The localization of proteins to particular intracellular compartments often regulates their functions. Zyxin is a LIM protein found prominently at sites of cell adhesion, faintly in leading lamellipodia, and transiently in cell nuclei. Here we have performed a domain analysis to identify regions in zyxin that are responsible for targeting it to different subcellular locations. The N-terminal proline-rich region of zyxin, which harbors binding sites for ␣-actinin and members of the Ena/VASP family, concentrates in lamellipodial extensions and weakly in focal adhesions. The LIM region of zyxin displays robust targeting to focal adhesions. When overexpressed in cells, the LIM region of zyxin causes displacement of endogenous zyxin from focal adhesions. Upon mislocalization of full-length zyxin, at least one member of the Ena/VASP family is also displaced, and the organization of the actin cytoskeleton is perturbed. Zyxin also has the capacity to shuttle between the nucleus and focal adhesion sites. When nuclear export is inhibited, zyxin accumulates in cell nuclei. The nuclear accumulation of zyxin occurs asynchronously with approximately half of the cells exhibiting nuclear localization of zyxin within 2.3 h of initiating leptomycin B treatment. Our results provide insight into the functions of different zyxin domains.Cells change shape, migrate, proliferate, and differentiate in response to extracellular cues. Such sensitivity to environmental conditions is necessary for multiple processes including development, cell-mediated immunity, and organ regeneration (1, 2). Although much has been learned about a cell's capacity to recognize and respond to extracellular cues, in many cases we do not understand how engagement of a particular cell surface receptor triggers changes in cell behavior. One present challenge, for example, is to understand how engagement of integrin receptors for extracellular matrix can stimulate cell motility and changes in gene expression. In the past few years, several proteins that may contribute to these processes have been identified. For example, zyxin, a protein that is co-localized with integrins at sites of membrane-substratum adhesion, has properties that suggest it could participate in both localized actin polymerization and communication to the nuclear compartment.Zyxin is an elongate phosphoprotein composed of three C-terminal LIM domains, a proline-rich N-terminal region, and at least one nuclear export signal (NES) 1 (Fig. 1A) (3-6). Two binding partners for the LIM region of zyxin, H-warts/LATS1 and members of the cysteine-rich protein (CRP) family, have been identified (5, 7). H-warts/LATS1 is a tumor suppressor that is postulated to be an important regulator of mitotic progression (7). CRPs are thought to stabilize actin-rich structural elements in muscle (8,9). The N-terminal proline-rich region of zyxin displays docking sequences for several proteins implicated in actin assembly and organization including ␣-actinin and members of the Ena (enabled)/VASP (vasodilator-stimulate...
