Alteration of the mechanical properties of sickle cells by repetitive deoxygenation: role of calcium and the effects of calcium blockers

Abstract

The formation of dense, poorly deformable sickle cells was studied by subjecting pre-separated, less dense cells to repeated deoxygenation and reoxygenation for 15 h. In the presence of Ca (2 mmol/l), this process caused the number of irreversible sickled cells to increase five-fold, mean cell haemoglobin concentration to increase by 13% and cellular potassium to decrease by 22%. Also, red cell filterability through 5 .mu.M filter pores was greatly worsened. These effects decreased but were not totally abolished when the extracellular Ca concentration was lowered to zero or 0.01 mmol/l. If a high K medium was used (135 mmol/l), cell swelling rather than shrinkage occurred. Swelling also occurred if ouabain was added to the incubation. The Ca-channel blockers nitrendipine and nisoldipine had different effects. Nitrendipine, in the range 10-7-10-5 mol/l, was partially protective against all the induced changes, but nisoldipine was not protective at 10-8 or 10-6 mol/l. Thus, deterioration in the properties of sickle cells appears to be linked to Ca-dependent potassium loss during repeated sickling and is inhibited by nitrendipine.