Advanced search
Publication Cover
Molecular Membrane Biology Volume 11, 1994 - Issue 4
Journal homepage
81
Views
159
CrossRef citations to date
0
Altmetric
Original Article

Back and forth

the regulation and function of transbilayer phospholipid movement in eukaryotic cells (Review)

Patrick Williamson Department of Biology, Amherst College, Amherst, MA, 01002, USA
&
Robert A Schlegel Department of Biochemistry and Molecular Biology, Penn State University, University ParkPA, 16802, USA
Pages 199-216 | Received 27 May 1994, Published online: 09 Jul 2009

References

  • Allen T. M., Chonn A. Large unilamellar liposomes with low uptake into the reticuloendothelial system. FEBS Letters 1987; 223: 42–46
  • Allen R. M., Austin G. A., Chonn A., Lin L., Lee K. C. Uptake of liposomes by cultured mouse bone marrow macrophages: influence of liposome composition and size. Biochimica et Biophysica Acta 1991; 1061: 56–64
  • Alstiel L., Branton D. Fusion of coated vesicles with lysosomes: measurement with a fluorescence assay. Cell 1983; 32: 921–929
  • Antia R. The organization of lipids in membranes and the binding of perforin to membranes. PhD thesis, University of Massachusetts, Amherst 1991
  • Antia R., Schlegel R. A., Williamson P. Binding of perforin to membranes is sensitive to lipid spacing and not headgroup. Immunology Letters 1992; 32: 153–158
  • Avent N. D., Ridgwell K., Tanner M. J. A., Anstee D. J. cDNA cloning of a 30 kDa erythrocyte membrane protein associated with Rh (Rhesus)-blood-group-antigen expression. Biochemical Journal 1990; 271: 821–825
  • Backer J. M., Dawidowicz E. A. Reconstitution of a phospholipid flippase from rat liver microsomes. Nature 1987; 327: 341–343
  • Backer J. M., Dawidowicz E. A. The rapid transmembrane movement of cholesterol in small unilamellar vesicles. Biochimica et Biophysica Acta 1979; 551: 260–270
  • Backer J. M., Dawidowicz E. A. Transbilayer movement of cholesterol in small unilamellar vesicles detected by cholesterol oxidase. Journal of Biological Chemistry 1981; 256: 586–588
  • Baldwin J. M., O'Reilly R., Whitney M., Lucy J. A. Surface exposure of phosphatidylserine is associated with the swelling and osmotically-induced fusion of human erythrocytes in the presence of Ca2+. Biochimica et Biophysica Acta 1990; 1028: 14–20
  • Basse F., Gaffet P., Rendu F., Bienvenue A. Translocation of spin-labelled phospholipids through plasma membrane during thrombin- and ionophore A23187-induced platelet activation. Biochemistry 1993; 32: 2337–2344
  • Beleznay Z., Zachowski A., Devaux P. F., Navazo M. P., Ott P. ATP-dependent aminophospholipid translocation in eryothrocyte vesicles: stoichiometry of transport. Biochemistry 1993; 32: 3146–3152
  • Bevers E., Comfurius E. P., Van Rijn J., Hemker C., Zwaal R. F. A. Generation of prothrombin-converting activity and the exposure of phosphatidylserine at the outer surface of platelets. European Journal of Biochemistry 1982; 122: 429–436
  • Bevers E. M., Comfurius P., Zwaal R. F. A. Changes in membrane phospholipid distribution during platelet activation. Biochimica et Biophysica Acta 1983; 736: 57–66
  • Bevers E. M., Wiedmer T., Comfurius P., Shattil S. J., Weiss H. J., Zwaal R. F. A., Sims P. J. Defective Ca2+ -induced microvesiculation and deficient expression of procoagulant activity in erythrocytes from a patient with a bleeding disorder: a study of the red blood cells of Scott syndrome. Blood 1992; 79: 380–388
  • Bishop W. R., Bell R. M. Assembly of the endoplasmic reticulum phospholipid bilayer: the phosphatidylcholine transporter. Cell 1985; 42: 51–60
  • Bishop W. R., Bell R. M. Assembly of phospholipids into cellular membranes: biosynthesis, transmembrane movement and intracellular translocation. Annual Review of Cell Biology 1988; 4: 579–610
  • Bitbol M., Devaux P. F. Measurement of outward translocation of phospholipids across human erythrocyte membrane. Proceedings of the National Academy of Sciences, USA 1988; 85: 6783–6787
  • Bitbol M., Fellmann P., Zachowski A., Devaux P. F. Ion regulation of phosphatidylserine and phosphatidylethanolamine outside-inside translocation in human erythrocytes. Biochimica et Biophysica Acta 1987; 904: 268–282
  • Bitbol M., Dempsey C., Watts A., Devaux P. F. Weak interaction of spectrin with phosphatidylcholine-phosphatidylserine multilayers: a 2H and 31P NMR study. FEBS Letters 1989; 244: 217–222
  • Blau L., Bittman R. Cholesterol distribution between the two halves of the lipid bilayer of human erythrocyte ghost membranes. Journal of Biological Chemistry 1978; 253: 8366–8368
  • Bloj B., Zilversmit D. B. Asymmetry and transposition rate of phosphatidylcholine in rat erythrocyte ghosts. Biochemistry 1976; 15: 1277–1283
  • Boegheim J. P., Jr, Van Linde M., Op den Kamp J. A. F., Roelofsen B. The sphingomyelin pools in the outer and inner layer of the human erythrocyte membrane are composed of different molecular species. Biochimica et Biophysica Acta 1983; 735: 438–442
