Membrane fluidity of platelets and erythrocytes in patients with Alzheimer's disease and the effect of small amounts of aluminium on platelet and erythrocyte membranes

The membrane fluidity of platelet and erythrocyte membranes in 10 Alzheimer's disease patients and 9 age-matched controls was studied. The platelet membranes of patients with Alzheimer's disease were found to be significantly more fluid than those of controls (p<0.02). However, erythrocyte membranes of Alzheimer patients were less fluid (more viscous) than those of controls (p<0.05). On further investigation of platelet and erythrocyte membranes obtained from healthy volunteers, the fluidity was found to change with increasing aluminium concentrations. When aluminium ammonium sulphate (0.01–10 M) was added to membrane suspensions, the fluidity of platelet membranes was increased, whereas the fluidity of erythrocyte membranes was decreased (i.e. the microviscosity was increased).     

The role of the plasma membrane fluidity on the shear sensitivity of hybridomas grown under hydrodynamic stress

The role of the plasma membrane fluidity (PMF) on the shear sensitivity of HB-32 hybridomas to laminar fluid shear was investigated. Steady-state fluorescence anisotropy (r(s)) of the cationic fluorescent probe 1-[4-(trimethylamino) phenyl]-6-phenylhexa-1,3,5-triene, was used to evaluate the PMF of whole hybridoma cells. The PMF was manipulated by the addition of the anesthetic benzyl alcohol, by temperature changes and by cholesterol enrichment. The effect of these PMF modifying procedures on the shear sensitivity of HB-32 was assessed by exposing the cells to defined levels of laminar shear stress in a Couette flow device. Conditions that resulted in lower r(s) values (indicating higher PMF) yielded a more fragile cell. Batch cultivations supplemented with the shear protective agent Pluronic(R) F-68 showed higher values of r(s) compared to control experiments during various growth phases, suggesting that the protective mechanism of Pluronic F-68 relies on its ability to decrease the PMF through direct interaction with the plasma membrane. The protective mechanism of serum against turbulent fluid shear is also discussed from analysis of growth and death kinetics of agitated and static cultures at increasing serum levels. The results of this study show that the fluid state of the plasma membrane is important in determining the integrity of hybridomas when exposed to lethal shear levels. It is concluded that increasing membrane fluidity correlates with increasing shear sensitivity.     

Incorporation of β-sitosterol into mitochondrial membrane enhances mitochondrial function by promoting inner mitochondrial membrane fluidity

Recent findings suggest that mitochondrial membrane fluidity could influence mitochondrial energy metabolism. β-sitosterol (BS) is a common plant sterol that is prevalent in plant oils, nuts, cereals and plant food products. Its chemical structure is very similar to that of cholesterol. As a cholesterol analog, BS is highly lipid soluble and largely resides in the membranes of cells or organelles where it may have an influence on the membrane fluidity. The present study reports that, with the cholesterol chelator 2-hydroxypropyl-β-cyclodextrin (HPβCD) as its carrier, BS is able to increase the fluidity of the inner mitochondrial membrane (IMM) without affecting the fluidity of the outer mitochondrial membrane (OMM), and consequently to increase the mitochondrial membrane potential (?Ψm) and mitochondrial ATP content. It has been previously proposed that a therapeutical boost in adenosine triphosphate (ATP) levels in mitochondria may be beneficial for neurodegenerative diseases such as Alzheimer’s disease (AD). Given that dietary administration of plant sterols could increase brain BS concentrations, these results may provide a better understanding of the beneficial effects of plant sterol-enriched nutrients on neurodegenerative diseases such as AD.     

Biochemical Aspects of Neurodegeneration in Human Brain: Involvement of Neural Membrane Phospholipids and Phospholipases A<Subscript>2</Subscript>

