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1. Investigation of monovalent cation influxes of diamide-treated human erythrocytes in solutions of different ionic strenght

Author

Gisela Seidler, Andreas Erdmann, Elke Hessel, Ingolf Ihrig, and Ingolf Bernhardt

Subjects
Male, Dithioerythritol, Sodium, Potassium, Biophysics, chemistry.chemical_element, Sodium Chloride, Biochemistry, Ouabain, Potassium Chloride, chemistry.chemical_compound, medicine, Humans, Diamide, Chromatography, Erythrocyte Membrane, Osmolar Concentration, Biological Transport, Cell Biology, Solutions, chemistry, Ionic strength, Cotransporter, Bumetanide, Cation transport, medicine.drug
Abstract

Total and residual i.e. (ouabain + bumetanide + EGTA)-insensitive K+ as well as Na+ influxes were investigated in human erythrocytes before and after treatment with diamide (5 mM). In physiological and in low ionic strength solution these influxes were increased after diamide treatment. Diamide-treated cells do not exhibit significant differences between the total and residual influxes for both Na+ and K+. The diamide-induced cation fluxes in low ionic strength solution are significantly higher compared with the fluxes in physiological ionic strength solution. The diamide-induced K+ influx is not chloride-dependent, and replacement of NaCl by sodium methylsulfate does not significantly reduce this flux. A subsequent incubation of diamide-treated erythrocytes with dithioerythritol which restores the cellular glutathione level to its original value only partly decreases the enhanced K+ influx. From these results it can be concluded that electrodiffusion and K/Cl cotransport are not involved in the diamide-induced stimulation of the residual K+ influx of human erythrocytes.

Published
1991
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2. Signal transduction in the visual cascade involves specific lipid-protein interactions

Author

Martin Heck, Andreas Herrmann, Klaus Peter Hofmann, Elke Hessel, and Peter Müller

Subjects
Models, Molecular, Protein Conformation, Lipid Bilayers, Phospholipid, Guanosine, GTP-Binding Protein alpha Subunits, Gi-Go, Biochemistry, chemistry.chemical_compound, Retinal Rod Photoreceptor Cells, Phosphatidylcholine, Animals, Transducin, Bovine serum albumin, Molecular Biology, Phospholipids, Vision, Ocular, Phosphatidylethanolamine, biology, Phosphoric Diester Hydrolases, Vesicle, Serum Albumin, Bovine, Cell Biology, Phosphatidylserine, Darkness, Kinetics, chemistry, biology.protein, Biophysics, Cattle, Spin Labels, sense organs, Lipid Peroxidation, Signal Transduction
Abstract

In retinal rod photoreceptor cells, transducin (Gt) and cyclic GMP phosphodiesterase (PDE) are peripherally anchored to the cytoplasmic surface of the disk saccules. We have examined the role of specific phospholipids in the interaction of these proteins with native osmotically intact disk vesicles, employing spin-labeled phospholipid analogues (2% of total phospholipids) and bovine serum albumin back-exchange assay. Inactive GDP-bound transducin exclusively reduced the extraction of negatively charged phosphatidylserine. The effect disappeared upon activation of the G-protein with guanosine 5'-O-(3-thiotriphosphate) (GTPgammaS). PDE affected the extraction of the zwitterionic phosphatidylcholine and, to a smaller extent, of phosphatidylethanolamine. When active GtGTPgammaS interacted with the PDE to form the active effector, the interaction with phosphatidylcholine was specifically enhanced. Each copy of the G-protein bound 3 +/- 1 molecules of phosphatidylserine, whereas the PDE bound a much larger amount (70 +/- 10) of a mixture of phosphatidylcholine and ethanolamine. The results are interpreted as a head group-specific and state-dependent interaction of the signaling proteins with the phospholipids of the photoreceptor membrane.

