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1.
Summary The effects of various conditions in lysing and resealing the red cell membrane on the degree of ghost deformation and orientation in flow are investigated using the flow EPR and spin-label method. The relatively low deformability of the standard ghost, which is lysed and resealed, respectively, in hypotonic and isotonic NaCl-Tris buffer, is markedly enhanced by the presence of Mg-ATP, chlorpromazine, or Ca2+ ion during resealing. The effect is concentration dependent, and there is an optimal level for each treatment. Chlorpromazine and Ca2+ are also effective when added to the resealed ghosts. Mg2+ ion shows an opposite effect reducing the ghost deformability in flow at all concentrations. An isotonic lysis in NH4HCO3 solution with less osmotic stress substantially raises ghost deformability above that of the standard ghosts. These results are interpreted on the basis of a misalignment between the bilayer leaflets that is probably brought about during hypotonic lysis and its recovery to the nearly normal bilayer state by the agents used during or after resealing. The novel finding of deformability enhancing effect of calcium is assumed to be caused by the electrostatic expansion of the inner layer relative to the outer leaflet. The explanations are supported by the resealed ghost shapes observed before and after the treatments; shape recovery from the monoconcave spheroid toward biconcave discoid is observed in most cases concomitantly with improvements of flow characteristics.  相似文献   

2.
Endocytosis in white ghosts prepared from human erythrocytes was induced by three methods: incubation with Mg-ATP, incubation with 0.1 mM EDTA, and digestion with 20 nanograms (ng.) per ml. of trypsin. In each case the endocytic vacuoles that were produced when separated and analyzed on SDS-polyacrylamide gel electrophoresis were found to be depleted of spectrin. This observation suggested that a requirement for endocytosis is the establishment of spectrin-free domains in the membrane. This hypothesis was tested by pre-incubating ghosts with anti-spectrin antibodies. Pre-incubation with anti-spectrin antibody blocked white ghost endocytosis produced either by Mg-ATP, EDTA, or trypsin. Therefore, it is proposed that spectrin has a key role in the endocytosis process.  相似文献   

3.
It has been shown that Se can markedly prevent the dissociation of spectrin from erythrocyte ghosts. We now report that the transformation of incubated spectrin oligomers to its tetramers and dimers was obviously decreased in the presence of trace amounts (0.5-2.0 p.p.m.) of Na2SeO3. The spectrin tetramers and dimers are in a reversible equilibrium and Se could alter this equilibrium in favour of tetramers. This Se effect is concentration dependent and an inverse result was obtained with higher Na2SeO3 concentrations (greater than 4.0 p.p.m.). We suggest that the equilibrium state of the spectrin tetramer-dimer may be governed by a conformation adjustment induced by Se and the difference in conformation in the presence of low and high Na2SeO3 concentration may lead to an alteration of the spectrin tetramer-dimer balance.  相似文献   

4.
In this study we examined the effect of carnitine and acetylcarnitine on the human erythrocyte membrane stability and membrane deformability. Since erythrocyte membranes are impermeable to these compounds, we resealed erythrocyte ghosts in the presence of different concentrations of carnitine or acetylcarnitine. Resealed ghosts can be adequately studied in their cellular deformability and membrane stability properties by means of ektacytometry. Both carnitine and acetylcarnitine alter the membrane stability but not membrane deformability of the red cell membrane. Resealed ghosts containing 20, 50, 150, and 300 microM carnitine had 1.1, 1.6, 0.9, and 0.7 times the normal stability. While resealed ghosts containing 20, 50, 150, and 300 microM acetylcarnitine had 1.1, 1.5, 1.3, and 1.2 times the normal stability. Such changes were found to be reversible. We also conducted SDS PAGE of cytoskeletal membrane proteins from membrane fragments and residual membranes produced during membrane stability analysis, and unsheared resealed membranes in those samples where we observed an increase or a decrease of membrane stability. No changes in the cytoskeletal membrane proteins were noticed, even when the samples, prior SDS PAGE analysis, were treated with or without dithiothreitol. In addition, fluorescence steady state anisotropy of DPH in the erythrocyte membrane treated with carnitine or acetylcarnitine shows no modification of the lipid order parameter. Our results would suggest that both carnitine and its acetyl-ester, at physiological concentrations, may increase membrane stability in mature erythrocytes, most likely via a specific interaction with one or more cytoskeletal proteins, and that this effect would manifest when the erythrocytes are subjected to high shear stress.  相似文献   