Neural membrane phospholipids are hydrolyzed by a group of enzymes known as phospholipases. This process results in the generation of second messengers such as arachidonic acid, eicosanoids, platelet activating factor, and diacylglycerols. High levels of these metabolites are neurotoxic and are associated with neurodegeneration. The collective evidence from many studies suggests that neural membrane phospholipid metabolism is disturbed in neural trauma and neurodegenerative diseases. This disturbance is caused by the stimulation of phospholipases A₂. Stimulation of these enzymes produces changes in membrane permeability, fluidity, and alteration in ion homeostasis. Low calcium influx produces mild oxidative stress and results in neurodegeneration promoted by apoptosis, whereas a calcium overload generates high oxidative stress and causes neurodegeneration associated with necrosis. Alterations in phospholipid metabolism along with the accumulation of lipid peroxides and compromised energy metabolism may be responsible for neurodegeneration in ischemia, spinal cord trauma, head injury, and Alzheimer disease. The synthesis of phospholipases A₂ inhibitors that cross the blood-brain barrier without harm may be useful for the treatment of acute neural trauma and neurodegenerative diseases.Special issue dedicated to Dr. Lawrence F. Eng.     

Docosahexaenoic acid but not eicosapentaenoic acid withstands dietary cholesterol-induced decreases in platelet membrane fluidity

To determine the differenetial effects of docosahexaenoic (DHA) and eicosapentaenoic (EPA) acid on platelet membrane fluidity under hypercholesterolemic conditions. DHA and EPA were orally administered (300 mg/kg body weight^.day) to hypercholesterolemic rats for 12 weeks. Membrane fluidity, evaluated by fluorescence polarization of nonpolar 1,6-diphenyl-1,3,5-hexatriene (DPH), of the platelets of high cholesterol (HC; 1%)-fed rats decreased significantly compared with that of the platelets of normocholesterolemic rats. In HC-fed rats, dietary administration of DHA, unlike that of EPA, significantly increased platelet membrane fluidity. A high cholesterol diet significantly increased platelet aggregation, compared with the platelet aggregation of normocholesterolemic rats. DHA administration significantly decreased the aggregation, whereas EPA had no effect. Levels of EPA in the platelets of the EPA-fed HC rats and those of DHA in the platelets of the DHA-fed HC rats increased by 482 and 174%, respectively, compared with those in the platelets of the HC-fed rats. The unsaturation index and the ratio of saturated to (poly)unsaturated fatty acid of the platelet membrane increased only in the DHA-fed rats. The phospholipid content in platelet membranes remained unaltered in all groups, whereas the cholesterol content decreased significantly in DHA-fed rats, resulting in a significant decrease in the cholesterol/phospholipid molar ratio only in the platelet membranes of DHA-fed rats. These results suggest that DHA is a more potent membrane-fluidizer than EPA in withstanding cholesterol-induced decreases in platelet membrane fluidity and a stronger ameliorative modulator of platelet hyperaggregation.     

Effect of serum on the plasma membrane fluidity of hybridomas: an insight into its shear protective mechanism.

We have previously shown that decreasing the concentration of fetal bovine serum (FBS) increased the fragility of a mouse hybridoma (HB-32) during agitated batch cultivation and that increasing the plasma membrane fluidity (PMF) increased the shear sensitivity during exposure to laminar flow. In this study, the effect of FBS concentration on the PMF of HB-32 was investigated. PMF was evaluated by steady-state fluorescence anisotropy (rs) of 1-[4-(trimethylamino)phenyl]-6-phenylhexa-1,3,5-triene. Increasing serum concentration increased the rs of hybridomas, indicating a decrease in their PMF. The effect of cholesterol modulation on the PMF and shear sensitivity was also evaluated. Hybridomas were exposed to turbulent fluid shear after modification of PMF by cholesterol modulation. Direct cholesterol enrichment of the plasma membranes caused a decrease in the PMF and shear sensitivity, while cholesterol depletion caused an increase in PMF and shear sensitivity. Low- and high-density lipoprotein supplementation to cultures in serum-free or complete medium decreased their shear sensitivity. Lipoprotein supplementation to serum-free cultures decreased the PMF. Altogether, these results suggest that the protective mechanism of serum against hydrodynamic damage relies, at least partially, on its ability to decrease the PMF of hybridomas possibly through the transfer of cholesterol from the serum lipoproteins into the plasma membrane.     

Response of human blood platelet membrane to sodium selenite.

