Pizani, B. F.; Dover, L. M.; Cobb, M.; Lloyd, J.; Hardeman, J. M.; Litwa, K. A.; Hughes, R. M.

Cofilin is a key regulator of actin dynamics that, along with a myriad of other actin-binding proteins, controls the balance of F- and G-actin in numerous cell types. While prior structural studies of the cofilin-actin binding interface have delineated many critical interactions between cofilin and actin, the roles of some residues within the cofilin-actin binding interface remain poorly defined. In this study, we investigate the role of cofilin S119 in the cofilin-actin interaction. Despite its unique position within the cofilin-actin interface and its putative role as a phosphorylation site, relatively little direct evidence exists to define whether it plays an important role in cofilin-actin dynamics. Using site-directed mutagenesis, we demonstrate that mutation of S119 to aromatic amino acids (W, F, Y) results in cofilins with strong actin bundling activity in living cells. This activity can be countered by the incorporation of mutants that disfavor actin rod forming activity (R21Q). Mutation of S119 to phospho-mimic (E) and non-phosphorylated (A) residues either strongly inhibits (E) or modestly increases (A) actin bundling activity. Expression of the S119W mutant in neurons reveals its impacts on spine length and size, while FRAP studies show that its mobile fraction is intermediate between that of LifeAct and WT cofilin. Finally, it is shown that the strong actin bundling phenotype associated with S119W inhibits the progression of optogenetically induced apoptosis.