5.
Two steps were required for ATP-dependent endocytosis in resealed erythrocyte ghosts. The first step required incubation with Mg-ATP at 37 °C, while the second step required primaquine and occurred at 0 or at 37 °C. These two steps were apparently also required for ATP-dependent endocytosis in erythrocytes. Endocytosis in white ghosts was similar to that in resealed ghosts and erythrocytes; the main difference was that the requirement of primaquine for the second step was less strict in white ghosts; in them, appreciable endocytosis took place with no added primaquine. Nonetheless, endocytosis in all three types of cells was stimulated by primaquine. The fluidity of the membranes as sensed by spin-labeled phosphatidylcholine was measured with and without primaquine. The fluidity of erythrocytes was increased by addition of primaquine or by conversion of the erythrocytes to white ghosts; the effect primaquine had on the fluidity of white ghosts was not detectable by the spin label. This suggested that a fluidizing or loosening of the membrane structure was required for the second step of ATP-dependent endocytosis, and that this loosening could be accomplished either by primaquine or by the process of preparing white ghosts.  相似文献   

6.
The changes of volume distribution curves of erythrocytes during and after lysis by complement or nystatin or in hypotonic buffers were measured by flow cytometry. Biconcave and spheroidal ghosts were observed after complement lysis and spheroidal ghosts were seen only after nystatin and hypotonic lysis. The spheroidal ghosts derived from red cells lysed by complement or nystatin were permeable to sucrose; those from hypotonic lysis were sucrose-impermeable. Spheroidal ghosts after complement lysis remained permeable for sucrose whereas spheroidal ghosts after nystatin lysis resealed after removal of the drug by washing. Biconcave ghosts produced by complement lysis were almost impermeable to sucrose initially and therefore responded to osmotic changes, but they became sucrose-permeable upon prolonged incubation at 37 degrees C. The rate of sucrose equilibration increased as the stability of the biconcave shape diminished with increasing numbers of C5b-9 complexes. At 850 C5b-9 complexes/ghost, the biconcave shape and impermeability for sucrose were completely lost. The results support the hypothesis that complement C5b-9 complexes, in addition to the interaction with the lipid bilayer, may interact with the cytoskeleton of the erythrocyte membrane.  相似文献   

7.
Human erythrocyte membranes (ghosts) from acid/citrate/dextrose preserved blood were digested with trypsin (protein/trypsin = 100:1) under hypotonic conditions and then analyzed by SDS-polyacrylamide gel electrophoresis. After digestion for about 20-30 s at 0 degree C, only ankyrin had disappeared and other bands including spectrin, actin, band 4.1 and band 3 remained intact. This observation was supported by electron micrographs showing that the horizontally disposed, filamentous structure was a little apart from the lipid bilayer and its components were not destroyed. In contrast to intact ghosts, treatment with chlorpromazine, or Mg-ATP did not induce shape change in these trypsin-treated ghosts. The number of transformable cells correlated closely with the amount of remaining ankyrin in the SDS-polyacrylamide gel electrophoresis pattern. Furthermore, the chlorpromazine- and Mg-ATP-induced decreases in viscosity of suspensions of erythrocyte ghosts were also prevented by trypsin treatment for 20-30 s at 0 degree C. These findings suggest that ankyrin plays an important role in the change in shape and deformability of erythrocyte ghosts. The molecular mechanism of drug-induced shape change and the role of undermembrane structure in regulating erythrocyte shape and deformability are discussed.  相似文献   

8.
Spectrin-depleted inside-out vesicles (IOV's) prepared from human erythrocyte membranes were characterized in terms of size, ground permeability to hydrophilic nonelectrolytes and their sensitivity to modification by SH reagents, DIDS and trypsin. IOV's proved to have the same permeability of their lipid domain to erythritol as native erythrocytes, in contrast to resealed ghosts (Klonk, S. and Deuticke, B. (1992) Biochim. Biophys. Acta 1106, 126-136 (Part I in this series)), which have a residual leak. On the other hand, IOV's have a slightly elevated permeability for mannitol and sucrose, nonelectrolytes which are almost (mannitol) or fully (sucrose) impermeant in the native membrane. These increased fluxes, which have a high activation energy and can be stimulated by phloretin, are, however, also much smaller than the corresponding leak fluxes observed in resealed ghosts. In view of these differences, formation of IOV's can be concluded to go along with partial annealing of barrier defects persisting in the erythrocyte membrane after preparation of resealed ghosts. Oxidation of SH groups of the IOV membrane by diamide produces an enhancement of permeability for hydrophilic nonelectrolytes which is much less pronounced than that induced by a similar treatment of erythrocytes or ghosts (Klonk, S. and Deuticke, B. (1992) Biochim. Biophys. Acta 1106, 126-136 (Part I in this series)). Moreover, proteolytic treatment of the vesicle membrane, although leading to a marked digestion of integral membrane proteins, only induces a minor, saturating increase of permeability, much lower than that in trypsinized resealed ghosts (Klonk, S. and Deuticke, B. (1992) Biochim. Biophys. Acta 1106, 137-142 (Part II of this series)). Since absence of the cytoskeletal proteins, spectrin and actin, is the major difference between IOV's and resealed ghosts, these results may be taken as further evidence for a dependence of the barrier properties of the erythrocyte membrane bilayer domain on its interaction with cytoskeletal elements. In contrast, these barrier properties seem to be rather insensitive to perturbations of integral proteins.  相似文献   