It was demonstrated that incubation of blood platelets with sodium selenite (1-100 microM) resulted in a dose- and time-dependent loss of platelet thiols (both glutathione and protein -SH groups). The effects of sodium selenite on platelet membrane lipid fluidity by the EPR spin-labelling method was also investigated. We showed there were no alterations in membrane fluidity at the deeper regions (12-DOXYL-Ste) in lipid bilayer, a slight increase (approx. 7%, p < 0.03) of h +1/h0 for spin probe 5-DOXYL-Ste was monitored. The amount of Triton-insoluble protein fraction isolated from platelets after incubation (60 min) with selenite was significantly elevated (p < 0.006). It has been suggested that limited increase in lipid fluidity at the surface regions in the lipid bilayer of the platelet membrane in selenite-treated platelets may be the result of alteration in lipid-protein interactions caused by protein conformational changes.     

Platelet release products modulate some aspects of polymorphonuclear leukocyte activation.

The aim of this research was to evaluate in vitro interactions between platelets and polymorphonuclear leukocytes. The effects of supernatant from thrombin-activated platelets and two platelet release products (adenosine triphosphate and beta-thromboglobulin) were tested on the following features of polymorphonuclear leukocytes activation: opsonized zymosan and phorbol myristate acetate stimulated chemiluminescence, release of membrane bound calcium, NADPH-oxidase activity, and membrane fluidity (fluorescent polarization). The results showed that the addition of platelet supernatant to polymorphonuclear leukocytes induces a significant activation of cells. On the other hand, after three hours of preincubation of polymorphonuclear leukocytes with platelet supernatant, a decreased response of polymorphonuclear leukocytes to stimulation with phorbol myristate acetate, a significant decrease in NADPH-oxidase activity, and a lowered membrane fluidity were observed. Adenosine triphosphate modulated only opsonized zymosan stimulated chemiluminescence, with and without preincubation with polymorphonuclear leukocytes. Beta-thromboglobulin caused a decrease of the chemiluminescent response of polymorphonuclear leukocytes, using both agonists, with and without preincubation with polymorphonuclear leukocytes. Moreover beta-thromboglobulin only caused a decrease of the polymorphonuclear leukocytes membrane fluidity without preincubation with the cells. These results support the thesis that platelets have a "time-related" modulating activity on polymorphonuclear leukocytes.     

Docosahexaenoic acid in the diet: its importance in maintenance and restoration of neural membrane function

The central nervous system has the second highest concentration of lipids after adipose tissue. Long chain fatty acids, particularly arachidonic acid and docosahexaenoic acid, are integral components of neural membrane phospholipids. Alterations in neural membrane phospholipid components cannot only influence crucial intracellular and intercellular signaling but also alter many membrane physical properties such as fluidity, phase transition temperature, bilayer thickness, and lateral domains. A deficiency of docosahexaenoic acid markedly affects neurotransmission, membrane-bound enzyme and ion channel activities, gene expression, intensity of inflammation, and immunity and synaptic plasticity. Docosahexaenoic acid deficiency is associated with normal aging, Alzheimer disease, hyperactivity, schizophrenia, and peroxisomal disorders. Although the molecular mechanism of docosahexaenoic acid involvement in the disorders remains unknown, the supplementation of docosahexaenoic acid in the diet restores gene expression and modulates neurotransmission. Also, improvements are seen in signal transduction processes associated with behavioral deficits, learning activity, peroxisomal disorders, and psychotic changes in schizophrenia, depression, hyperactivity, stroke, and Alzheimer disease.     

Association of age-related decrease in platelet membrane fluidity with platelet lipid peroxide

The influence of age on platelet lipid peroxide (LPO), platelet membrane fluidity and the composition of fatty acid was investigated in female Wistar rats widely ranging in age from 14 to 720 days old. LPO levels were significantly higher (p<0.05) in the platelets of upper age groups than in those of lower age groups, showing a significantly positive correlation with age (r=0.84, p<0.0001). Membrane fluidity, assessed by 1,6-diphenyl-1,3,5-hexatriene (DPH) fluorescence polarization, was significantly reduced with age. The composition of fatty acid demonstrated an age-related elevation (p<0.05) in the unsaturation index. The rises in the LPO levels revealed a significantly positive correlation with DPH-polarization (r=0.73, p<0.0001). Thus our results suggested that the age-related deterioration of platelet membrane fluidity, despite a significant elevation in the unsaturation index, was due to the age-related higher basal levels of LPO in platelets.     

