Abstract: | Removal of spectrin and other proteins of membrane skeleton from rat erythrocyte membranes resulted in a significant loss of Na,K-ATPase and Ca-ATPase activities, and even more of respective phosphatase activities. At the same time the modulating influence of ATP and Ca2+ on the enzymes disappeared. These ATPase activities were reconstituted by addition of concentrated spectrin to spectrin-depleted membranes. The activating influence of Ca2+ on ouabain-resistant and ouabain-sensitive phosphatases in ghosts could be discovered only in the presence of ATP. The highest activities of both the phosphatases were revealed when both ATP (0.5 mM) and Ca2+ (10-30 mM) were present simultaneously in the incubation medium. These data show that the functioning of transport ATPases in non-nuclear erythrocyte membranes is related to the membrane skeleton: regulating influence of intracellular ATP and Ca2+ on enzymes seems to be realized through the proteins of the skeleton. |