  • Bogdanov A., Verhoven B., Schlegel R. A., Williamson P. Asymmetry in trans-bilayer lateral pressure may drive expansion of the secretion fusion pore. Biochemical Society Transactions 1993; 21: 271–276
  • Brasaemle D. L., Robertson A. D., Attie A. D. Transbilayer movement of cholesterol in the human erythrocyte membrane. Journal of Lipid Research 1988; 29: 481–489
  • Bratton D. L., Kailey J. M., Clay K. L., Henson P. M. A model for the extracellular release of PAF: the influence of plasma membrane lipid asymmetry. Biochimica et Biophysica Acta 1991; 1062: 24–34
  • Brotherus J., Renkonen O. Phospholipids of subcellular organelles isolated from cultured BHK cells. Biochimica et Biophysica Acta 1977; 486: 243–253
  • Brown D. A., Rose J. K. Sorting of GPI-anchored proteins to glycolipid-enriched membrane subdomains during transport to the apical cell surface. Cell 1992; 68: 533–544
  • Buckland R. M., Radda G. K., Shennan C. D. Accessibility of phospholipids in the chromaffin granule membrane. Biochimica et Biophysica Acta 1978; 513: 321–337
  • Bütikofer P., Lin Z. W., Chiu D. T.-Y., Lubin B., Kuypers F. A. Transbilayer distribution and mobility of phosphatidylinositol in human red blood cells. Journal of Biological Chemistry 1990; 265: 16035–16038
  • Calvez J. Y., Zachowski A., Herrmann A., Morrot G., Devaux P. F. Asymmetrical distribution of phospholipids in spectrin-poor vesicles. Biochemistry 1988; 27: 5666–5670
  • Ceriello A. Coagulation activation in diabetes mellitus: the role of hyperglycaemia and therapeutic prospects. Diabetologia 1993; 36: 1119–1125
  • Chahine J. M. E. H., Cribier S., Devaux P. F. Phospholipid transmembrane domains and lateral diffusion in fibroblasts. Proceedings of the National Academy of Sciences, USA 1993; 90: 447–451
  • Chandra R., Joshi P. C., Bajpaj V. K., Gupta C. M. Membrane phospholipid organization in calcium-loaded human erythrocytes. Biochimica et Biophysica Acta 1987; 902: 253–262
  • Chang C.-P., Zhao J., Wiedmer T., Sims P. J. Contribution of platelet microparticle formation and granule secretion to the transmembrane migration of phosphatidylserine. Journal of Biological Chemistry 1993; 268: 7171–7178
  • Choe H.-R., Williamson P., Rubin E., Schlegel R. A. Disruption of phospholipid asymmetry in erythrocyte vesicles deficient in spectrin. Cell Biology International Reports 1985; 9: 597–606
  • Choe H.-R., Schlegel R. A., Rubin E., Williamson P., Westerman M. P. Alteration of red cell membrane organization in sickle cell anaemia. British Journal of Haematology 1986; 63: 761–773
  • Cohen A. M., Liu S. C., Lawler J., Derick L., Palek J. Identification of the protein 4.1 binding site to phosphatidylserine vesicles. Biochemistry 1988; 27: 614–619
  • Cohen J. J., Duke R. C., Fadok V. A., Sellins K. S. Apoptosis and programmed cell death in immunity. Annual Review ol Immunology 1992; 10: 267–293
  • Colleau M., Herve P., Fellmann P., Devaux P. F. Transmembrane diffusion of fluorescent phospholipids in human erythrocytes. Chemistry and Physics of Lipids 1991; 57: 29–37
  • Comfurius P., Senden J. M. G., Tilly R. H. J., Schroit A. J., Bevers E. M., Zwaal R. F. A. Loss of membrane phospholipid asymmetry in platelets and red cells may be associated with calcium-induced shedding of plasma membrane and inhibition of amino-phospholipid translocase. Biochimica et Biophysica Ada 1990; 1026: 153–160
  • Connor J., Schroit A. J. Determination of lipid asymmetry in human red cells by resonance energy transfer. Biochemistry 1987; 26: 5099–5105
  • Connor J., Schroit A. J. Transbilayer movement of phosphatidylserine in erythrocytes: inhibition of transport and preferential labelling of a 31 000-dalton protein by sulfhydryl reactive reagents. Biochemistry 1988; 27: 848–851
  • Connor J., Schroit A. J. Aminophospholipid translocation in erythrocytes: evidence for the involvement of a specific transporter and an endofacial protein. Biochemistry 1990; 29: 37–43
  • Connor J., Bucana C., Fidler I., Schroit A. J. Differentiation-dependent expression of phosphatidylserine in mammalian plasma membranes: quantitative assessment of outer-leaflet lipid by prothrombinase complex formation. Proceedings of the National Academy of Sciences, USA 1989; 86: 3184–3188
  • Connor J., Gillum K., Schroit A. J. Maintenance of lipid asymmetry in red blood cells and ghosts: effect of divalent cations and serum albumin on the transbilayer distribution of phosphatidylserine. Biochimica et Biophysica Acta 1990; 1025: 82–86
  • Connor J., Pak C. C., Schroit A. J. Exposure of phosphatidylserine in the outer leaflet of human red blood cells — relationship to cell density, cell age, and clearance by mononuclear cells. Journal of Biological Chemistry 1993; 269: 2399–2404
