Calcium pump phosphoenzyme from young and old human red cells.

An increase in intracellular Ca(2+) occurs during ageing of human erythrocytes in vivo. The aged cells show a reduced capacity for active Ca(2+) extrusion. Such a defect may arise from pump proteolysis, due to calpain activation by the raised intracellular Ca(2+). To test this possibility, Ca(2+) pump phosphorylation by [gamma-(32)P]ATP was studied on percoll-separated young and old human erythrocytes. After phosphorylation for 30 s with Ca(2+), the amount of phosphoenzyme produced by the young cell membranes was 50% that of the old cells. With Ca(2+) plus La(3+), in contrast, the phosphoenzyme level was nearly the same in both preparations. After a prolonged phosphorylation period (50-90 s), the phosphoenzyme reached almost identical equilibrium levels in both membrane preparations. On the other hand, a single Ca(2+)-dependent radioactive band of about 150 kDa was apparent in both preparations after acidic electrophoresis. Likewise, Western blotting using 5F10 monoclonal antibody also detected a single band of similar molecular weight. These results demonstrate that there is no alteration in either molecular mass or number of active Ca(2+) pump units during cell ageing, thus indicating that the reduced Ca(2+) pumping activity of aged cells does not arise from pump proteolysis. Copyright 2002 Published by Elsevier Science Ltd.