9.
The volume of resealed erythrocyte ghosts formed during hypotonic hemolysis of normal human erythrocytes was measured by means of a continuous mean corpuscular volume analyzer. The final volume of resealed ghosts was 140.6 ± 15.2 fl. Strong correlations exist between the volume of ghosts and the initial mean corpuscular volume and mean corpuscular hemoglobin of the erythrocyte, and between the enlargement ratio and the mean corpuscular volume or mean corpuscular hemoglobin of the erythrocyte.  相似文献   

10.
Hemoglobin and the low molecular weight proteins 8 and 9 are extracted from ghosts during low ionic washing after the hypotonic hemolysis of erythrocytes. Furthermore, a loss of the proteins 4.5 and 7 was observed. The protein patterns of ghosts after isotonic hemolysis by freezing and thawing resemble the ghost protein patterns after hypotonic hemolysis and incomplete deprivation of Hb. Many if not all membrane proteins are eluted by repeated incubations of the ghosts in solutions of low ionic strength in the presence of EDTA. The spectrins, the proteins 5, 4.5, 7 and residual Hb are extracted preferentially. A selective extraction of the spectrins and the protein 5 is not detectable under these conditions. Often the spectrin bands are subdivided following low ionic incubation.  相似文献   

11.
The cytoskeleton plays an important role in the stability and function of the membrane. Spectrin release from erythrocyte ghosts makes the membrane more fragile. However, the detail of membrane fragility has remained unclear. In the present study, the effects of incubation temperatures and polyamines on the membrane structure of ghosts under hypotonic conditions have been examined. Upon exposure of ghosts to a hypotonic buffer at 0-37 degrees C, reduction of ghost volume, spectrin release and decrease of band 3-cytoskeleton interactions were clearly observed above 30 degrees C. However, such changes were completely inhibited by spermine and spermidine. Interestingly, conformational changes of spectrin induced at 37 degrees C or 49 degrees C were not suppressed by both polyamines. Flow cytometry of fluorescein isothiocyanate-labelled ghosts exposed to 37 degrees C demonstrated the two peaks corresponding to ghosts with normal spectrin content and decreased one. Taken together, these results indicate that the degree of spectrin release from the membrane under hypotonic conditions is not same in all ghosts, and that polyamines inhibit the spectrin release followed by changes in the membrane structure, but not conformational changes of spectrin.  相似文献   

12.
The transmembrane distribution of spin-labeled phospholipids was measured in human erythrocytes before and after hypotonic hemolysis by electron paramagnetic resonance. With a first series of partially water soluble probes a complete randomization of phosphatidylcholine, phosphatidylethanolamine, phosphatidylserine and sphingomyelin analogues was achieved when cells were resealed in the absence of Mg-ATP or when the aminophospholipid translocase was inhibited by vanadate or calcium. If the ghosts were resealed with Mg-ATP inside, the transmembrane asymmetry of the aminophospholipids was reestablished. With long chain insoluble spin-labeled lipids complete randomization was obtained with the phosphatidylcholine analogue but even in the presence of vanadate only a small percentage (approx. 15%) of the spin-labeled phosphatidylserine flopped to the outer monolayer and comparable percentage of the spin-labeled sphingomyelin flipped to the inner monolayer, indicating a hierarchy in the phospholipid redistribution for these water insoluble lipids during hemolysis. The mechanism by which a selective randomization takes place is not known. It may involve phosphatidylserine-protein interactions in the inner leaflet and sphingomyelin-cholesterol or sphingomyelin-sphingomyelin interaction in the outer leaflet.  相似文献   