  • Cook H. W., Palmer F. B., Byers D. M., Spence M. W. Isolation of plasma membranes from cultured glioma cells and application to evaluation of membrane sphingomyelin turnover. Analytical Biochemistry 1988; 174: 552–560
  • Cribier S., Saintemarie J., Devaux P. F. Quantitative comparison between aminophospholipid translocase activity in human erythrocytes and in K562 cells. Biochimica et Biophysica Acta 1993; 1148: 85–90
  • Cullis P. R., de Kruijff B. Lipid polymorphism and the functional roles of lipids in biological membranes. Biochimica et Biophysica Acta 1979; 559: 399–402
  • Dachery-Prigent J., Greyssinet J.-M., Pasquet J.-M., Carron J. C., Nurden A. T. Annexin V as a probe of aminophospholipid exposure and platelet membrane vesiculation: a flow cytometric study showing a role for free sulfhydryl groups. Blood 1993; 81: 2554–2565
  • Daleke D. L., Huestis W. J. Incorporation and translocation of amino phospholipids in human erythrocytes. Biochemistry 1985; 24: 5406–5416
  • Daleke D. L., Huestis W. H. Erythrocyte morphology reflects the transbilayer distribution of incorporated phospholipids. Journal of Cell Biology 1989; 108: 1375–1385
  • Del Buono B. J., Williamson P. L., Schlegel R. A. Alterations in plasma membrane lipid organization during lymphocyte differentiation. Journal of Cellular Physiology 1986; 126: 379–388
  • Del Buono B. J., Williamson P. L., Schlegel R. A. Relation between the organization of spectrin and of membrane lipids in lymphocytes. Journal of Cell Biology 1988; 106: 697–703
  • Del Buono B. J., White S. M., Williamson P. L., Schlegel R. A. Plasma membrane lipid organization and the adherence of differentiating lymphocytes to macrophages. Journal of Cellular Physiology 1989; 138: 61–69
  • Deuticke B., Poser B., Lutkemeier P., Haest C. W. M. Formation of aqueous pores in the human erythrocyte membrane after oxidative cross-linking of spectrin by diamide. Biochimica et Biophysica Acta 1983; 731: 196–210
  • Devaux P. F. Static and dynamic lipid asymmetry in cell membranes. Biochemistry 1991; 30: 1163–1173
  • Devaux P. F. Protein involvement in transmembrane lipid asymmetry. Annual Review of Biophysics and Biomolecular Structure 1992; 21: 417–439
  • Devaux P. F. Lipid transmembrane asymmetry and flip-flop in biological membranes and in lipid bilayers. Current Opinion in Structural Biology 1993; 3: 489–494
  • Drickamer L. K. The red cell membrane contains three different adenosine triphosphatases. Journal of Biological Chemistry 1975; 250: 1952–1954
  • Fadok V. A., Voelker D. R., Campbell P. A., Cohen J. J., Bratton D. L., Henson P. M. Exposure of phosphatidylserine on the surface of apoptotic lymphocytes triggers specific recognition and removal by macrophages. Journal of Immunology 1992a; 148: 2207–2216
  • Fadok V. A., Savill J. S., Haslett C., Bratton D. L., Doherty D. E., Campbell P., Henson P. M. Different populations of macrophages use either the vitronectin receptor or the phosphatidylserine receptor to recognize and remove apoptotic cells. Journal of Immunology 1992b; 149: 4029–4035
  • Farge E., Devaux P. F. Shape changes of giant liposomes induced by an asymmetric transmembrane distribution of phospholipids. Biophysical Journal 1992; 61: 347–357
  • Ferrell J. E., Lee K.-J., Huestis W. H. Membrane bilayer balance and erythrocyte shape. A quantitative assessment. Biochemistry 1985; 24: 2849–2857
  • Fisher K. A. Analysis of membrane halves: cholesterol. Proceedings of the National Academy of Sciences, USA 1976; 73: 173–177
  • Forgac M., Cantley L. The plasma membrane (Mg2+ )-dependent adenosine triphosphatase from the human erythrocyte is not an ion pump. Journal of Membrane Biology 1984; 80: 185–190
  • Gascard P., Journet E., Sulpice J.-C., Giraud F. Functional heterogeneity of polyphosphoinositides in human erythrocytes. Biochemical Journal 1989; 264: 547–553
  • Gascard P., Tran D., Sauvage M., Sulpice J. C., Kukami K., Takenawa T., Claret M., Giraud F. Asymmetric distribution of phosphoinositides and phosphatidic acid in the human erythrocyte membrane. Biochimica et Biophysica Acta 1991; 1069: 27–36
  • Geldwerth D., Kuypers F. A., Butikofer P., Allary M., Lubin B. H., Devaux P. F. Transbilayer mobility and distribution of red cell phospholipids during storage. Journal of Clinical Investigation 1993; 92: 308–314
  • Gerado J., Govers-Reimslerg N. P., Tang G., Zwaal R. F. A., Rosing J. Prothrombin activation on membranes with anionic lipids containing phosphate, sulfate, and/or carboxyl groups. Biochemistry 1990; 29: 7967–7974
  • Griffiths G., Fuller J. D., Back R., Holinshead M., Pfeiffer S., Simons K. The dynamic nature of the golgi complex. Journal of Cell Biology 1989a; 108: 277–297
  • Griffiths G., Back R., Marsh M. A quantitative analysis of the endocytic pathway in baby hamster kidney cells. Journal of Cell Biology 1989b; 109: 2703–2720
