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      Molecular Cloning of Human Plasma Membrane Phospholipid Scramblase : A PROTEIN MEDIATING TRANSBILAYER MOVEMENT OF PLASMA MEMBRANE PHOSPHOLIPIDS

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          Static and dynamic lipid asymmetry in cell membranes.

          P F Devaux (1991)
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            Fluorescence assay for phospholipid membrane asymmetry.

            Highly fluorescent 7-nitro-2,1,3-benzoxadiazol-4-yl-lipid (NBD-lipid) analogues are widely used to examine lipid transport and membrane structure. We have developed a method for chemically modifying NBD-labeled lipids in both artificial and biological membranes. This was achieved by treating fluorescently labeled membranes with dithionite (S2O4(-2)). When small unilamellar vesicles containing NBD-labeled phospholipids were reacted with dithionite, only the fluorescent lipid located on the outer leaflet of the vesicles' bilayer was reduced. Seven different NBD-lipid analogues, including a fluorescent sterol, were reduced by treatment with dithionite to nonfluorescent 7-amino-2,1,3-benzoxadiazol-4-yl-lipid derivatives. To assess the feasibility of using this reagent in biological systems, N-(7-nitro-2,1,3-benzoxadiazol-4-yl)dioleoylphosphatidylethanol ami ne was inserted into the outer leaflet of the plasma membrane of CHO-K1 cells. Subsequent incubation of these cells with a nontoxic concentration of dithionite resulted in the complete loss of fluorescence from the plasma membrane. In contrast, when cells were permitted to endocytose some of their fluorescently labeled plasma membrane and then treated with dithionite, fluorescence at the plasma membrane was eliminated, while intracellular labeling was not affected. These data suggest that dithionite reacts with NBD-labeled lipids in the outer leaflet of membrane bilayers, producing nonfluorescent derivatives. We demonstrate how reduction of NBD-lipids with dithionite can be used to prepare asymmetrically labeled liposomes and to measure transverse-membrane asymmetry in vesicles. This method should be useful in many biochemical investigations, including the measurement of phospholipid translocase activity.
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              Isolation of an erythrocyte membrane protein that mediates Ca2+-dependent transbilayer movement of phospholipid.

              Elevation of intracellular Ca2+ in erythrocytes, platelets, and other cells initiates rapid redistribution of plasma membrane phospholipids (PL) between inner and outer leaflets, collapsing the normal asymmetric distribution. Consequently, phosphatidylserine and other lipids normally sequestered to the inner leaflet become exposed at the cell surface. This Ca2+-induced mobilization of phosphatidylserine to the surface of activated, injured, or apoptotic cells confers a procoagulant property to the plasma membrane, which promotes fibrin clotting and provides a signal for cell removal by the reticuloendothelial system. To identify the constituent of the membrane that mediates this Ca2+-dependent "PL scramblase" activity, we undertook purification and reconstitution of membrane component(s) with this activity from detergent extracts of erythrocyte ghosts depleted of cytoskeleton. Active fractions were identified by their capacity to mediate the Ca2+-dependent redistribution of 7-nitrobenz-2-oxa-1,3-diazol-4-yl-labeled PL between leaflets of reconstituted proteoliposomes. This PL scramblase activity co-eluted through multiple chromatographic steps with a single polypeptide of approximately 37 kDa, which was purified to apparent homogeneity as resolved by silver staining. The activity associated with this protein band was inactivated by trypsin. The isolated protein reconstituted in proteoliposomes mediated nonselective, bidirectional transport of 7-nitrobenz-2-oxa-1, 3-diazol-4-yl-PL between membrane leaflets, with half-maximal activation between 20 and 60 microM Ca2+ (saturation >100 microM), mimicking the Ca2+-dependent transbilayer lipid movement intrinsic to the erythrocyte membrane.
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                Author and article information

                Journal
                Journal of Biological Chemistry
                J. Biol. Chem.
                American Society for Biochemistry & Molecular Biology (ASBMB)
                0021-9258
                1083-351X
                July 18 1997
                July 18 1997
                July 18 1997
                : 272
                : 29
                : 18240-18244
                Article
                10.1074/jbc.272.29.18240
                76821cf9-c05e-41e6-8d55-104256ed5fad
                © 1997
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