Influence of dietary fatty acids on membrane fluidity and activation of rat platelets

The apparent steady-state fluorescence anisotropy of DPH- or TMA-DPH-labeled washed rat platelets is strongly affected by factors that also influence the turbidity by these platelet suspensions. Sonicated preparations from platelet lipids have a low turbidity and give anisotropy values which are hardly affected by the experimental conditions. We studied the effect of four high-fat diets on membrane fluidity, lipid composition and activation tendency of washed platelets. The diets contained 50 energy% of oils with different levels of saturated and (poly)unsaturated fatty acids. Only small diet-induced differences in DPH fluorescence anisotropy were found, which were comparable for intact platelets and platelet lipids. These differences were unrelated to the degree of saturation of the dietary fatty acids. Platelets from rats fed mainly saturated fatty acids differed significantly from other diet groups in a higher unsaturation degree of phospholipids and a lower cholesterol/phospholipid ratio, but this was not detected by DPH in terms of decreased anisotropy. These platelets aggregated less than other platelets in response to thrombin or collagen. The lower response to collagen persisted in indomethacin-treated platelets activated with the thromboxane A2 mimetic U46619, indicating a different sensitivity of these platelets for thromboxane A2. We conclude that in rat platelets: (a) the overall membrane fluidity and phospholipid unsaturation degree are subject to strong homeostatic control; (b) steady-state anisotropy with DPH or TMA-DPH label is inadequate to reveal subtile changes in lipid profile; (c) changes in platelet responsiveness to thrombin and thromboxane A2, rather than (plasma) membrane fluidity, determine the effect of dietary fatty acids on platelet aggregation.     

Effects of long-chain cis-unsaturated fatty acids and their alcohol analogs on aggregation of bovine platelets and their relation with membrane fluidity change

The effects of long-chain cis-unsaturated fatty acids with different alkyl chain lengths and different numbers of double bonds on aggregation of bovine platelets and membrane fluidity were investigated. All the cis-unsaturated fatty acids tested inhibited aggregation and at the same time increased membrane fluidity in accordance with their inhibitory effects. The saturated fatty acids and trans-unsaturated fatty acid tested for comparison had much lower or no effects on aggregation and membrane fluidity. The inhibitory effects of mono cis-unsaturated fatty acids increased with increase of their alkyl chain length. cis-Unsaturated fatty acids with two or more double bonds had more inhibitory effects than mono-unsaturated fatty acids. The position of the double bonds had less influence than the number of double bonds. We also examined the effects of cis-unsaturated fatty acids on membrane fluidity with diphenylhexatriene and anthroyloxy derivatives of fatty acids as probes and observed increased fluidity to be considerable in the membrane. The alcohol analogs of cis-unsaturated fatty acids also inhibited aggregation and increased membrane perturbation. These results suggest that the inhibition of platelet aggregation by cis-unsaturated compounds is due to perturbation of the lipid layer.     

Comparison between in vitro lipid peroxidation in fresh sheep platelets and peroxidative processes during sheep platelet ageing under storage at 4 degrees C.

Incubation of sheep platelet crude membranes with xanthine oxidase (XO)/hypoxanthine/Fe(2+)-ADP revealed: (i) a fast peroxidative response - with a maximal linear rate of 14 nmol malondialdehyde (MDA) equivalents/mg protein, as evidenced by the thiobarbituric acid test - and a decrease in the polyunsaturated fatty acid (PUFA) content of the platelet crude membranes; (ii) a decrease in the lipid fluidity in the deep lipid core of the membranes but not at the membrane surface; (iii) a dramatic inhibitory effect on glucose 6-phosphatase (Glc-6-Pase) but not on acetylcholinesterase activity. Platelets were also aged by storage at 4 degrees C in their own plasma or in Seto additive solution. In these media, platelet aggregates were visible and the effects on platelet phospholipids, PUFA, lipid extract fluorescence, crude membrane fluidity and membrane-bound enzyme activities were assessed for comparison with those observed in in vitro lipid peroxidation. The sensitivity of membranes from stored platelets to lipid peroxidation was also assessed. Storage of platelets in plasma for 5 days was associated with different changes in their crude membranes such as decreases in arachidonic acid contents, the decrease not being avoided by the presence of phospholipase A(2) inhibitors, increases in MDA equivalents, conjugated dienes and lipid extract fluorescence, decreases in the amounts of MDA equivalents formed by platelet crude membranes treated with the oxidizing agents, changes in membrane fluidity and inhibition of Glc-6-Pase. All these alterations were less pronounced or even abolished after platelet storage in Seto. These findings suggest that platelet lipid peroxidation due to XO/hypoxanthine/Fe(2+)-ADP and platelet membrane alterations observed after platelet ageing under storage at 4 degrees C share common features. Also, as regards the prevention of peroxidative processes, Seto solution permits better storage of sheep platelets than plasma.     