  • Gudi S. R. P., Kumar A., Bhakuni V., Gokhale S. M., Gupta C. M. Membrane skeleton-bilayer interaction is not the major determinant of membrane phospholipid asymmetry in human erythrocytes. Biochimica et Biophysica Acta 1990; 1023: 63–72
  • Haest C. W. M., Deuticke B. Possible relationship between membrane proteins and phospholipid asymmetry in the human erythrocyte membrane. Biochimica et Biophysica Acta 1976; 436: 353–365
  • Haest C. W. M., Plasa G., Kamp D., Deuticke B. Spectrin as a stabilizer of phospholipid asymmetry in the human erythrocyte membrane. Biochimica et Biophysica Acta 1978; 509: 21–32
  • Hale J. E., Schroeder F. Asymmetric transbilayer distribution of sterol across plasma membranes determined by fluorescence quenching of dehydroergosterol. European Journal of Biochemistry 1982; 122: 649–661
  • Hall P. H., Huestis W. H. Phosphatidylserine headgroup diastereomers translocate equivalently across human erythrocyte membranes. Biochimica et Biophysica Acta 1994; 1190: 243–247
  • Henseleit U., Plasa G., Haest C. Effects of divalent cations on lipid flip-flop in the human erythrocyte membrane. Biochimica et Biophysica Acta 1990; 1029: 127–135
  • Herrmann A., Devaux P. F. Alteration of the aminophospholipid translocase activity during in vivo and artificial ageing of human erythrocytes. Biochimica et Biophysica Acta 1990; 1027: 41–46
  • Herrmann A., Clague M. J., Puri A., Morris S. J., Blumenthal R., Grimaldi S. Effect of erythrocyte transbilayer phospholipid distribution on fusion with vesicular stomatitis virus. Biochemistry 1990a; 29: 4054–4058
  • Herrmann A., Zachowski A., Devaux P. F. Protein-mediated phospholipid translocation in the endoplasmic reticulum with a low lipid specificity. Biochemistry 1990b; 29: 2023–2027
  • Hicks B. W., Parsons S. M. Characterization of the P-type and V-type ATPases of cholinergic synaptic vesicles and coupling of nucleotide hydrolysis to acetylcholine transport. Journal of Neurochemistry 1992; 58: 1211–1228
  • Hutson J. L., Higgins J. A. Asymmetric synthesis and transmembrane movement of phosphatidylethanolamine synthesized by base-exchange in rat liver endoplasmic reticulum. Biochimica et Biophysica Acta 1985; 687: 247–256
  • Johnson L. W., Hughes M. E., Zilversmit D. B. Use of phospholipid exchange protein to measure inside-outside transposition in phosphatidylcholine liposomes. Biochimica et Biophysica Acta 1975; 375: 176–185
  • Kahana E., Pinder J. C., Smith K. S., Gratzer W. B. Fluorescence quenching of spectrin and other red cell membrane cytoskeletal proteins — relationship to hydrophobic binding sites. Biochemical Journal 1992; 282: 75–80
  • Kawashima Y., Bell R. M. Assembly of the endoplasmic reticulum phospholipid bilayer. Transporters for phosphatidylcholine and metabolites. Journal of Biological Chemistry 1987; 262: 15495–16502
  • Koval M., Pagano R. E. Lipid recycling between the plasma membrane and intracellular compartments: transport and metabolism of fluorescent sphingomyelin analogues in cultured fibroblasts. Journal of Cell Biology 1989; 111: 429–442
  • Kumar A., Gupta C. M. Red cell membrane abnormalities in chronic myeloid leukaemia. Nature 1983; 303: 632–633
  • Kumar A., Daniel S., Agarwal S. S., Gupta C. M. Abnormal erythrocyte membrane phospholipid organisation in chronic myeloid leukaemia. Journal of Biosciences 1987; 11: 543–548
  • Kuypers F. A., Lubin B. H., Yee M., Agre P., Devaux P. F., Geldwerth D. The distribution of erythrocyte phospholipids in hereditary spherocytosis demonstrates a minimal role for erythrocyte spectrin on phospholipid diffusion and asymmetry. Blood 1993; 81: 1051–1057
  • Lange Y., Cohen C. M., Poznansky M. J. Transbilayer movement of cholesterol in human erythrocytes. Proceedings of the National Academy of Sciences, USA 1977; 74: 1538–1542
  • Lange Y., Dolde J., Steck T. L. The rate of transmembrane movement of cholesterol in the human erythrocyte. Journal of Biological Chemistry 1981; 256: 5321–5323
  • Lee K.-D., Hong K., Papahadjopoulos D. Recognition of liposomes by cells: in vitro binding and endocytosis mediated by specific lipid headgroups and surface charge density. Biochimica et Biophysica Acta 1992; 1103: 185–197
  • Lee K.-D., Nir S., Papahadjopoulos D. Quantitative analysis of liposome-cell interactions in vitro: rate constants of binding and endocytosis with suspension and adherent J774 cells and human monocytes. Biochemistry 1993; 32: 889–899
  • Lipsky N. G., Pagano R. E. Intracellular translocation of fluorescent sphingolipids in cultured fibroblasts: endogenously synthesized sphingomyelin and glucocerebroside analogues pass through the Golgi apparatus en route to the plasma membrane. Journal of Cell Biology 1985; 100: 27–34
  • Lupu F., Calb M., Fixman A. Alterations of phospholipid asymmetry in the membrane of spontaneously aggregated platelets in diabetes. Thrombosis Research 1988; 50: 605–616
