Actin—membrane interactions: Association of G‐actin with the red cell membrane

Abstract

Chemically tritiated actin from rabbit skeletal muscle was used to investigate the association of G‐actin with the red cell membrane. The tritiated actin was shown to be identical to unmodified actin in its ability to polymerize and to activate heavy meromyosin ATPase. Using sealed and unsealed red cell ghosts we have shown that G‐actin binds to the cytoplasmic but not the extracellular membrane surface of ghosts. Inside‐out vesicles which have been stripped of endogenous actin and spectrin by low‐ionic‐strength incubation bind little G‐actin. However, when a crude spectrin extract containing primarily spectrin, actin, and band 4.1 is added back to stripped vesicles, subsequent binding of G‐actin can be increased up to 40‐fold. Further, this crude spectrin extract can compete for and abolish G‐actin binding to unsealed ghosts. Actin binding to ghosts increases linearly with added G‐actin and requires the presence of magnesium. In addition, actin binding is inhibited by cytochalasin B and DNAase I. Negative staining reveals an abundance of actin filaments formed when G‐actin is added to reconstituted inside‐out vesicles but none when it is added to unreconstituted vesicles. These observations indicate that added G‐actin binds to the red cell membrane via filament formation nucleated by some membrane component at the cytoplasmic surface.