Cofilin is a regulator of actin filament dynamics. We studied whether during platelet activation Rho kinase stimulates LIM kinase (LIMK) leading to subsequent phosphorylation and inactivation of cofilin. Platelet shape change and aggregation/secretion were induced by low and high concentrations of thrombin, respectively. We found that during these platelet responses Rho kinase activation was responsible for mediating rapid Thr508 phosphorylation and activation of LIMK-1 and for the F-actin increase during shape change and, in part, during secretion. Surprisingly, during shape change cofilin phosphorylation was unaltered, and during aggregation/secretion cofilin was first rapidly dephosphorylated by an okadaic acid-insensitive phosphatase and then slowly rephosphorylated by LIMK-1. LIMK-1 phosphorylation and cofilin dephosphorylation and rephosphorylation during aggregation were independent of integrin ␣ IIb  3 engagement. Cofilin phosphorylation did not regulate cofilin association with F-actin and was unrelated to the F-actin increase in thrombin-activated platelets. Our study identifies LIMK-1 as being activated by Rho kinase in thrombinstimulated platelets. Two counteracting pathways, a cofilin phosphatase and LIMK-1, are activated during platelet aggregation/secretion regulating cofilin phosphorylation sequentially and independently of integrin ␣ IIb  3 engagement. Rho kinasemediated F-actin increase during platelet shape change and secretion involves a mechanism other than LIMK-1-mediated cofilin phosphorylation, raising the possibility of another LIMK substrate regulating platelet actin assembly.
IntroductionDynamic remodeling of actin structures underlies the different morphologic and functional platelet responses such as shape change, spreading, secretion, and aggregation. 1,2 The remodeling of actin is mediated by factors that regulate actin polymerization and depolymerization, disassembly of existing filaments, formation of new filaments, crosslinking of filaments to networks, and bundling of actin filaments. [3][4][5] They include signaling proteins that regulate actin dynamics as well as proteins that bind directly to actin and modulate the diverse actin structures. A key protein regulating actin remodeling is cofilin, 6,7 an essential, ubiquitously expressed and highly conserved actin-binding protein. Binding of cofilin to actin filaments stabilizes a twisted form of F-actin, thereby weakening lateral subunit interactions and promoting filament severing and depolymerization. 8,9 However, filament severing by cofilin also results in the generation of free barbed ends, which in turn is crucial for efficient enhancement of actin polymerization. [10][11][12] Cofilin is therefore an actin dynamizing protein, which favors depolymerization or polymerization of actin, depending on the cellular content of actin filaments relative to actin monomers and free barbed ends. 13 In unstimulated cells cofilin is present both in a phosphorylated and a nonphosphorylated form. 14,15 The depolymerizing activity of co...
