An actin-modulating protein from Physarum polycephalum. I. Isolation and purification.

High-speed centrifugation supernatants from slime mould plasmodia show considerable activities to inhibit the polymerization of actin as revealed by viscosity measurements. By following increasing inhibitory activities an actin modulating protein (AM-protein) has been isolated and purified which affects the polymer state of actin. AM-protein has a peptide chain weight of 42 000 and is thus indistinguishable from actin by SDS-electrophoresis, but can be clearly distinguished by isoelectric focussing. Peptide maps from partial proteolytic digests of AM-protein and Physarum actin reveal no similarities thereby excluding that AM-protein is a denatured or modified form of actin. The protein is isolated from crude extracts as a heterodimer with actin to which it strongly binds. This heterodimer affects the polymerization of large amounts of actin by inducing oligomeric or low-polymer actin complexes and thus inhibiting the formation of long actin filaments. The AM-protein/actin heterodimer has only a slight effect of F-actin. It partially depolymerized F-actin within several hours. By ion exchange chromatography in 8 M urea the AM-protein is separated from the actin. The purified AM-protein monomer is renatured and inhibits the polymerization of actin like the heterodimer but additionally, depolymerizes actin filaments very rapidly and effectively by breaking them into oligomer or low-polymer complexes. The addition of less than 1% AM-protein causes a decrease of the specific viscosity of an F-actin solution by 50%. The degree of polymerization inhibition and depolymerization of actin is strictly dependent on the amount of AM-protein added; therefore a catalytic type of reaction between both proteins can be excluded.