Red Cell Membrane Response to Hydrogen Peroxide‐Sensitivity in Hereditary Xerocytosis and in Other Abnormal Red Cells

Abstract

Summary. Osmotically resistant red cells associated with some haemolytic anaemias, including hereditary xerocytosis, sickle‐cell disease and β thalassaemia minor, are more sensitive than normal red cells to exogenous in vitro hydrogen peroxide (H₂O₂). This sensitivity is manifested by a rapid loss of intracellular potassium, shape change, protein aggregation, and methaemoglobin formation at lower concentrations of H₂O₂ (225 μm.) than are required to induce similar effects in normal red cells (450 μm). Malonyldialdehyde (MDA) formation occurs later than the other effects and can be inhibited by the antioxidant, butylated hydroxytoluene (BHT), without affecting protein aggregation or potassium leak. Incubation of normal red cells directly with MDA induces protein aggregation, but only after 1 h of incubation. Although nystatin‐sucrose treated normal cells which are dehydrated with altered cation content, and therefore osmotically resistant, do not display abnormal H₂O₂ hypersentitivity as manifested by excessive potassium permeability, they do show an increase in methaemoglobin formation and protein aggregation similar to xerocytes. These data indicate that membrane protein cross‐linking occurring immediately following H₂O₂ exposure seems independent of either the sulfhydryl or MDA mechanisms, and that the membrane permeability of the abnormal red cells predisposes them to oxidative damage.