Multidimensional stopped-flow photometry monitoring initial processes of platelet activation

A group of initial processes in platelet activation, consisting of a platelet shape change, an intracellular calcium mobilization, a calcium efflux, and a membrane fluidity (mobility) change, has been examined in rabbit platelets by a multidimensional stopped-flow method with light scattering, light transmission, and fluorescence measurements. It was found that a 90 degrees light scattering change and internal calcium release (monitored in terms of chlortetracycline fluorescence) take place after a short lag (5 s at 25 degrees C and 2 s at 37 degrees C) following activation by thrombin. The duration of the lag was the same in both cases. During the initial lag period, a rapid increase in platelet membrane fluidity (mobility) was observed by the use of pyrene excimer fluorescence. These results suggest that the intracellular calcium mobilization and the shape change are triggered by the same rate-determining step, and increase in membrane mobility may play some role in the initial stage of platelet activation before intracellular calcium mobilization occurs.     

The effects of a weak permanent magnetic field on the lipid composition and content in the onion leaves of various ages

We have studied the effects of a weak permanent magnetic field (PMF) with strength of 403 A/m on the composition and content of polar and neutral lipids and the composition of their fatty acids (FAs). The lipids were isolated from the third, fourth, and fifth leaves of onion (Allium cepa L., cv. Arzamasskii) plants, and their composition was determined using TLC and GLC techniques. Plants growth under the conditions of a natural geomagnetic field served as a control. Most intense changes in the lipid content induced by PMF were observed in the fourth onion leaf. The content of total lipids and that of polar lipids (glyco-and phospholipids) changed, whereas the content of neutral lipids either decreased or remained unchanged. The phospholipid/sterol ratio increased, causing an increase in the fluidity of the membrane lipid bilayer. PMF induced an increase in the concentration of linolenic acid and the relative content of total unsaturated FAs. The effects of PMF on the content and composition of lipids in the third and fifth onion leaves were less pronounced, demonstrating differences between the leaves of various ages in their sensitivity to the effects of magnetic field. It is concluded that changes in the weak PMF within the limits of changes in the strength of geomagnetic field in the course of evolution can affect biochemical and physiological processes of plants.     

Investigation of changes in fluidity of brain membranes in mice bearing experimental Alzheimer’s disease using spin labeling electron paramagnetic resonance

Changes in fluidity of membranes isolated from the microsomal and crude synaptosomal fractions which were obtained from forebrain tissue of mice bearing experimental Alzheimer’s disease induced with olfactory bulbectomy were studied. Membrane microviscosity was measured by electron paramagnetic resonance with 2,2,6,6-tetramethyl-4-capryloyl-oxypiperidine-1-oxyl and 5,6-benzo-2,2,6,6-tetramethyl-1,2,3,4-tetrahydro-γ-carboline-3-oxyl as spin labeling. Phasic alterations in relative fluidity were found during the development of experimental Alzheimer’s disease pathology. These changes correlate with the stages of “clinical” features. Main abnormalities were related to structural changes in near-protein region of the lipid bilayer.     

三磷酸腺苷结合盒转运体和细胞胆固醇外排

胆固醇是细胞质膜的重要组成成分。然而,过多的胆固醇累积可导致细胞中毒。异常的胆固醇胞内迁移与蓄积是造成许多心血管疾病如动脉粥样硬化的分子基础。细胞内胆固醇稳态由胆固醇的吸收、合成及外排等一系列过程调控。在哺乳动物细胞中,调节胆固醇合成、吸收和外排是维持体内胆固醇平衡的必要生理过程。本综述着重概述了三磷酸腺苷结合盒转运体(ABC)家族,如ABCA1、ABCG1、ABCG5和ABCG8的细胞功能及生理作用,以及这些转运体在调控胆固醇胞外转运中的分子机制。     