  • MacDonald R. I. Temperature and ionic effects on the interaction of erythroid spectrin with phosphatidylserine membranes. Biochemistry 1993; 32: 6957–6964
  • Maksymiw R., Sui S., Baub H., Sackmann E. Electrostatic coupling of spectrin dimers to phosphatidylserine containing lipid lamellae. Biochemistry 1987; 26: 2983–2990
  • Martin O. C., Pagano R. E. Transbilayer movement of fluorescent analogs of phosphatidylserine and phosphatidylethanolamine at the plasma membrane of cultured cells: evidence for a protein-mediated and ATP-dependent process(es). Journal of Biological Chemistry 1987; 262: 5890–5898
  • Matayoshi E. D. Distribution of shape-changing compounds across the red cell membrane. Biochemistry 1980; 19: 3414–3422
  • Mayor S., Presley J. F., Maxfield F. R. Sorting of membrane components from endosomes and subsequent recycling to the cell surface occurs by a bulk flow process. Journal of Cell Biology 1993; 121: 1257–1269
  • McEvoy L. M. Role of membrane lipid packing in reticuloendothelial/hematopoietic cell interactions. PhD thesis, Penn State University 1991
  • McEvoy L., Williamson P., Schlegel R. A. Membrane phospholipid asymmetry as a determinant of erythrocyte recognition by macrophages. Proceedings of the National Academy of Sciences, USA 1986; 83: 3311–3315
  • McEvoy L., Schlegel R. A., Williamson P., Del Buono B. J. Merocyanine 540 as a flow cytometric probe of membrane lipid organization in leukocytes. Journal of Leukocyte Biology 1988; 44: 337–344
  • McIntyre J. C., Sleight R. G. Fluorescent assay for phospholipid membrane asymmetry. Biochemistry 1991; 30: 11819–11827
  • Meers P., Mealy T. Calcium-dependent annexin-V binding to phospholipids: stoichiometry, specificity, and the role of negative charge. Biochemistry 1993; 32: 11711–11721
  • Middelkoop E., Lubin B. H., Op den Kamp J. A. F., Roelofsen B. Flip-flop rates of individual molecular species of phosphatidylcholine in the human red cell membrane. Biochimica et Biophysica Acta 1986; 855: 421–424
  • Middelkoop E., Lubin B. H., Bevers E. M., Op den Kamp J. A. F., Comfurius P., Chiu D. T.-Y., Zwaal R. F. A., van Deenen L. L. M., Roelofsen B. Studies on sickled erythrocytes provide evidence that the asymmetric distribution of phosphatidylserine in the red cell membrane is maintained by both an ATP-dependent translocation and an interaction with membrane skeletal proteins. Biochimica et Biophysica Acta 1988; 937: 281–288
  • Middelkoop E., Van der Hoek E. E., Bevers E. M., Comfurius P., Slotboom A. J., Op den Kamp J. A. F., Lubin B. H., Zwaal R. F. A., Roelofsen B. Involvement of ATP-dependent aminophospholipid translocation in maintaining phospholipid asymmetry in diamide-treated human erythrocytes. Biochimica et Biophysica Acta 1989; 981: 151–160
  • Mombers C., Verkleij A. J., de Gier J., van Deenen L. L. M. Spectrin-phospholipid interaction. A monolayer study. Biochimica et Biophysica Acta 1979; 551: 271–281
  • Monck J. R., Alvarez de Toledo G., Fernandez J. M. Tension in secretory granule membranes causes extensive membrane transfer through the exocytotic fusion pore. Proceedings of the National Academy of Sciences, USA 1990; 87: 7804–7808
  • Moriyama Y., Nelson N. Purification and properties of a vanadate- and N-ethylmaleimide-sensitive ATPase from chromaffin granule membranes. Journal of Biological Chemistry 1988; 263: 8521–8527
  • Morris M. B., Auland M. E., Xu Y.-H., Roufogalis B. D. Characterization of the Mg2+ -ATPase activity of the human erythrocyte membrane. Biochemistry and Molecular Biology International 1993; 31: 823–832
  • Morrot G., Cribier S., Devaux P. F., Geldwerth D., Davoust J., Bureau J. F., Fellmann P., Herve P., Frilley B. Asymmetric lateral mobility of phospholipids in the human erythrocyte membrane. Proceedings of the National Academy of Sciences, USA 1986; 83: 6863–6867
  • Morrot G., Herve P., Zachowski A., Fellmann P., Devaux P. F. Aminophospholipid translocase of human erythrocytes: phospholipid substrate specificity and effect of cholesterol. Biochemistry 1989; 28: 3456–3462
  • Morrot G., Zachowski A., Devaux P. F. Partial purification and characterization of the human erythrocyte Mg2+ -ATPase. A candidate aminophospholipid translocase. FEBS Letters 1990; 266: 29–32
  • Nelson N. Structural conservation and functional diversity of V-ATPases. Journal of Bioenergetics and Biomembranes 1992; 24: 407–414
  • Op den Kamp J. A. F. Lipid asymmetry in membranes. Annual Review of Biochemistry 1979; 48: 47–71
  • Orci L., Monesano R., Meda P., Malaisse-Lagae R., Brown D. Heterogeneous distribution of filipin-cholesterol complexes across the cisternae of the Golgi -apparatus. Proceedings of the National Academy of Sciences, USA 1981; 78: 293–297
  • Patarroyo M., Beatty P. G., Fabre J. W., Gahmberg C. G. Identification of a cell surface protein complex mediating phorbol ester-induced adhesion (binding) among human mononuclear leukocytes. Scandinavian Journal of Immunology 1985; 22: 171–182
