Calcium transport in human erythrocytes: Separation and reconstitution of high and low Ca affinity (Mg + Ca)-ATPase activities in membranes prepared at low ionic strength

Abstract

Human erythrocyte membranes obtained by freeze-thawing of ghosts prepared in the absence or presence of EDTA, by washing with a 12 mosm medium at pH 7.7 or a 2 mosm medium at pH 6.5 contain both high and low Ca affinity (Mg + Ca)-ATPase activities. Incubation of ghosts in a less than 2 mosm medium at pH 7.5 or in 0.1 m m EDTA + 1 Him Tris-maleate (pH 8.0) results in removal of the high affinity (Mg + Ca)-ATPase activity from the membrane in a time dependent manner. Under similar conditions up to 25% of membrane proteins are removed. The soluble protein fraction extracted, although devoid of ATPase activity, reconstitutes with the remaining membrane residue with restoration of original (Mg + Ca)-ATPase activity. Addition of the soluble protein fraction to heat-treated membranes devoid of low affinity (Mg + Ca)-ATPase activity allows reconstitution of more than 33% of the original high affinity (Mg + Ca)-ATPase activity which has a Ca dissociation constant of approximately 1.6μ m. Temperature and phospholipase A 2 studies indicate that low affinity (Mg + Ca)-ATPase activity is phospholipid dependent in contrast to high affinity (Mg + Ca)-ATPase activity. Ruthenium red and LaCl 3 inhibit both high and low affinity (Mg + Ca)-ATPase activities with similar potencies. The ease of removal of high affinity (Mg + Ca)-ATPase activity from the membrane by relatively mild conditions suggests that an activator protein or the high affinity (Mg + Ca)-ATPase itself is only loosely attached to the membrane. These studies show that low affinity (Mg + Ca)-ATPase activity is not an artifact and is distinct from high affinity (Mg + Ca)-ATPase activity. The low affinity (Mg + Ca)-ATPase activity is sensitive to Ca 2+ in the concentration range from below 0.3 μ m to 300 μ m compatible with an association of this enzyme with Ca transport.