Effects of calcium,lanthanum, and temperature on the fluidity of spin-labeled human platelets

Summary Previous platelet studies have shown that calcium plays important roles in stimulus-secretion coupling, aggregation, and other membrane-associated functions. In addition, lanthanum induces platelet aggregation and the platelet release reaction and also influences platelet responsiveness to various stimuli. The spin-label results presented here suggest that one mechanism through which calcium and lanthanum mediate their effects on platelet functions may be by decreasing the lipid fluidity of the surface membrane.The structure of platelet membrane lipids was examined with the spin-label method. Washed human platelets were labeled with the 5-, 12- and 16-nitroxide stearic acid spin probes. Order parameters which measure the fluidity of the lipid environment of the incorporated probe may be calculated from the electron spin resonance (ESR) spectra of 5-nitroxide stearate [I(12,3)]-labeled cells. Evidence is presented which indicates that these spectra principally reflect properties of the platelet surface membrane lipids. The membrane fluidity increased with temperature for the range 17 to 37 °C. Either calcium or lanthanum additions to intact cells increased the rigidity of the platelet membranes at 37 °C, although the La³⁺ effect was larger and occurred at lower concentrations than that of Ca²⁺. For example, addition of 1mm La³⁺ or 4mm Ca²⁺ increased the order parameter of I(12,3)-labeled platelets by 4.3±1.7% or 2.1±0.5%. Preliminary studies conducted on purified platelet plasma membranes labeled with I(12,3) indicated that 1mm LaCl₃ or 4mm CaCl₂ additions similarly decreased the lipid fluidity at 37 °C. The above cation-induced effects on the fluidity of whole platelets were reversed by the use of the divalent cation-chelating agent ethylene glycol-bis-(-aminoethyl ether)-N,N-tetra-acetic acid (EGTA). Lastly, lanthanum (0.2–1mm) caused rapid aggregation of platelets which were suspended in a 50-mm Tris buffer pH 7.4 that did not contain adenosine.     

Oxidative and drug-induced alterations in brush border membrane hemileaflet fluidity, functional consequences for glucose transport

Oxidation of biological membranes has been suggested as a major pathological process in a variety of disease states including intestinal ischemia and inflammatory bowel disease. Previous studies on the small intestinal brush border membrane have shown that part of the decrease in the activity of the Na(+)-dependent glucose transporter (SGLT1) observed after oxidation could be secondary to the derangement in membrane fluidity that accompanied oxidative damage. The present study examined the relationship between oxidative-induced hemileaflet fluidity alterations and the resultant change in Na(+)-dependent glucose transport activity. To address this issue, in vitro oxidation of guinea pig brush border membrane vesicles was induced by incubation of the vesicles with ferrous sulfate and ascorbate. We found that oxidation decreased the fluidity of both the outer and inner hemileaflets, the decrease being greater in the outer leaflet. Moreover, the preferential alteration in hemileaflet fluidity was accompanied by a decrease in glucose transport. However, when membrane perturbing agents such as hexanol and A(2)C were used to restore membrane fluidity to levels comparable to controls, rates of glucose transport could not be interpreted in terms of variation of bulk membrane fluidity or variation in fluidity of any specific membrane leaflet. On the basis of these experiments, we propose that previous studies that reported coincidental alteration in membrane fluidity and glucose transport cannot be interpreted on the basis of bulk fluidity or hemileaflet fluidity.     

Study of anti-amnesic activity of amiridin in a model of amnesic syndrome

The model of amnestic syndrome obtained by treatment with scopolamine during 20 days in rats was used to study anti-amnesic activity of amiridin in comparison with that of tacrine, physostigmine and piracetam. Multiple injection of Sc resulted in significant deterioration of rats, performance in passive avoidance test. Behavioral disorders were accompanied by such changes in lipid composition of brain synaptosomes which indicated a decreased membrane fluidity. Amiridin and tacrine as well as piracetam showed anti-amnesic action which in the course of treatment correlated with their normalizing effect on lipid content of synaptosomes. The diverse effect of amiridin and tacrine with respect to physostigmine implies that the former drugs can't be attributed to anticholinesterase preparations which are traditionally used in the treatment of Alzheimer disease.