13.
We have investigated by electron spin resonance, at 37 degrees C, the outside-inside passage and the equilibrium distribution of spin-labeled phospholipids, respectively, in ATP-containing ghosts, in heat-treated erythrocytes, and in heat-induced vesicles. The heat-treated vesicles were spectrin depleted to approximately 25% of the original content and had lost almost 100% of the other cytoskeletal proteins. Yet the vesicles, as long as they contained ATP, were capable of translocating the aminophospholipids with the same efficiency as the heat-treated erythrocytes, and almost with the same efficiency as ATP-containing ghosts. In the vesicles, sphingomyelin and phosphatidylcholine analogues underwent a very slow transverse diffusion as in native cells. We conclude that spectrin and other cytoskeleton proteins are not major factors for the establishment and maintenance of phospholipid asymmetry in human erythrocytes, which may be chiefly due to the aminophospholipid translocase activity.  相似文献   

14.
The role of osmotic forces and cell swelling in the influenza virus-induced fusion of unsealed or resealed ghosts of human erythrocytes was investigated under isotonic and hypotonic conditions using a recently developed fluorescence assay (Hoekstra, D., De Boer, T., Klappe, K., Wilschut, J. (1984) Biochemistry 23, 5675-5681). The method is based on the relief of fluorescence selfquenching of the fluorescent amphiphile octadecyl rhodamine B chloride (R18) incorporated into the ghost membrane as occurs when labeled membranes fuse with unlabeled membranes. No effect neither of the external osmotic pressure nor of cell swelling on virally mediated ghost fusion was established. Influenza virus fused unsealed ghosts as effectively as resealed ghosts. It is concluded that neither osmotic forces nor osmotic swelling of cells is necessary for virus-induced cell fusion. This is supported by microscopic observations of virus-induced fusion of intact erythrocytes in hypotonic and hypertonic media. A disruption of the spectrin-actin network did not cause an enhanced cell fusion at acidic pH of about 5 or any fusion at pH 7.4.  相似文献   

15.
In prefixed by 1 mmol/l OsO4 human erythrocytes, the discocyte shape was preserved upon heating to temperatures which include the denaturation temperature of the main peripheral protein spectrin. Nevertheless, the suspension of fixed cells displayed threshold decrease in its capacitance and resistance at the temperature range where spectrin denaturates. The same changes were established using intact cells and their resealed ghosts. For packed cells (ghosts), the capacitance and resistance decreased about 17% (31%) and 30% (19%). These data indicate a decrease in the beta dispersion of erythrocyte membrane associated, according to a previous study (Ivanov 1997), with the heat denaturation of spectrin at 49.5 degrees C. The amplitude of the 49.5 degrees C decrease in beta dispersion was reversibly reduced in intact erythrocytes and white ghosts following reversible decrease in the phosphorylation of their membrane proteins. It was fully eliminated in ghosts following their resealing with alkaline phosphatase (0.1 mg/ml) which dephosphorylated membrane proteins. These findings are discussed in relation to similar changes found in normal and tumour tissues and cells during hyperthermia.  相似文献   

16.
Resealed erythrocyte ghosts were prepared under different experimental conditions and were tested in vitro for susceptibility to infection with the human malarial parasite, Plasmodium falciparum. Resealed ghosts, prepared by dialyzing erythrocytes in narrow membrane tubing against low ionic strength buffer that was supplemented with magnesium ATP, were as susceptible to parasite infection as were normal erythrocytes. There was a direct correlation between intraerythrocytic ATP content and susceptibility to parasite infection. Neither MgCl2 nor sodium ATP could be substituted for magnesium ATP in maintaining high intraerythrocytic ATP concentration. When resealed ghosts were loaded with antispectrin IgG, malaria merozoite invasion was inhibited. At an average intracellular antispectrin IgG concentration of 3.5 micrograms/10(8) cells, there was a 35% inhibition of parasite invasion. This inhibition was due to spectrin crosslinking within the resealed ghosts, since the monovalent, Fab' fragments of antispectrin IgG had no inhibitory effect on invasion. These results indicate that the cytoskeleton plays a role in the complex process of merozoite entry into the host erythrocyte.  相似文献   