  • Pradhan D., Williamson P., Schlegel R. A. Bilayer/cytoskeleton interactions in lipid-symmetric erythrocytes assessed by a photoactivable phospholipid analogue. Biochemistry 1991; 30: 7754–7758
  • Pradhan D., Williamson P., Schlegel R. A. Phosphatidylserine vesicles inhibit phagocytosis of erythrocytes with a symmetric distribution of phospholipids. Molecular Membrane Biology 1994; 11(3)181–188
  • Rawyler A., Roelofsen B., Op den Kamp J. A. F. The use of fluorescamine as a permeant probe to localize phosphatidylethanolamine in intact Friend erythroleukemia cells. Biochimica et Biophysica Acta 1984; 769: 330–336
  • Reed J. A., Kough R. H., Williamson P. L., Schlegel R. A. Merocyanine 540 recognizes membrane abnormalities of erythrocytes in chronic myelogenous leukemia. Cell Biology International Reports 1985; 9: 43–49
  • Reed J. A., Green R., Yamada Y., Kough R., Williamson P., Schlegel R. A. A fluorescent dye which recognizes mature peripheral erythrocytes of myeloproliferative disorders. Cell Biology International Reports 1987; 11: 55–62
  • Reinhart M. P., Billheimer J. R., Faust J. R., Gaylor J. L. Subcellular localization of the enzymes of cholesterol biosynthesis and metabolism in rat liver. Journal of Biological Chemistry 1987; 262: 9649–9655
  • Roelofsen B., Op den Kamp J. A. F. Plasma membrane phospholipid asymmetry and its maintenance: the human erythrocyte as a model. Current Topics in Membranes 1994; 40: 7–46
  • Roseman M., Litman B. J., Thompson T. E. Transbilayer exchange of phosphatidylethanolamine for phosphatidylcholine and N-acetimidoylphosphatidylethanolamine in single-walled bilayer vesicles. Biochemistry 1975; 14: 4826–4830
  • Rosing J., Tans G., Govers-Riemslag J. W. P., Zwaal R. F. A., Hemker H. C. The role of phospholipids and factor Va in the prothrombinase complex. Journal of Biological Chemistry 1980; 255: 274–283
  • Rothlein R., Springer T. A. The requirement for lymphocyte function-associated antigen 1 in homotypic leukocyte adhesion stimulated by phorbol ester. Journal of Experimental Medicine 1986; 163: 1132–1149
  • Rothman J. E., Dawidowicz E. A. Asymmetric exchange of vesicle phospholipids catalyzed by the phosphatidylcholine exchange protein. Measurement of inside-outside transposition. Biochemistry 1975; 14: 2809–2816
  • Rothman J. E., Orci L. Molecular dissection of the secretory pathway. Nature 1992; 355: 409–415
  • Schewe M., Müller P., Korte T., Herrmann A. The role of phospholipid asymmetry in calcium-phosphate-induced fusion of human erythrocytes. Journal of Biological Chemistry 1992; 267: 5910–5915
  • Schlegel R. A., Williamson P. Membrane phospholipid organization as a determinant of blood cell-reticuloendothelial cell interactions. Journal of Cellular Physiology 1987; 132: 381–384
  • Schlegel R. A., Williamson P. Role of phospholipid asymmetry in cellular membrane fusion. Molecular Mechanisms of Membrane Fusion, S. Ohki, D. Doyle, T. D. Flanagan, S. W. Hui, E. Mayhew. Plenum, New York 1988; 289–301
  • Schlegel R. A., Phelps B. M., Waggoner A., Terada L., Williamson P. Binding of merocyanine 540 to normal and leukemic erythroid cells. Cell 1980; 20: 321–328
  • Schlegel R. A., Phelps B. M., Cofer G. P., Williamson P. Enucleation eliminates a differentiation-specific marker from normal and leukemic murine erythroid cells. Experimental Cell Research 1982; 139: 321–325
  • Schlegel R. A., Prendergast T. W., Williamson P. Membrane phospholipid asymmetry as a factor in erythrocyte-endothelial cell interaction. Journal of Cellular Physiology 1985; 123: 215–218
  • Schlegel R. A., Kemper S., Williamson P. Functional and pathological significance of phospholipid asymmetry in erythrocyte membranes. Journal of Biosciences 1990; 15: 187–191
  • Schlegel R. A., Stevens M., Lumley-Sapanski K., Williamson P. Altered lipid packing identifies apoptotic thymocytes. Immunology Letters 1993; 36: 283–288
  • Schrier S. L., Zachowski A., Hervé P., Kader J.-C., Devaux P. F. Transmembrane redistribution of phospholipids of the human red cell membrane during hypotonic hemolysis. Biochimica et Biophysica Acta 1992; 1105: 170–176
  • Schroeder F., Nemecz G., Wood W. G., Joiner C., Morrot G., Ayrautjarrier M., Devaux P. F. Transbilayer distribution of sterol in the human erythrocyte. Biochimica et Biophysica Acta 1991; 1066: 183–192
  • Schroit A. J. Protein-mediated phospholipid movement in red blood cells. Current Topics in Membranes 1994; 40: 47–74
  • Schroit A. J., Fidler I. J. Effects of liposome structure and lipid composition on the activation of the tumoricidal properties of macrophages by liposomes containing muramyl dipeptide. Cancer Research 1982; 42: 161–167
  • Schroit A., Zwaal R. F. A. Transbilayer movement of phospholipids in red cell and platelet membranes. Biochimica et Biophysica Acta 1991; 1071: 313–329
