On the red blood cell Ca2+-pump: an estimate of stoichiometry.

Efflux of Ca2+ from reversibly hemolyzed human red blood cells ghosts was determined by a Ca2+ selective electrode, by atomic absorption spectroscopy, and by the use of 45Ca. Hydrolysis of ATP was determined by measurement of inorganic phosphate (Pi). At 25 degrees C, ghosts loaded with CaCl2, MgCl2, Na2ATP, and Tris buffer (pH 7.4) extruded Ca2+, with mean rates ranging from 58.8 +/- 3.5 (SD) to 74.7 +/- 8.2 (SD) mumoles.liter ghosts -1.min-1 depending on the method of Ca2+ determination. The ratio of Ca2+ transport to Pi released in the presence of ouabain without correction for background ATP splitting was 0.83, 0.83, and 0.80, respectively, for the three methods of Ca2+ determination. Correction for the ATPase activity not associated with Ca2+ transport resulted in a ratio of 0.91:1. In other experiments, the use of La3+ to inhibit the Ca2+-pump allowed an estimate of the ATPase activity associated with Ca2+ extrusion. In the presence of various concentrations of La3+, the ratio of Ca2+ pumped to Pi liberated was 0.86 or 1.02, depending on the method of Ca2+ determination. It is concluded that the stoichiometry of the Ca2+-pump of the RBC plasma membrane is one Ca2+ pumped per ATP hydrolyzed.