Published
2003

3. Light-induced reorganization of phospholipids in rod disc membranes

Author

Andreas Herrmann, Elke Hessel, Klaus Peter Hofmann, and Peter Müller

Subjects
Rhodopsin, Light, Phospholipid, Phosphatidylserines, Biochemistry, Serine, chemistry.chemical_compound, Ethanolamine, Choline, Animals, Transducin, Bovine serum albumin, Molecular Biology, Phospholipids, Chromatography, biology, Vesicle, Phosphatidylethanolamines, Biological Transport, Cell Biology, Rod Cell Outer Segment, Peptide Fragments, Membrane, chemistry, Light induced, biology.protein, Phosphatidylcholines, Cattle, Spin Labels
Abstract

The transbilayer redistribution of spin-labeled phospholipid analogues (SL-PL) with choline, serine, and ethanolamine head groups (PC, PS, and PE, respectively) was studied on intact disc vesicles of bovine rod outer segment membranes in the dark and after illumination. Redistribution was measured by the extraction of spin-labeled lipid analogues from the outer leaflet of membrane using the bovine serum albumin back-exchange assay. In the dark, PS was distributed asymmetrically, favoring the outer leaflet, whereas PC and PE showed small if any asymmetry. Green illumination for 1 min caused lipid head group-specific reorganization of SL-PL. Extraction of SL-PS by bovine serum albumin showed a fast transient (10 min) enhancement, which was further augmented by a peptide stabilizing the active metarhodopsin II conformation. The data suggest a direct release of 1 molecule of bound PS per rhodopsin into the outer leaflet and subsequent redistribution between the two leaflets. SL-PE and SL-PC showed more complex kinetics, in both cases consistent with a prolonged period of reduced extraction (2 phospholipids per rhodopsin in each case). The different phases of SL-PL reorganization after illumination may be related to the formation and decay of the active rhodopsin species and to their subsequent regeneration process.

Published
2000

4. The transbilayer distribution of phospholipids in disc membranes is a dynamic equilibrium evidence for rapid flip and flop movement

Author

Elke Hessel, Paul P. M. Schnetkamp, Klaus Peter Hofmann, Andreas Herrmann, and Peter Müller

Subjects
Chromatography, biology, Osmotic shock, Chemistry, Bilayer, Vesicle, Lipid Bilayers, Phospholipid, Electron Spin Resonance Spectroscopy, Flippase, Rod Cell Outer Segment, Biochemistry, chemistry.chemical_compound, Membrane, Ethanolamine, Adenosine Triphosphate, Ethylmaleimide, Biophysics, biology.protein, Translocase, Animals, lipids (amino acids, peptides, and proteins), Cattle, Spin Labels, Phospholipids
Abstract

We studied the transbilayer redistribution of phospholipids in bovine rod outer segment membranes on thoroughly washed, Ficoll-floated osmotically intact disc vesicles; freshly prepared membranes separated from the disc stack by osmotic shock; and intact disc stacks with a permeabilized plasma membrane (A-discs, B-discs C-discs, respectively). In all cases, spin-labelled phospholipid analogues (SL-PL) with choline, serine and ethanolamine head groups (PtdCho, PtdSer and PtdEtn, respectively) were taken up into the outer leaflet of the membranes by90% and within less than 30 s after SL-PL addition, as deduced from the disappearance of spin-label from the suspension medium and from the specific ESR spectrum of membrane-associated spin-label. Using BSA extraction, the amount of SL-PL in the outer leaflet of the bilayer was determined. It decreased with a mean half-time of5 min at 25 degrees C, indicating rapid redistribution of all spin-labelled phospholipids into the inner leaflet of the disc membranes. After 1 h, PtdCho and PtdEtn were distributed almost symmetrically, whereas PtdSer was 35 : 65% (in/out). Using subsequent incubation with BSA, the outward movement (flop) of the analogues was observed directly, demonstrating that inward and outward movements proceed in thermodynamic equilibrium. No effect of N-ethylmaleimide or ATP on the redistribution could be measured, which makes it unlikely that energy-consuming translocase or flippase processes are involved in the redistribution in the dark. We reason that the solubilization zone around the photoreceptor rhodopsin may be the locus of rapid redistribution of the highly unsaturated disc phospholipid.

Published
2000

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