  • Schroit A. J., Madsen J., Ruoho A. E. Radioiodinated, photoactivatable phosphatidylcholine and phosphatidylserine: transfer properties and differential photoreactive interaction with human erythrocyte membrane proteins. Biochemistry 1987; 26: 1812–1819
  • Schroit A. J., Bloy C., Connor J., Cartron J.-P. Involvement of Rh blood group polypeptides in the maintenance of aminophospholipid asymmetry. Biochemistry 1990; 29: 10303–10306
  • Seigneuret M., Devaux P. F. ATP-dependent asymmetric distribution of spin-labelled phospholipids in the erythrocyte membrane: relation to shape change. Proceedings of the National Academy of Sciences, USA 1984; 81: 3751–3755
  • Seigneuret M., Zachowski A., Herrmann A., Devaux P. F. Asymmetric lipid fluidity in human erythrocyte membrane: new spin label evidence. Biochemistry 1984; 23: 4271–4275
  • Sheetz M. P., Singer S. J. Biological membranes as bilayer couples: a mechanism of drug-erythrocyte interactions. Proceedings of the National Academy of Sciences, USA 1974; 71: 4457–4461
  • Shiffer K. A., Goerke J., Duzgunes N., Fedor J., Shohet S. B. Interaction of erythrocyte protein 4.1 with phospholipids. A monolayer and liposome study. Biochimica et Biophysica Acta 1988; 937: 269–280
  • Shukla S. D., Hanahan D. J. Membrane alterations in cellular aging: susceptibility of phospholipids in density (age)-separated human erythrocytes to phospholipase A2. Archives of Biochemistry and Biophysics 1982; 214: 335–341
  • Sims P. J., Wiedmer T., Esmon C. T., Weiss H. J., Shattil S. J. Assembly of the platelet prothrombinase complex is linked to vesiculation of the platelet plasma membrane. Studies in Scott syndrome: an isolated defect in platelet procoagulant activity. Journal of Biological Chemistry 1989; 264: 17049–17057
  • Skutelsky E., Dannon D. An electron microscopic study of nuclear elimination from the late erythroblast. Journal of Cell Biology 1967; 33: 625–635
  • Smeets E. F., Comfurius P., Bevers E. M., Zwaal R. F. A. Transbilayer scrambling of fluorescent phospholipid analogs in platelets and erythrocytes. Biochimica et Biophysica Acta (in press). Smith, D. M., Williamson, P. L. and Schlegel, R. A. (1993) Plasma membrane lipid packing and LFA-1-dependent aggregation of lymphocytes. Journal of Cellular Physiology 1994; 156: 182–188
  • Speicher D. W. The present status of erythrocyte spectrin structure: the 106-residue repetitive structure is a basic feature of an entire class of proteins. Journal of Cellular Biochemistry 1986; 30: 245–258
  • Sugihara T., Sugihara K., Hebbel R. P. Phospholipid asymmetry during erythrocyte deformation: maintenance of the unit membrane. Biochimica et Biophysica Acta 1992; 1103: 303–306
  • Sulpice J.-C, Zachowski A., Devaux P. F., Giraud F. Requirement for phosphatidylinositol 4,5-bisphosphate in the Ca2+ -induced phospholipid redistribution in the human erythrocyte membrane. Journal of Biological Chemistry 1994; 269: 6347–6354
  • Tait J. F., Gibson D. Phospholipid binding of annexin V: effects of calcium and membrane phosphatidyl-serine content. Archives of Biochemistry and Biophysics 1992; 298: 187–191
  • Tanaka K. I., Ohnishi S. I. Heterogeneity in the fluidity of intact erythrocyte membranes and its homogenization upon hemolysis. Biochimica et Biophysica Acta 1976; 426: 218–231
  • Tilly R. H. J., Senden J. M. G., Comfurius P., Bevers E. M., Zwaal R. F. A. Increased aminophospholipid translocase activity in human platelets during secretion. Biochimica et Biophysica Acta 1990; 1029: 188–190
  • Tschopp J., Schafer S., Masson D., Peitsch M. C., Heusser C. Phosphorylcholine acts as a Ca2 +-dependent receptor molecule for lymphocyte perforin. Nature 1989; 337: 272–274
  • Tullius E. K., Williamson P., Schlegel R. A. Effect of transbilayer phospholipid distribution on erythrocyte fusion. Bioscience Reports 1989; 9: 623–633
  • van Genderen I. L., van Meer G. Phospholipid translocation, asymmetry and membrane fusion. Biochemical Society Transactions 1993; 21: 235–239
  • van Meer G. Lipid traffic in animal cells. Annual Review of Cell Biology 1989; 5: 247–275
  • van Meer G. Transport and sorting of membrane lipids. Current Opinion in Cell Biology 1993; 5: 661–673
  • van Oss C. J. Phagocytosis as a surface phenomenon. Annual Review of Microbiology 1978; 32: 19–39
  • Venien C., Le Grimellec C. Phospholipid asymmetry in renal brush-border membranes. Biochimica et Biophysica Acta 1988; 942: 159–168
  • Verhoven B., Schlegel R. A., Williamson P. Rapid loss and restoration of lipid asymmetry by different pathways in resealed erythrocyte ghosts. Biochimica et Biophysica Acta 1992; 1104: 15–23
  • Voelker D. R. Organelle biogenesis and intracellular lipid transport in eukaryotes. Microbiological Reviews 1992; 55: 543–60
  • Von Grafenstein H., Knight D. E. Membrane recapture and early triggered secretion from the newly formed endocytotic compartment in bovine chromaffin cells. Journal of Physiology 1992; 453: 15–31
