Tumor cell motility is one of the rate-limiting steps of invasion, which defines progression toward a more malignant phenotype. Elevated expression of epidermal growth factor (EGF) receptor in many cancers is associated with progression of superficial to invasive forms of the disease and is sometimes found in tumors that also have activating Ras mutations, suggesting that both events contribute to tumor invasion. Here we show that EGF stimulates motility in human tumor cell lines, which harbor activating Ha-RasV12 via a novel signal transduction pathway mediated by the small GTP-binding proteins RalA and RhoA but independent of Rac1 and Cdc42. On EGF stimulation, RalA localizes to the cell membrane. In addition, activation of RalA and expression of Rho were increased by EGF stimulation in both the nonmetastatic and metastatic variants of the same cell line. However, elevated levels of constitutively activated RalA were only found in the metastatic variant. This is the first demonstration of an essential role for Ral in EGF-mediated cell motility and its potential contribution to tumor metastasis in human cancer.