diamide and merocyanine-dye

Intact native red blood cells (RBC) and treated RBC preparations were labelled with MC 540 and irradiated in the presence of diaminobenzidine (DAB). The polymerized diaminobenzidine reaction product is permanently stable in comparison with the labile fluorescence labelling. The brownish stained DAB polymerization product (DAB brown) and osmium black (after conversion of DAB brown with OsO4) allow the densitometrical determination with the light microscope. The latter product can be directly observed in the electron microscope. A direct correlation exists between the fluorescence intensity and the polymerized diaminobenzidine staining. It can be deduced that the enhancement of the DAB mediated contrast is reflecting an increased fluidity of the red cell membrane. The reaction was successful with all red cell preparations tested. This method is also suitable for the determination of fluidity changes in other cell membranes.

Topics: Diamide; Erythrocyte Membrane; Fluorescence; Humans; In Vitro Techniques; Membrane Fluidity; Microscopy, Electron; Oxidation-Reduction; p-Dimethylaminoazobenzene; Phenylhydrazines; Photochemistry; Pyrimidinones; Regression Analysis

Bovine erythrocytes, which normally lack phosphatidyl choline in their membranes, when treated with either H2O2 or diamide (1-3 mM), showed a partial appearance of phosphatidyl ethanolamine (PE 40%) and phosphatidyl serine (PS, 30-33%) in the external leaflet of the bilayer and a concomitant increased (four- to five-fold) propensity to adhere to cultured bovine aortic endothelial cells. Similar treatment of normal human erythrocytes caused an alteration in the organization of the phospholipid bilayer and also resulted in their increased adherence to endothelial cells derived either from human umbilical vein or bovine aorta. Treatment of RBCs with H2O2 at low concentration (0.5 mM) resulted in cross-linking of spectrin without significant changes in the orientation of aminophospholipids but the RBCs exhibited 15-20% increase in adherence to endothelial cells. Pretreatment of either human or bovine erythrocytes with antioxidants such as vitamin E (2 mM) prevented both oxidant-induced reorganization of phospholipids in the bilayer and enhancement of adherence to endothelial cells. Introduction of either phosphatidyl serine or phosphatidyl ethanolamine but not phosphatidyl choline into erythrocyte membranes increased their adherence to endothelial cells threefold. Oxidant-treated RBCs exhibited enhanced binding and fluorescence of Merocyanine 540 dye (MC-540), which is sensitive to the packing of lipids in the lipid bilayer. On flow cytometric analysis, 78% of H2O2 (0.5 mM)-treated erythrocytes compared to 30% of untreated RBCs exhibited MC-540 binding and fluorescence, indicating differences in the lipid packing in the outer leaflet of the bilayer. Oxidant-treated erythrocytes adhere preferentially to endothelial cells rather than to bovine aortic smooth muscle cells and skin fibroblasts. It is suggested that the alterations in the erythrocyte membrane surface due to spectrin cross-linking and the organization of the phospholipids concomitant with less ordered packing in the external leaflet of the bilayer, either induced by oxidative manipulation in normal RBC or in pathological erythrocytes, play a role in erythrocyte-endothelial cell interaction.

Topics: Animals; Azo Compounds; Calcium; Cattle; Cell Adhesion; Cells, Cultured; Diamide; Endothelium, Vascular; Erythrocytes; Flow Cytometry; Humans; Hydrogen Peroxide; Lysophosphatidylcholines; Membrane Proteins; Oxidation-Reduction; Phospholipids; Pyrimidinones