  • Wali R. K., Jaffe S., Kumar D., Kalra V. K. Alterations in organization of phospholipids in erythrocytes as factor in adherence to endothelial cells in diabetes mellitus. Diabetes 1988; 37: 104–111
  • Weiss L. The structure of bone marrow. Functional interrelationships of vascular and hematological compartments in experimental hemolytic anemia: an electron microscopic study. Journal of Morphology 1965; 177: 467–538
  • Williams J. H., Kuchmak M., Witter R. F. Fatty acids in phospholipids isolated from human red cells. Lipids 1966; 1: 391–398
  • Williamson P., Bateman J., Kozarsky K., Mattocks K., Hermanowicz N., Choe H. R., Schlegel R. A. Involvement of spectrin in the maintenance of phase-state asymmetry in the erythrocyte membrane. Cell 1982; 30: 725–733
  • Williamson P., Mattocks K., Schlegel R. A. Merocyanine 540: a fluorescent probe sensitive to lipid packing. Biochimica et Biophysica Acta 1983; 732: 387–393
  • Williamson P., Algarin L., Bateman J., Choe H. R., Schlegel R. A. Phospholipid asymmetry in human erythrocyte ghosts. Journal of Cellular Physiology 1985; 123: 209–214
  • Williamson P., Antia R., Schlegel R. A. Maintenance of membrane phospholipid asymmetry. Lipid-cytoskeletal interactions or lipid pump?. FEBS Letters 1987; 219: 316–320
  • Williamson P., Kulick A., Zachowski A., Schlegel R. A., Devaux P. F. Ca++ induces transbilayer redistribution of all major phospholipids in human erythrocytes. Biochemistry 1992; 31: 6355–6360
  • Wilson M. J., Richter-Lowney K., Daleke D. L. Hyperglycemia induces a loss of phospholipid asymmetry in human erythrocytes. Biochemistry 1993; 32: 11302–11310
  • Wirtz K. W. A. Phospholipid transfer proteins. Annual Review of Biochemistry 1991; 60: 73–99
  • Wyllie A. H. Cell death. International Review of Cytology Supplement 1987; 17: 755–785
  • Xie X., Stone D. K., Racker E. Purification of a vanadate-sensitive ATPase from clathrin-coated vesicles of bovine brain. Journal of Biological Chemistry 1989; 264: 1710–1714
  • Yaffe M. P., Kennedy E. P. Intracellular phospholipid movement and the role of phospholipid transfer proteins in animal cells. Biochemistry 1983; 22: 1497–1507
  • Yamagata S. K., Noremberg K., Parsons S. M. Purification and subunit composition of acholinergic synaptic vesicle glycoprotein, phosphointermediate-forming ATPase. Journal of Neurochemistry 1989; 53: 1345–1353
  • Zachowski A. Phospholipids in animal eukaryotic membranes: transverse asymmetry and movement. Biochemical Journal 1993; 294: 1–14
  • Zachowski A., Devaux P. F. Bilayer asymmetry and lipid transport across biomembranes. Comments in Molecular and Cell Biophysics 1989; 6: 63–90
  • Zachowski A., Devaux P. F. Transbilayer movements of lipids. Experimentia 1990; 46: 644–656
  • Zachowski A., Morot Gaudry-Talarmain Y. Phospholipid transverse diffusion in synaptosomes: evidence for the involvement of the aminophospholipid translocase. Journal of Neurochemistry 1990; 55: 1352–1356
  • Zachowski A., Fellman P., Devaux P. F. Absence of transbilayer diffusion of spin-labelled spingomyelin on human erythrocytes. Comparison with diffusion of several spin-labelled glycerophospholipids. Biochimica et Biophysica Acta 1985; 815: 510–514
  • Zachowski A., Favre E., Cribier S., Hervé P., Devaux P. F. Outside-inside translocation of aminophospholipids in the human erythrocyte membrane is mediated by a specific enzyme. Biochemistry 1986; 25: 2585–2590
  • Zachowski A., Herrmann A., Paraf A., Devaux P. F. Phospholipid outside-inside translocation in lymphocyte plasma membranes is a protein-mediated phenomenon. Biochimica et Biophysica Acta 1987; 897: 197–200
  • Zachowski A., Henri J. P., Devaux P. F. Control of transmembrane lipid asymmetry in chromaffin granules by an ATP- dependent protein. Nature 1989; 340: 75–76
  • Zambrano F., Fleischer S., Fleischer B. Lipid composition of the Golgi apparatus of rat kidney and liver in comparison with other subcellular organelles. Biochimica et Biophysica Acta 1975; 380: 357–369
  • Zilversmit D. B., Hughes M. E. Extensive exchange of rat liver microsomal phospholipids. Biochimica et Biophysica Acta 1977; 469: 99–110
  • Zimmerman M. L., Daleke D. L. Regulation of a candidate aminophospholipid-transporting ATPase by lipid. Biochemistry 1993; 32: 12257–12263
  • Zwaal R. F. A., Bevers E. M., Comfurius P., Rosing J., Tilly R. H. J., Verhallen P. F. J. Loss of membrane phospholipid asymmetry during activation of blood platelets and sickled red cells; mechanism and physiological significance. Molecular and Cellule Biochemistry 1989; 91: 23–31

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Order Reprints Request Corporate Permissions

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

Request Academic Permissions

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.