Cofilin, a 21-kDa actin-binding protein, has a hexapeptide sequence DAIKKK which is identical to the N-terminal portion (residues 2 -7) of tropomyosin. The synthetic heptapeptide, DAIKKKL, corresponding to residues 122 -128 of cofilin, inhibited the binding of cofilin to F-actin in a dose-dependent manner. The heptapeptide cosedimented with F-actin, decreased the fluorescence intensity of pyrene-labeled F-actin, and increased the rate of polymerization of G-actin. The hexapeptides, DIKKKL and DAIKKL, also inhibited the binding of cofilin to F-actin and affected the fluorescence intensity of pyrene-labeled F-actin and the rate of actin polymerization, like the heptapeptide. However, their effects were weaker than those of the heptapeptide. Moreover, the pentapeptide, DIKKL, had little or no effect. These results suggest that the heptapeptide sequence is specific for the interaction with actin and, therefore, may constitute part of the actin-binding domain of cofilin.Cofilin is a ubiquitous actin-modulating protein that binds to both G-actin and F-actin in a 1 : 1 molar ratio of cofilin to actin molecules in vitro [l -41. It shortens the average length of F-actin and increases the steady-state concentration of G-actin to a limited extent at neutral pH [l]. Moreover, cofilin is shown to control actin polymerization in a pH-dependent manner in vitro [5].Recently, we have determined the entire amino acid sequence of cofilin derived from porcine brain by cDNA cloning and sequencing [6]. Cofilin has a hexapeptide DAIKKK (residues 122 -127) identical to the amino-terminal sequence (residues 2 -7) of tropomyosin. This is interesting because cofilin and tropomyosin compete with each other for binding to F-actin [l]. Cofilin could be cross-linked to the aminoterminal region of actin molecule with a zero-length crosslinker which links a carboxyl group to an amino group [7]. Because the amino-terminal portion of the actin molecule is rich in acidic residues, basic amino acid residues of cofilin may be involved in the binding of cofilin to actin [7]. The fact that the binding of cofilin to actin is inhibited at high ionic strength (2, 81 also suggests the importance of electrostatic interactions between cofilin and actin. Thus, the DAIKKK sequence, which contains three consecutive basic residues, is a possible candidate for an actin-binding site in the cofilin sequence.In this study, we synthesized a DAIKKKL heptapeptide corresponding to residues 122 -128 of cofilin, and examined its effect on the binding of cofilin to actin and its direct interaction with actin. The actions of other synthetic peptides, DIKKKL, DAIKKL and DIKKL, were also examined.Correspondence to E. Nishida, Department of Biophysics and Biochemistry, Faculty of Science, University of Tokyo, 7-3-1 Hongo, Bunkyo-ku, Tokyo-shi, Tokyo-to, Japan 113
MATERIALS AND METHODS
ProteinsCofilin was purified from porcine brain by the method described previously (81. Actin was prepared from rabbit skeletal muscle according to the method of Spudich and Watt [9], and furth...
