binding to lymphocytes suggesting that E-PHA and the ATG share a common receptor site on the cell surface. ATG binding was unaffected by Con A. From the analysis of the binding data and the inhibition of mitogenesis, it appears that at least part of the E-PHA response in human lymphocytes involves receptors that are not acted on by Con A.     

Effects of L-carnitine and palmitoylcarnitine on membrane fluidity of human erythrocytes

Amphiphilic compounds such as long-chain acyl carnitine accumulate in ischemic myocardium and potentially contribute to the myocardial damage, and the role of carnitine in protecting the heart against ischemic damage is interesting. It has been reported that palmitoylcarnitine causes alterations in the membrane molecular dynamics, so this study was designed to investigate whether L-carnitine had a stabilizing effect of membrane fluidity using the spin-label technique. Human erythrocytes were spin-labeled with 5-doxylstearic acids, and membrane fluidity was quantified by measuring the change in the order parameter S. The administration of palmitoylcarnitine (100 microM) altered the membrane fluidity of erythrocytes and caused significant morphological changes. L-carnitine (2mM) decreased the alteration of the fluidity of erythrocytes incubated with palmitoylcarnitine (100 microM), and improved the morphological changes in erythrocytes. These results show that L-carnitine has a stabilizing effect of membrane fluidity as a result of interaction with the palmitoylcarnitine which has a detergent effect.     

Effects of long-chain acyl carnitine on membrane fluidity of human erythrocytes

Amphiphilic compounds such as long-chain acyl carnitines accumulate in ischemic myocardium and potentially contribute to the myocardial damage. To characterize alterations in membrane molecular dynamics produced by palmitoylcarnitine, human erythrocytes were spin-labeled with 5-doxylstearic acid, and membrane fluidity was quantified by measuring the changes in the order parameter derived from ESR spectra. Palmitoylcarnitine induced triphasic alterations in membrane fluidity of human erythrocytes. The membrane fluidity increased for 5 min, then decreased in a concentration-dependent manner. At higher concentrations (100 and 150 μM) of palmitoylcarnitine, membrane fluidity increased again after 30 and 20 min of the incubation, respectively. Addition of 2.8 mM CaCl₂ resulted in a significant decrease in membrane fluidity and enhanced the alterations in membrane fluidity caused by palmitoylcarnitine. The results suggest that alterations in molecular dynamics are one mechanism through which long-chain acyl carnitine could play an important role in ischemic injury.     

Influence of membrane fluidity on human immunodeficiency virus type 1 entry

For penetration of human immunodeficiency virus type 1 (HIV-1), formation of fusion-pores might be required for accumulating critical numbers of fusion-activated gp41, followed by multiple-site binding of gp120 with receptors, with the help of fluidization of the plasma membrane and viral envelope. Correlation between HIV-1 infectivity and fluidity was observed by treatment of fluidity-modulators, indicating that infectivity was dependent on fluidity. A 5% decrease in fluidity suppressed the HIV-1 infectivity by 56%. Contrarily, a 5% increase in fluidity augmented the infectivity by 2.4-fold. An increased temperature of 40 degrees C or treatment of 0.2% xylocaine after viral adsorption at room temperature enhanced the infectivity by 2.6- and 1.5-fold, respectively. These were inhibited by anti-CXCR4 peptide, implying that multiple-site binding was accelerated at 40 degrees C or by xylocaine. Thus, fluidity of both the plasma membrane and viral envelope was required to form the fusion-pore and to complete the entry of HIV-1.     

Effect of estradiol on the membrane fluidity of the rat vaginal epithelial cells

Changes in the cell surface of vaginal epithelial cells were studied by scanning microscopy and fluorescence spectroscopy. Microvilli which are prominent features of the vaginal epithelial cells in proestrus and diestrus are replaced by sheet-like structures in the estrus phase. Surface morphology of vaginal epithelial cells of estradiol primed rat resembles the vaginal cells from estrus phase rats whereas vaginal cells from control rats resembles the diestrus phase. Measurement of the fluidity of the membranes indicated that the vaginal epithelial cell membrane of estrus rats is more fluid compared to proestrus and diestrus. Similarly, estradiol primed immature rat vaginal epithelial cell membrane was observed to be more fluid than the corresponding control.