17.
The Ca2+-induced loss of deformability in human erythrocytes and the recovery of the lost deformability by stomatocytogenic reagents were investigated by means of a new flow electron paramagnetic resonance (EPR) spin label method, which provides information on deformation and orientation characteristics of spin labeled erythrocytes in shear flow. The Ca2+-induced loss of deformability is attributed mainly to the increase in intracellular viscosity resulting from efflux of intracellular potassium ions and water (Gardos effect). Partial recovery of the lost deformability is demonstrated in the presence of stomatocytogenic reagents, such as chlorpromazine, trifluoperazine, W-7, and calmidazolium (R24571). The recovery can not be explained solely by suppression of the Gardos effect due to the reagents. Incorporation of an optimal amount of the reagents into the membrane appears to compensate for the membrane modification due to Ca2+ ions to restore a part of the lost deformability.  相似文献   

18.
Two mechanisms have been proposed for maintenance of transbilayer phospholipid asymmetry in the erythrocyte plasma membrane, one involving specific interactions between the aminophospholipids of the inner leaflet of the bilayer and the cytoskeleton, particularly spectrin, and the other involving the aminophospholipid translocase. If the former mechanism is correct, then erythrocytes which have lost their asymmetric distribution of phospholipids should display altered bilayer/cytoskeleton interactions. To test this possibility, normal erythrocytes, erythrocytes from patients with chronic myelogenous leukemia or sickle disease, and lipid-symmetric and -asymmetric erythrocyte ghosts were labeled with the radioactive photoactivable analogue of phosphatidylethanolamine, 2-(2-azido-4-nitrobenzoyl)-1-acyl-sn-glycero-3-phospho[14C]ethanolamine ([14C]AzPE), previously shown to label cytoskeletal proteins from the bilayer. The labeling pattern of cytoskeletal proteins in pathologic erythrocytes and lipid-asymmetric erythrocyte ghosts was indistinguishable from normal erythrocytes, indicating that the probe detects no differences in bilayer/cytoskeleton interactions in these cells. In contrast, in lipid-symmetric erythrocyte ghosts, labeling of bands 4.1 and 4.2 and actin, and to a lesser extent ankyrin, by [14C]AzPE was considerably reduced. Significantly, however, labeling of spectrin was unaltered in the lipid-symmetric ghosts, suggesting that its relationship with the bilayer is normal in these lipid-symmetric cells. These results do not support a model in which spectrin is involved in the maintenance of an asymmetric distribution of phospholipids in erythrocytes.  相似文献   

19.
Altered membrane proteins have been previously described in beta thalassemia and are thought to play an important role in the shortened erythrocyte survival. To investigate the mechanism by which these changes occur, purified heme-containing alpha-hemoglobin chains were entrapped within normal erythrocytes by reversible osmotic lysis. These resealed cells exhibited normal hemoglobin concentration, cell volume, deformability, and no substantial modifications of membrane proteins. Incubation (37 degrees C; up to 20 h) of the alpha-chain-loaded cells resulted in increasing amounts of membrane-associated alpha-chains. This was associated with concurrent decreases in the protein concentrations and reactive thiol groups of spectrin, ankyrin, and actin as determined by gel electrophoresis. The decreases in membrane protein concentration and reactive thiol groups after 20 h of incubation were closely correlated (R2 = 0.947) in the alpha-chain-loaded cells. Indicative of increased oxidant stress within the alpha-chain-loaded erythrocytes, methemoglobin generation was also significantly increased in the alpha-chain-loaded erythrocytes. In addition, entrapment of alpha-chains led to a progressive and significant decrease in erythrocyte deformability. Thus, the entrapment of purified alpha-chains in normal erythrocytes resulted in structural and functional abnormalities very similar to that observed in beta-thalassemic erythrocytes in vivo. The model described provides a means by which the fate of excess alpha-chains, their pathophysiological effects, as well as possible therapeutic approaches to thalassemias can be examined.  相似文献   

20.
M Yamaizumi  T Uchida  Y Okada  M Furusawa 《Cell》1978,13(2):227-232
When human erythrocytes suspended in phosphate-buffered saline (PBS) containing lgG were first dialyzed against a hypotonic solution and then dialyzed against PBS, lgG molecules were entrapped within resealed erythrocyte ghosts. The concentration of lgG inside the ghosts was about 33% of its concentration in the dialysis bag. With the aid of HVJ (Sendai virus), ghosts containing rabbit lgG antibody against fragment A of diphtheria toxin were fused with toxin-sensitive FL cells. The fused FL recipients were found to be resistant to the action of diphtheria toxin. Clones derived from the resistant recipient cells, however, became sensitive to the toxin again. Antifragment A neutralized the enzymic activity of isolated fragment A in vitro, but did not protect FL cells or rabbit skin against the complete toxin.  相似文献   

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